BSC6900 GSM V900R012C03 Parameter Reference
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Purpose
This document provides information about the BSC6900 parameters, including the meaning, value, and usage of th
Intended Audience •Network planners •Field engineers •System engineers •Shift operators
Organization Each parameter is described in the following aspects. Description MO Parameter ID Parameter Name NE MML Command Meaning IsKey Mandatory Feature ID Feature Name Value Type GUI Value Range Actual Value Range Unit Default Value Recommended Value Impact Parameter Relationship Access Service Interrupted After Modification Interruption Scope
Interruption Duration (min) Caution Validation of Modification Impact on Radio Network Performance Introduced in Version Attribute
n about the BSC6900 parameters, including the meaning, value, and usage of the parameters.
following aspects. Remarks Managed object of NE Simple string for identifying a parameter Name of the parameter NEs on which the parameter is set Commands for setting the parameter Definition, purpose, and protocols of the parameter Whether the parameter is used to identify an MO instance Whether the parameter is mandatory for creating an MO instance ID of the feature that uses the parameter Name of the feature that uses the parameter Parameter value type Parameter value range displayed on the GUI Actual parameter value range corresponding to the GUI Value Range Parameter value unit Initial parameter value assigned by the system. There is no default value for a mandatory parameter. None indicates that there is no default value. For a bit field parameter, the value ON of a sub-parameter means that the bit representing the sub-paramet Parameter values recommended for different scenarios Parameter impact scope, that is, objects specified when the parameter is set Relationship between this parameter and other parameters. For example, to use this parameter, you need to set related switches and parameters. Whether this parameter is Read & Write or Read Only. Whether modifying the parameter value interrupts the ongoing services Possible interruption scope
Possible interruption duration (unit: minute) Cautions to be taken during the modification How this parameter takes effect and whether the equipment needs to be restarted after the modification Impact of the parameter on radio network performance Product version in which the parameter is introduced Whether the parameter is a radio parameter, a transport parameter, or an equipment parameter
MO
Parameter ID
Parameter Name
NE
SUBRACK
SRN
Subrack No.
BSC6900
ABISLOADSHARE
SRN
Subrack No.
BSC6900
ABISLOADSHARE
OUTSN
Load Outlet Slot No. BSC6900
ABISLOADSHARE
TRANSSN
Load Transmitting Slot No.
BSC6900
ABISLOADSHARE
SHARESN
Load Sharing Slot No.
BSC6900
ADJMAP
ANI
Adjacent Node ID
BSC6900
ADJMAP
ITFT
Interface Type
BSC6900
ADJMAP
TMIGLD
TRMMAP index
BSC6900
ADJMAP
FTI
Factor table index
BSC6900
ADJNODE
ANI
Adjacent Node ID
BSC6900
ADJNODE
NAME
Adjacent Node Name
BSC6900
ADJNODE
NODET
Adjacent Node Type
BSC6900
ADJNODE
BTSID
Site Index
BSC6900
ADJNODE
BSCID
BSC ID
BSC6900
AE1T1
SRN
Subrack No.
BSC6900
AE1T1
SN
Slot No
BSC6900
AE1T1
PN
Port No
BSC6900
AE1T1
OPMODE
Operation Mode
BSC6900
AE1T1
STCIC
Start CIC
BSC6900
AE1T1
ALLTSTYPE
Timeslot Type
BSC6900
AE1T1
TSN
TS NO
BSC6900
AE1T1
TSTYPE
TS TYPE
BSC6900
AE1T1
CICNO
CIC NO
BSC6900
AE1T1
DPCGIDX
DPC Group Index
BSC6900
AE1T1
OPCIDX
OPC Index
BSC6900
AE1T1
BSCFLAG
BSC Flag
BSC6900
AE1T1
SUBBSCTID
ID of slave BSC in TC Pool
BSC6900
AISSCFG
TASKIDX
AISS Task Index
BSC6900
AISSCFG
GATHON
Offset Information Collection Switch
BSC6900
AISSCFG
ADTON
Offset Time Adjustment Switch
BSC6900
AISSCFG
BASEBTSID
AISSCFG
REINITTBL
Reference BTS Index Reinitialize Neighbour Cell Table
AISSCFG
ISSPTBSCAISS
Support BSC AISS BSC6900
AISSCFG
ISBASICBSC
Base BSC
BSC6900
AISSCFG
CTRBSCDPC
Control BSC DPC
BSC6900
AISSCFG
INCHPRD
Fine Tuning Period in BSC BSC6900
AISSCFG
INCHLOD
AISSCFG
GATHST
AISSCFG
GATHET
AISSCFG
ADTST
AISSCFG
ADTET
Fine Tuning Threshold Offset Information Collection Start Time
BSC6900
BSC6900
BSC6900
BSC6900
Offset Information Collection End Time BSC6900 Offset Time Adjustment Start Time BSC6900 Offset Time Adjustment End Time BSC6900
AISSCFG
BSCGATHST
AISSCFG
BSCGATHET
BSC Offset Information Collection Start Time BSC6900 BSC Offset Information Collection End Time BSC6900
AISSCFG
GATHLOD
Load Threshold of Offset Collection
BSC6900
AISSCFG
ADTLOD
Load Threshold of Offset Adjustment
BSC6900
AISSCFG
SIGOBS
Signal Strength Observation Times BSC6900
AISSCFG
SIGLAST
Signal Strength Duration Times
AISSCFG
DWNINTEN
DL Signal Strength Limit BSC6900
AISSCFG
MS
AISSCFG
TWFRRMRSP
AISSCFG
TWFCSCHIDLE
AISSCFG
TWFCMTRXIDLE
AISSCFG
TWFCMCHIDLE
AISSCFG
TWFSEEKMS
AISSCFG
TWFSYNCACK
AISSCFG
TWFSYNCRPT
AISSCFG
ABLASTTIME
MS Search Timer BTS Reserved Resource Activation Timer BTS SYNC_REPORT Timer Duration of BTS Collecting AB[100 Millisecond]
AISSCFG
ACTTIME
Valid Time of BTS Resource Activation BSC6900
AISSCFG
INTERIORSYNCTMR
BSC Interior Clock Synchronize Protect Time BSC6900
AISSCFG
HOREFTMR
BSC HO Protect Time
BSC6900
AISSCFG
BSCINCHPRD
BSC Fine Tuning Period
BSC6900
Number of MSs Information Collection Response Timer Serving Cell TCHF Reservation Timer Observation Cell TRX Reservation Timer Observation Cell Channel Reservation Timer
BSC6900
BSC6900
BSC6900
BSC6900
BSC6900
BSC6900
BSC6900
BSC6900
BSC6900
BSC6900
AISSCFG
IMMFNAD
Immediate Initial Adjust After Site Reset Enable
AISSCFG
RESERVESTATE
Reserve State
BSC6900
AITFOTHPARA
CNNODEIDX
CN Node Index
BSC6900
AITFOTHPARA
AN4
MAX Reset Mesg Retransmission on A-I
BSC6900
AITFOTHPARA
SendConfusionToMSC
Sent Confusion Message to MSC
BSC6900
BSC6900
AITFOTHPARA
AITFOTHPARA
Directed Retry AssFail Send DirectedRetryAssFailSendEnable Enable BSC6900 Speech Ver Change Optimize in ucSpeechVerOptiInHo Handover BSC6900
AITFOTHPARA
CHANNELRATECODE
Channel Rate Type Decode Expand BSC6900
AITFOTHPARA
ESTINDL3MSGTAFLAG
Add TA to A Interface EST IND
BSC6900
ENCRY_OPT_SWITCH
Use Non-Encry When Unsupport MSC Encry Algorit
BSC6900
AITFOTHPARA
AITFOTHPARA
SpeechVerStrategyInAss
Speech Version Select Strategy in Intra-BSC HO
ALMBLKPARA
AID
Alarm ID
BSC6900
BSC6900
ALMBLKPARA
BLKPRD
Alarm blink threshold
BSC6900
ALMBLKPARA
CNTRISTHRD
Upper count threshold of raised fault
BSC6900
ALMBLKPARA
CNTSTLTHRD
Lower count threshold of raised fault
BSC6900
ALMBLKPARA
TMRISTHRD
Upper time threshold of raised fault
BSC6900
ALMBLKPARA
TMSTLTHRD
Lower time threshold of raised fault
ALMBLKSW
BLKFILTERSW
Alarm switch of blinking filter
BSC6900
ALMBLKSW
BLKSTATSW
Switch of statistics blinking alarm
BSC6900
BSC6900
ALMBLKSW
BLKSTATPRD
Observing time window of statistical alarm BSC6900
ALMCAPACITY
MAXNUM
Max Alarm Log Number
BSC6900
ALMCAPACITY
SD
Alarm Log Saved Time
BSC6900
ALMLVL
ALVL
Alarm Severity
BSC6900
ALMML
LEVEL
Alarm Mask Switch BSC6900
ALMPORT
SRN
Subrack No.
BSC6900
ALMPORT
PN
Port No.
BSC6900
ALMPORT
SW
Switch
BSC6900
ALMPORT
AID
Alarm ID
BSC6900
ALMPORT
PT
Port Type
BSC6900
ALMPORT
AVOL
Alarm level
BSC6900
ALMPORT
UL
Upper Limit
BSC6900
ALMPORT
LL
Lower Limit
BSC6900
ALMSCRN
ALVL
Alarm Severity
BSC6900
ALMSHLD
SHLDFLG
Shield Flag
BSC6900
ASWPARA
SW
OMU Automatic Switchover Switch
BSC6900
ASWPARA
INTV
OMU Automatic Switchover Interval BSC6900
ASWPARA
AUTORESUMESW
Auto Turn On Switch
BSC6900
ATERCONPATH
ATERIDX
Ater connection path index
BSC6900
ATERCONPATH
BMSRN
BM Subrack No
BSC6900
ATERCONPATH
BMSN
BM Slot No
BSC6900
ATERCONPATH
BMPN
BM Port No
BSC6900
ATERCONPATH
TCSRN
TC Subrack No
BSC6900
ATERCONPATH
TCSN
TC Slot No
BSC6900
ATERCONPATH
TCPN
TC Port No
BSC6900
ATERCONSL
ATERSLID
Ater Signaling Channel ID
BSC6900
ATERCONSL
ATERIDX
Ater connection path index
BSC6900
ATERCONSL
ATERMASK
Ater Mask
BSC6900
ATERCONSL
ASN
A interface slot No. BSC6900
ATERCONSL
TNMODE
Transmission Mode BSC6900
ATERCONSL
CGST
Congestion Start Threshold
BSC6900
ATERCONSL
CGET
Congestion End Threshold
BSC6900
ATERCONSL
WS
Window Size
BSC6900
ATERE1T1
BTCFLAG
BM/TC config flag
BSC6900
ATERE1T1
BSCTID
BSC ID in the TC pool
BSC6900
ATERE1T1
ATERIDX
Ater connection path index
BSC6900
ATERE1T1
SRN
Subrack No.
BSC6900
ATERE1T1
SN
Slot No
BSC6900
ATERE1T1
PN
Port No
BSC6900
ATEROML
ATEROMLINX
Ater OML Index
BSC6900
ATEROML
ATERPIDX
Ater Connection Path Index
BSC6900
ATEROML
TSMASK
Timeslot Mask
BSC6900
ATERSL
ATERSLID
Ater Signaling Channel ID
BSC6900
ATERSL
BTCFLAG
BM/TC config flag
BSC6900
ATERSL
BSCTID
BSC ID in the TC pool
BSC6900
ATERSL
ATERIDX
Ater connection path index
BSC6900
ATERSL
ATERMASK
Ater Mask
BSC6900
ATERSL
ASN
A interface slot No. BSC6900
ATERSL
TNMODE
Transmission Mode BSC6900
ATERSL
CGST
Congestion Start Threshold
BSC6900
ATERSL
CGET
Congestion End Threshold
BSC6900
ATERSL
WS
Window Size
BSC6900
BC
SRN
Subrack No.
BSC6900
BC
SN
Slot No.
BSC6900
BC
PN
Port No.
BSC6900
BC
BCID
BC Identifier
BSC6900
BC
TS
Bearing Timeslot
BSC6900
BC
PROT
Frame Relay Protocol Type
BSC6900
BC
N391
Parameter of DTE [N391]
BSC6900
BC
N392
Parameter of DTE [N392]
BSC6900
BC
N393
Parameter of DTE [N393]
BSC6900
BC
T391
Parameter of DTE [T391]
BSC6900
BCCH
IDTYPE
Index Type
BSC6900
BCCH
CELLID
Cell Index
BSC6900
BCCH
CELLNAME
Cell Name
BSC6900
BCCH
DESTTRXID
Destination Main BCCH TRX ID
BSC6900
BFDPROTOSW
SRN
Subrack No.
BSC6900
BFDPROTOSW
SN
Slot No.
BSC6900
BFDPROTOSW
SWITCH
Bfd Protocol Switch BSC6900
BOXRPT
BOXFLG
To Alarm Box Flag
BSC6900
BRD
SRN
Subrack No.
BSC6900
BRD
SN
Slot No.
BSC6900
BRD
BRDCLASS
Board Class
BSC6900
BRD
RED
Backup
BSC6900
BRD
BRDTYPE
Board type
BSC6900
BRD
BRDCLASS
Board Class
BSC6900
BRD
BRDTYPE
Board Type
BSC6900
BRD
LGCAPPTYPE
Logical function type
BSC6900
BRD
RED
Backup
BSC6900
BRD
ISTCBRD
TC board
BSC6900
BRD
MPUSUBRACK
MPU Subrack No.
BSC6900
BRD
MPUSLOT
MPU Slot No.
BSC6900
BRD
LGCUSAGETYPE
Application type of POUc_TDM
BSC6900
BRD
AUTOADDSRCON
Add inter-subrack path automatically
BSCABISPRIMAP
IDTYPE
BTS Index Type
BSC6900
BSCABISPRIMAP
BTSID
BTS Index
BSC6900
BSCABISPRIMAP
BTSNAME
BTS Name
BSC6900
BSCABISPRIMAP
TRANSTYPE
Carrier Type
BSC6900
BSCABISPRIMAP
OMLPRI
OML Priority
BSC6900
BSCABISPRIMAP
RSLPRI
RSL Priority
BSC6900
BSCABISPRIMAP
EMLPRI
EML Priority
BSC6900
BSCABISPRIMAP
ESLPRI
ESL Priority
BSC6900
BSCABISPRIMAP
TRMMAPSW
Transport Resource Mapping switch BSC6900
BSCABISPRIMAP
TRMI
User TRMMAP index
BSC6900
BSC6900
BSCABISPRIMAP
FACTORSW
TRM Factor switch BSC6900
BSCABISPRIMAP
FTI
Factor table index
BSCABISPRIMAP
FLOWCTRLSWITCH
Flow control switch BSC6900
BSCABISPRIMAP
FCINDEX
Flow control parameter index
BSC6900
BSCABISPRIMAP
LOADTHSW
TRM Load Threshold switch
BSC6900
BSCABISPRIMAP
TRMLOADTHINDEX
TRM load threshold index BSC6900
BSCABISPRIMAP
OMLDSCP
OML DSCP
BSC6900
BSCABISPRIMAP
RSLDSCP
RSL DSCP
BSC6900
BSCABISPRIMAP
EMLDSCP
EML DSCP
BSC6900
BSCABISPRIMAP
ESLDSCP
ESL DSCP
BSC6900
BSC6900
BSCABISPRIMAP
VLANFLAG
Vlan Flag
BSC6900
BSCABISPRIMAP
OMLVLANID
OML VlanId
BSC6900
BSCABISPRIMAP
RSLVLANID
RSL VlanId
BSC6900
BSCABISPRIMAP
EMLVLANID
EML VlanId
BSC6900
BSCABISPRIMAP
ESLVLANID
ESL VlanId
BSC6900
BSCACCCTRLP
ACCINDEX
Access Control Policy Index
BSC6900
BSCACCCTRLP
ACCWSIZE
Access Control Window Size
BSC6900
ACCWPOS
Starting Point of the Access Control Window BSC6900
BSCACCCTRLP
ACCWSP
Sliding Speed of the Access Control Window BSC6900
BSCAISS
BSCSYMOFF
BSC Symbol Offset BSC6900
BSCAITFTMR
CNNODEIDX
CN Node Index
BSCACCCTRLP
BSC6900
BSCAITFTMR
AT4
T4 -s
BSC6900
BSCAITFTMR
AT13
T13 -s
BSC6900
BSCAITFTMR
AT17
T17 -s
BSC6900
BSCAITFTMR
AT18
T18 -s
BSC6900
BSCBASIC
AreaCode
Area Code
BSC6900
BSCBASIC
CC
CC
BSC6900
BSCBASIC
AVer
A Interface Tag
BSC6900
BSCBASIC
UmVer
Um Interface Tag
BSC6900
BSCBASIC
AbisVer
Abis Interface Tag
BSC6900
BSCBASIC
SupportTFOCodecOptimize
Support TFO Codec Optimize BSC6900
BSCBASIC
HiFreqBandSupport
Support High Frequency Band
BSC6900
BSCBASIC
BSCBASIC
BSCBASIC
BSCBASIC
BSCBASIC
BSCBASIC
BSCBASIC
BSCBASIC
BSCBASIC
BSCBASIC
BSCBASIC
BSCBASIC
ServiceMode
Service mode
BSC6900
SinglePassExcludeMsisdn1
Single Pass Exclude MSISDN Number 1
BSC6900
SinglePassExcludeMsisdn2
Single Pass Exclude MSISDN Number 2
BSC6900
SinglePassExcludeMsisdn3
Single Pass Exclude MSISDN Number 3
BSC6900
SinglePassExcludeMsisdn4
Single Pass Exclude MSISDN Number 4
BSC6900
SinglePassExcludeMsisdn5
Single Pass Exclude MSISDN Number 5
BSC6900
SinglePassExcludeMsisdn6
Single Pass Exclude MSISDN Number 6
BSC6900
SinglePassExcludeMsisdn7
Single Pass Exclude MSISDN Number 7
BSC6900
SinglePassExcludeMsisdn8
Single Pass Exclude MSISDN Number 8
BSC6900
SinglePassExcludeMsisdn9
Single Pass Exclude MSISDN Number 9
BSC6900
SinglePassExcludeMsisdn10
Single Pass Exclude MSISDN Number 10
BSC6900
SinglePassExcludeMsisdn11
Single Pass Exclude MSISDN Number 11
BSC6900
SinglePassExcludeMsisdn12
Single Pass Exclude MSISDN Number 12
BSC6900
SinglePassExcludeMsisdn13
Single Pass Exclude MSISDN Number 13
BSC6900
SinglePassExcludeMsisdn14
Single Pass Exclude MSISDN Number 14
BSC6900
SinglePassExcludeMsisdn15
Single Pass Exclude MSISDN Number 15
BSC6900
SinglePassExcludeMsisdn16
Single Pass Exclude MSISDN Number 16
BSC6900
SinglePassExcludeMsisdn17
Single Pass Exclude MSISDN Number 17
BSC6900
SinglePassExcludeMsisdn18
Single Pass Exclude MSISDN Number 18
BSC6900
SinglePassExcludeMsisdn19
Single Pass Exclude MSISDN Number 19
BSC6900
BSCBASIC
SinglePassExcludeMsisdn20
Single Pass Exclude MSISDN Number 20
BSC6900
BSCBASIC
MSISDNPREFIX1
MSISDN prefix 1
BSC6900
BSCBASIC
BSCBASIC
BSCBASIC
BSCBASIC
BSCBASIC
BSCBASIC
BSCBASIC
BSCBASIC
BSCBASIC
MSISDNPREFIX2
MSISDN prefix 2
BSC6900
BSCBASIC
MSISDNPREFIX3
MSISDN prefix 3
BSC6900
BSCBASIC
MSISDNPREFIX4
MSISDN prefix 4
BSC6900
BSCBASIC
MSISDNPREFIX5
MSISDN prefix 5
BSC6900
BSCBASIC
SysMsg10Allowed
Send System Message 10 Allow
BSC6900
BSCBASIC
GCChk
Group Call Check
BSC6900
BSCBASIC
BSCBASIC
CROCALTMTHRD
Cross Call Detect Time Threshold
GetBtsNetTblTimeThd
Interval for Extracting BTS Net Connection BSC6900
BSC6900
BSCBASIC
TCCRCAllowed
TC CRC Allowed
BSC6900
BSCBASIC
SptRanSharing
Support RAN Sharing
BSC6900
BSCBASIC
IsSupportTcPool
Is Support Tc Pool
BSC6900
BSCBASIC
IsMainBSC
Is Main BSC
BSC6900
BSCBASIC
BSCTID
ID of a BSC in TC Pool
BSC6900
BSCBASIC
RMTTCATERTRANSMODE
Remote TC Subrack Ater Transmission Mode BSC6900
BSCBASIC
GSMCSUSERHIGHPRILEV
GSM CS High Level Standard BSC6900
ENQUETRANSADMT
Transmission Resource Queuing Support
BSCBASIC
ENPREEMPTTRANSADMT
Transmission Resource Preempting Support BSC6900
BSCBASIC
TCPOOLID
TC Pool ID
BSC6900
BSCBASIC
ATERTRANSMODE
Ater Interface Transfer Mode
BSC6900
AIPCSDSRVRDNDLEV
CSD Service Redundancy Level
BSC6900
BSCBASIC
BSCBASIC
BSC6900
BSCBASIC
CicDMuteSwitch
BSCBASIC
CicDMuteThre
BSCBASIC
CicDMutePeriod
CIC Downlink OneWay Mute Detection Switch BSC6900 CIC Downlink OneWay Mute Detection Threshold BSC6900 CIC Downlink OneWay Mute Detection Period BSC6900
CicDMuteDifCnt
Number of Different Frames in CIC OneWay Mute Detection BSC6900
CicDMuteTime
CIC Downlink OneWay Mute Detection Duration BSC6900
BSCBASIC
SpeechAlmPeriod
One-Way Mute Alarm Reporting Period
BSC6900
BSCBASIC
ENTCAUSE
Access Cause
BSC6900
BSCBASIC
ENTSWITCH
Real-Time Event Report Switch
BSC6900
BSCBASIC
BSCPVN
BSC Protocol Version No.
BSC6900
BSCBASIC
BSCBASIC
BSCAVN
BSC Application Version No.
BSC6900
BSCDSTPA
BSCDynSwitchTrxPAAllow
Allow Dynamic Shutdown of TRX by BSC
BSC6900
BSCDSTPA
StartTimeTACloseTrxPA
Time When the Function Is Enabled BSC6900
BSCDSTPA
EndTimeTACloseTrxPA
Time When the Function Is Disabled
BSC6900
BSCDSTPA
ProtectTimeTrxPowerOn
TRX Power-on Protection Time
BSC6900
BSCDSTPA
TsTurningOffEnable
Allow Turning Off Time Slot
BSC6900
BSCDSTPA
RsvIdleChanNum
Reserve Idle Channel Number
BSC6900
BSCDSTPADATE
DateRangeIndex
Prohib DynShutdown TRX DateRangeIdx BSC6900
BSCDSTPADATE
StartMonthDSTPA
Prohibit Power Saving Start Month BSC6900
BSCBASIC
StartDayDSTPA
Prohibit Power Saving Start Day
BSC6900
BSCDSTPADATE
EndMonthDSTPA
Prohibit Power Saving End Month
BSC6900
BSCDSTPADATE
EndDayDSTPA
Prohibit Power Saving End Day
BSC6900
BSCDSTPADATE
BSCFCPARA
STARTCBSHORTMSGFLOWCT Prefer Variable RL Bitmap Code
BSCFCPARA
STARTPGARRIVALCTRL
Paging Arrival Control
BSC6900
BSC6900
BSCFCPARA
PGSTATPERIOD
Paging Statistical Period
BSC6900
BSCFCPARA
PGMAXMSGNUMINPERIOD
Max CS Paging Message Num in Period
BSC6900
BSCFCPARA
PGMAXPSMSGNUMINPERIOD
Max PS Paging Message Num in Period
BSCFCPARA
STARTCHREQARRIVALCTRL
CHAN REQ Arrival Control BSC6900
BSC6900
CHAN REQ Statistical Period
BSCFCPARA
CHREQSTATPERIOD
BSC6900
BSCFCPARA
CHREQCSMAXMSGNUMINPER Max CS CHAN IOD REQ Num in Period BSC6900
BSCFCPARA
CHREQPSAVGMSGNUMINPERI Average PS CHAN OD REQ Num BSC6900
BSCFCPARA
PGCLASSIFINGALLOWED
BSCFCPARA
STARTPSRESREQARRIVALCT PS Resource REQ RL Arrival Control
BSC6900
BSCFCPARA
PSRESREQSTATPERIOD
PS Resource REQ Statistical Period
BSC6900
BSCFCPARA
Max PS Resource PSRESREQMSGNUMINPERIOD REQ Num in Period BSC6900
BSCFCPARA
SHAREINCPURATE
Share in CPU Rate BSC6900
BSCFCPARA
MOCACCESSCPURATE
MOC Access CPU Rate
BSC6900
BSCFCPARA
MTCACCESSCPURATE
MTC Access CPU Rate
BSC6900
Paging Message Classifying Allowed BSC6900
BSCFCPARA
AINTFFCEN
A Interface Flow Control Enable
BSCFCPARA
AINTFFCMETHOD
A Interface Flow Control Method
BSC6900
BSCFCPARA
AINTFFCDISCMOCEN
A IF FC Discard MOC Enable
BSC6900
BSCFCPARA
AINTFFCDISCMTCEN
A IF FC Discard MTC Enable
BSC6900
BSCFCPARA
AINTFFCDISCLUEN
A IF FC Discard LOC UP Enable
BSC6900
BSCFCPARA
AINTFFCDISCOSEN
A IF FC Discard Other Service Enable
BSC6900
BSCFCPARA
AINTFFCRSRATE1
A IF FC Service Rate in Level 1
BSC6900
BSCFCPARA
AINTFFCRSRATE2
A IF FC Service Rate in Level 2
BSC6900
BSCFCPARA
AINTFFCRSRATE3
A IF FC Service Rate in Level 3
BSC6900
BSCFCPARA
AINTFFCRSRATE4
A IF FC Service Rate in Level 4
BSC6900
BSCFCPARA
AINTFFCRSRATE5
A IF FC Service Rate in Level 5
BSC6900
BSCFCPARA
AINTFFCRSRATE6
A IF FC Service Rate in Level 6
BSC6900
BSC6900
BSCFCPARA
P11
CPU Usage for Critical Paging FC
BSC6900
BSCFCPARA
P12
CPU Usage for Major Paging FC
BSC6900
BSCFCPARA
P13
CPU Usage for Minor Paging FC
BSC6900
BSCFCPARA
P14
CPU Usage for Slight Paging FC
BSCFCPARA
PRIFCEN
Support Priority Based Flow Control BSC6900
BSCFCPARA
VIPSHAREINCPURATE
VIP Share in CPU Rate
BSC6900
BSCFCPARA
VIPACCESSCPURATE
VIP Access CPU Rate
BSC6900
BSCFCPARA
VIPPRIORITY
VIP Priority
BSC6900
BSC6900
BSCFCPARA
BSCFCPARA
StartASigCtrl
Allow Flow Control Upon A Interface Signaling Congestion
BSC6900
AIntfOccuRate
A Interface Board CPU Usage Threshold
BSC6900
AIntfCongstStatPeriod
Measurement Period of A Interface Signaling Arrival Rate
BSC6900
BSCFCPARA
AIntfMsgThreshold
A Interface Signaling Arrival Rate Threshold
BSC6900
BSCFCPARA
SccpCongstThreshold
SCCP Congestion Level Threshold
BSC6900
AIntfCongstMinDiscardRatio
Lower Threshold of Messages Discarded on A Interface BSC6900
BSCFCPARA
BSCFCPARA
AIntfCRNum
Threshold for Number of Connection Requests on A Interface
BSC6900
AIntfMPT2MaxRatio
Max Number of Messages MTP3 Sends to an MTP2 Link per Second
BSC6900
BSCFCPARA
AIntfMPT2MaxRatioPouc
Max Number of Messages Received by POUc per Second BSC6900
BSCJBF
JttLossCnt
Jitter Loss Count
BSC6900
BSCJBF
JttLossPer
Jitter Loss Percent
BSC6900
BSCJBF
JttAdjMin
Jitter Adjust Minimal Time BSC6900
BSCJBF
JttAdjMax
Jitter Adjust Maximal Time
BSC6900
BSCJBF
JttTime
JitterBuffer Init Time
BSC6900
BSCFCPARA
BSCFCPARA
BSCNSPARA
ALIVERETRY
Alive Retry
BSC6900
BSCNSPARA
ALIVETIMER
Alive Timer
BSC6900
BSCNSPARA
BLOCKRETRY
Block Retry
BSC6900
BSCNSPARA
BLOCKTIMER
Block Timer
BSC6900
BSCNSPARA
RESETRETRY
Reset Retry
BSC6900
BSCNSPARA
RESETTIMER
Reset Timer
BSC6900
BSCNSPARA
TESTTIMER
Test Timer
BSC6900
BSCNSPARA
UNBLOCKRETRY
Unblock Retry
BSC6900
BSCPCUTYPE
TYPE
PCU Type
BSC6900
BSCPSSOFTPARA
FORBIDEDGU
Allow E Down G Up Switch BSC6900
BSCPSSOFTPARA
SUPPORTDL5TS
Support High Multislot Class
BSCPSSOFTPARA
USFGRAN4BLK
Support USF Granularity 4 Switch BSC6900
BSC6900
BSCPSSOFTPARA
SUPPORTEDA
Support EDA
BSC6900
BSCPSSOFTPARA
ALLOWEDADAMULTIPLEX
Allow EDA Multiplex BSC6900
BSCPSSOFTPARA
NC2LoadResel
NC2 Load Reselection Switch BSC6900
BSCPSSOFTPARA
LOADBROADCASTPERIOD
NC2 Load Broadcast Period
BSC6900
BSCPSSOFTPARA
AqmMinTh
AQM Congestion Threshold
BSC6900
BSCPSSOFTPARA
AqmTarTh
AQM Target Threshold
BSC6900
BSCPSSOFTPARA
AqmMaxTh
AQM Maximum Threshold
BSC6900
BSCPSSOFTPARA
AqmSwitch
AQM Switch
BSC6900
AqmNinit
AQM Packet Discard Initial Interval
BSC6900
AqmNLowerBound
AQM Packet Discard Interval Lower Threshold
BSC6900
BSCPSSOFTPARA
BSCPSSOFTPARA
BSCPSSOFTPARA
AqmNUpBound
AQM Packet Discard Interval Upper Threshold
BSCPSSOFTPARA
AqmM
AQM N Update Interval
BSC6900
bAdvEstDlTbf
Support Advance Downlink TBF Establishment
BSC6900
ulDlAckFreq
RRBP Frequency for GPRS Downlink TBF BSC6900
BSCPSSOFTPARA
BSCPSSOFTPARA
BSC6900
ulUlAckFreq
ACK Frequency for GPRS Uplink TBF BSC6900
BSCPSSOFTPARA
ulEgprsDlAckFreq
RRBP Frequency for EGPRS Downlink TBF
BSCPSSOFTPARA
ulEgprsUlAckFreq
ACK Frequency for EGPRS Uplink TBF BSC6900
MaxDlEstRetryNum
Retry Times of Downlink TBF Establishment
BSCPSSOFTPARA
BSCPSSOFTPARA
BSC6900
BSC6900
MaxDlAssRetryTimes
Retry Times of Downlink TBF Reassignment
BSC6900
BSCPSSOFTPARA
MaxPollingRetryTimes
Retry Times of Downlink TBF Polling
BSC6900
BSCPSSOFTPARA
Force2Phase
Force MS Twophase Access
BSC6900
BSCPSSOFTPARA
FlowCountPeriodTicks
Flux Measurement Period
BSC6900
BSCPSSOFTPARA
TrafficClassUlCoefficient
UL Priority Decision Threshold BSC6900
BSCPSSOFTPARA
BSCPSSOFTPARA
TrafficClassDlCoefficient
DL Priority Decision Threshold BSC6900
BSCPSSOFTPARA
SilenceTicksOfResReq
Interval Between Resource Request
BSC6900
SPTNACCResGuarantee
Support NACC Resource Guarantee
BSC6900
ReduceTransBwInt
Interval to Reduce Transmission Bandwidth when Congested
BSC6900
ReduceTransBwNum
Number of Transmission Bandwidth to Reduce when Congested
BSC6900
BSCPSSOFTPARA
BSCPSSOFTPARA
BSCPSSOFTPARA
AddTransBwInt
Sub-Link Bandwidth Request Interval When Not Congested BSC6900
BSCPSSOFTPARA
AddTransBwNum
Bandwidth for Secondary Link When Not Congested
BSCPSSOFTPARA
TSRAPIDADJSWITCH
Fast Flux Detection Switch BSC6900
BSCPSSOFTPARA
Fast Flux FLOWCOUNTPERIODTSRAPID Measurement ADJ Period
BSCPSSOFTPARA
BSCPSSOFTPARA
TSRAPIDADJPERIOD
Fast Flux Measurement TBF Timer
BSC6900
BSC6900
BSC6900
BSCPSSOFTPARA
DLCOEFFICIENTTSRAPIDADJ
Fast DL Priority Decision Threshold BSC6900
BSCPSSOFTPARA
ULCOEFFICIENTTSRAPIDADJ
Fast UL Priority Decision Threshold BSC6900
BSCPSTCDSCPMAP
SDSCP
DSCP of Signaling
BSC6900
BSCPSTCDSCPMAP
CCDSCP
DSCP of CONV[QoS]
BSC6900
BSCPSTCDSCPMAP
SCDSCP
DSCP of STREAM[QoS]
BSC6900
BSCPSTCDSCPMAP
ICTHP1DSCP
DSCP of PRI.1 INTACT[QoS]
BSC6900
ICTHP2DSCP
DSCP of PRI.2 INTACT[QoS]
BSC6900
BSCPSTCDSCPMAP
BSCPSTCDSCPMAP
ICTHP3DSCP
DSCP of PRI.3 INTACT[QoS]
BSCPSTCDSCPMAP
BCDSCP
DSCP of BG[QoS]
BSC6900
BSCSYNCOFF
TASKIDX
AISS Task Index
BSC6900
BSCSYNCOFF
IDTYPE
Index Type
BSC6900
BSCSYNCOFF
BTSID
BTS Index
BSC6900
BSCSYNCOFF
BTSNAME
BTS Name
BSC6900
BSCSYNCOFF
ADJMODE
Adjustment Mode
BSC6900
BSCSYNCOFF
FRAMEOFFSET
Frame Offset [Frame No]
BSC6900
BSCSYNCOFF
BITOFFSET
In Frame Bit Offset [1/8 bit] BSC6900
BSCTMR
CbNonMsgTimer
Cb No Message Disconnection Timer
BSC6900
BSCTMR
CbShakeHandTimer
Cell Broadcast Handshake Timer
BSC6900
BSC6900
BSCTMR
AT1
T1
BSC6900
BSCTMR
AT19
T19
BSC6900
BSCTMR
AT20
T20
BSC6900
BSCTMR
AbisFCTimer1
Abis Flow Control Timer 1
BSC6900
BSCTMR
AbisFCTimer2
Abis Flow Control Timer 2
BSC6900
Timer Length of BMTC Flow Control BSC6900
BSCTMR
BMTCFCTimerLen
BSCTMR
TI_WAIT_SGSN_PRIVATE_MES Receive SGSN SAGE Config. Msg. Timer BSC6900
BSCTMR
Trbss
Trbss
BSC6900
BSSGPPARA
BVCTF
BVC Flow Control Timer
BSC6900
BSSGPPARA
MSTF
MS Flow Control Timer
BSC6900
BSSGPPARA
T1
T1
BSC6900
BSSGPPARA
T2
T2
BSC6900
BSSGPPARA
T3
T3
BSC6900
BSSGPPARA
T4
T4
BSC6900
BSSGPPARA
T5
T5
BSC6900
BSSGPPARA
T6
T6
BSC6900
BSSGPPARA
T8
T8
BSC6900
BSSGPPARA
TC
Tc
BSC6900
BSSGPPARA
TH
Th
BSC6900
BssLsGenMode
BSS Local Switching General Strategy
BSC6900
BSSLS
BtsLsStartMode
Options for BTS Local Switch
BSC6900
BSSLS
BscLsStartMode
Options for BSC Local Switch
BSC6900
BSSLS
AbisJamThreshold2StartLs
Abis Jam Rate for BTS Local Switch
BSC6900
BSSLS
BSSLS
AterJamThreshold2StartLs
Ater Jam Rate for BSC Local Switch
BSSLS
MsisdnPrfxList2StartBtsLs1
Prefix Number for BTS 1
BSC6900
BSSLS
MsisdnPrfxList2StartBtsLs2
Prefix Number for BTS 2
BSC6900
BSSLS
MsisdnPrfxList2StartBtsLs3
Prefix Number for BTS 3
BSC6900
BSSLS
MsisdnPrfxList2StartBtsLs4
Prefix Number for BTS 4
BSC6900
BSSLS
MsisdnPrfxList2StartBtsLs5
Prefix Number for BTS 5
BSC6900
BSC6900
BSSLS
MsisdnPrfxList2StartBtsLs6
Prefix Number for BTS 6
BSC6900
BSSLS
MsisdnPrfxList2StartBtsLs7
Prefix Number for BTS 7
BSC6900
BSSLS
MsisdnPrfxList2StartBtsLs8
Prefix Number for BTS 8
BSC6900
BSSLS
MsisdnPrfxList2StartBtsLs9
Prefix Number for BTS 9
BSC6900
BSSLS
MsisdnPrfxList2StartBtsLs10
Prefix Number for BTS 10
BSC6900
BSSLS
MsisdnSegList2AvoidBtsLs1
Avoid Number for BTS 1
BSC6900
BSSLS
MsisdnSegList2AvoidBtsLs2
Avoid Number for BTS 2
BSC6900
BSSLS
MsisdnSegList2AvoidBtsLs3
Avoid Number for BTS 3
BSC6900
BSSLS
MsisdnSegList2AvoidBtsLs4
Avoid Number for BTS 4
BSC6900
BSSLS
MsisdnSegList2AvoidBtsLs5
Avoid Number for BTS 5
BSC6900
BSSLS
MsisdnSegList2AvoidBtsLs6
Avoid Number for BTS 6
BSC6900
BSSLS
MsisdnSegList2AvoidBtsLs7
Avoid Number for BTS 7
BSC6900
BSSLS
MsisdnSegList2AvoidBtsLs8
Avoid Number for BTS 8
BSC6900
BSSLS
MsisdnSegList2AvoidBtsLs9
Avoid Number for BTS 9
BSC6900
BSSLS
MsisdnSegList2AvoidBtsLs10
Avoid Number for BTS 10
BSC6900
BSSLS
MsisdnPrfxList2StartBscLs1
Prefix Number for BSC 1
BSC6900
BSSLS
MsisdnPrfxList2StartBscLs2
Prefix Number for BSC 2
BSC6900
BSSLS
MsisdnPrfxList2StartBscLs3
Prefix Number for BSC 3
BSC6900
BSSLS
MsisdnPrfxList2StartBscLs4
Prefix Number for BSC 4
BSC6900
BSSLS
MsisdnPrfxList2StartBscLs5
Prefix Number for BSC 5
BSC6900
BSSLS
MsisdnPrfxList2StartBscLs6
Prefix Number for BSC 6
BSC6900
BSSLS
MsisdnPrfxList2StartBscLs7
Prefix Number for BSC 7
BSC6900
BSSLS
MsisdnPrfxList2StartBscLs8
Prefix Number for BSC 8
BSC6900
BSSLS
MsisdnPrfxList2StartBscLs9
Prefix Number for BSC 9
BSC6900
BSSLS
MsisdnPrfxList2StartBscLs10
Prefix Number for BSC 10
BSC6900
BSSLS
MsisdnSegList2AvoidBscLs1
Avoid Number for BSC 1
BSC6900
BSSLS
MsisdnSegList2AvoidBscLs2
Avoid Number for BSC 2
BSC6900
BSSLS
MsisdnSegList2AvoidBscLs3
Avoid Number for BSC 3
BSC6900
BSSLS
MsisdnSegList2AvoidBscLs4
Avoid Number for BSC 4
BSC6900
BSSLS
MsisdnSegList2AvoidBscLs5
Avoid Number for BSC 5
BSC6900
BSSLS
MsisdnSegList2AvoidBscLs6
Avoid Number for BSC 6
BSC6900
BSSLS
MsisdnSegList2AvoidBscLs7
Avoid Number for BSC 7
BSC6900
BSSLS
MsisdnSegList2AvoidBscLs8
Avoid Number for BSC 8
BSC6900
BSSLS
MsisdnSegList2AvoidBscLs9
Avoid Number for BSC 9
BSC6900
BSSLS
MsisdnSegList2AvoidBscLs10
BSSLS
SupportIpSpanBtsLSwitch
Avoid Number for BSC 10 Support FE/GE SPAN BTS Local Switch
BTS
IDTYPE
Index Type
BSC6900
BTS
BTSID
BTS Index
BSC6900
BTS
BTSNAME
BTS Name
BSC6900
BSC6900
BSC6900
BTS
BTSTYPE
BTS Type
BSC6900
BTS
BTSDESC
BTS Description
BSC6900
BTS
SEPERATEMODE
Separate Mode
BSC6900
BTS
SERVICEMODE
Service Type
BSC6900
BTS
FLEXABISMODE
Flex Abis Mode
BSC6900
BTS
ABISBYPASSMODE
Abis ByPass Mode BSC6900
BTS
ISCONFIGEDRING
Config Ring
BSC6900
BTS
MPMODE
Multiplexing Mode
BSC6900
BTS
MAINPORTNO
Main Port No
BSC6900
BTS
IPPHYTRANSTYPE
IP Phy Trans Type
BSC6900
BTS
SRANMODE
Is Support Normalized Data Configuration
BTS
RFUCFGBYSLOT
Configure RFU by Slot
BSC6900
BSC6900
BTS
WORKMODE
Work Mode
BSC6900
BTS
TSASSIGNOPTISW
Preferential Logical TRXs Multiplexed on a TRX Board BSC6900
BTS
NEWNAME
New BTS Name
BSC6900
BTSABISHDLCPATH
IDTYPE
Index Type
BSC6900
BTSABISHDLCPATH
BTSID
BTS Index
BSC6900
BTSABISHDLCPATH
BTSNAME
BTS Name
BSC6900
BTSABISHDLCPATH
PTUID
HDLC Path Index In BTS BSC6900
BTSABISHDLCPATH
CONBSCBTSIDTYPE
Connect BSC BTS Index Type
BSC6900
BTSABISHDLCPATH
BTSNAMECONBSC
Connect BSC BTS Name
BSC6900
BTSABISHDLCPATH
BTSIDCONBSC
Connect BSC BTS Index
BSC6900
BTSABISHDLCPATH
E1PORTNOINBTSCONBSC
E1 Port No Connect To BSC BSC6900
BTSABISHDLCPATH
TSMASK
TS Mask
BSC6900
BTSABISMUXFLOW
IDTYPE
Index Type
BSC6900
BTSABISMUXFLOW
BTSID
BTS Index
BSC6900
BTSABISMUXFLOW
BTSNAME
BTS Name
BSC6900
BTSABISMUXFLOW
SRVTYPE
Service Type
BSC6900
BTSABISMUXFLOW
SUBFRAMETHRES
Max Subframe Length
BSC6900
PKTLENTHRES
Maximum Frame Length
BSC6900
BTSABISMUXFLOW
BTSABISMUXFLOW
TIMEOUT
Maximum Delay Time
BSC6900
BTSABISTROP
IDTYPE
Index Type
BSC6900
BTSABISTROP
BTSID
BTS Index
BSC6900
BTSABISTROP
BTSNAME
BTS Name
BSC6900
BTSABISTROP
DETECTSWITCH
Switch for Abis Timeslot Detection
BSC6900
BTSABISTROP
PROTECTDELAYTIME
Protection Delay for Detection BSC6900
BTSABISTS
IDTYPE
Index Type
BSC6900
BTSABISTS
BTSID
BTS Index
BSC6900
BTSABISTS
BTSNAME
BTS Name
BSC6900
BTSAIRCON
IDTYPE
Index Type
BSC6900
BTSAIRCON
BTSID
BTS Index
BSC6900
BTSAIRCON
BTSNAME
BTS Name
BSC6900
BTSAIRCON
CHKOFFTIMES
Check Times for Off
BSC6900
BTSAIRCON
QUALOFFTIMES
Qualified Times for Off BSC6900
BTSAIRCON
THDOFF
Volt Threshold for Off
BSC6900
BTSAIRCON
CHKONTIMES
Check Times for On BSC6900
BTSAIRCON
QUALONTIMES
Qualified Times for On BSC6900
BTSAIRCON
THDON
Volt Threshold for On
BSC6900
BTSAIRCON
HYSON
Hysteresis for On
BSC6900
BTSAISS
IDTYPE
Index Type
BSC6900
BTSAISS
BTSID
BTS Index
BSC6900
BTSAISS
BTSNAME
BTS Name
BSC6900
BTSAISS
SYMOFFSET
BTS Symbol Offset BSC6900
BTSAISS
SITESYNCZONE
Site Sync Zone
BSC6900
BTSALDFILE
FN
File Name
BSC6900
BTSALM
IDTYPE
Index Type
BSC6900
BTSALM
BTSID
BTS Index
BSC6900
BTSALM
BTSNAME
BTS Name
BSC6900
BTSALM
BTSTYPE
BTS Type
BSC6900
BTSALM
EXTFlag
Extended Switch of Input Alarm BSC6900
BTSALMFLASHTHD
AlmId
Alarm ID.
BSC6900
BTSALMFLASHTHD
FlashAlmOccurThd
Flash Alarm Occur Threshold
BSC6900
BTSALMFLASHTHD
FlashAlmClrThd
Flash Alarm Clear Threshold
BSC6900
BTSALMFLASHTHD
AlmOccurTimesHThd
Alarm Occur Times Threshold BSC6900
BTSALMFLASHTHD
AlmOccurTimesLThd
Alarm Clear Times Threshold
AlmOccurAccuTimeHThd
Alarm Occur Accumulative Time Threshold BSC6900
BTSALMFLASHTHD
AlmOccurAccuTimeLThd
Alarm Clear Accumulative Time Threshold BSC6900
BTSALMFLASHTW
FlashFilterEn
Flash Filter Enable
BSC6900
FlashStatisAlmOccurTW
Flash Statistic Alarm Raise Time Window
BSC6900
FlashStatisAlmClrTW
Flash Statistic Alarm Clear Time Window
BSC6900
BTSALMFLASHTHD
BTSALMFLASHTW
BTSALMFLASHTW
BSC6900
BTSALMMGMRULE
IDTYPE
Index Type
BSC6900
BTSALMMGMRULE
BTSNAME
BTS Name
BSC6900
BTSALMMGMRULE
BTSID
BTS Index
BSC6900
BTSALMMGMRULE
ALMID
BSC6900
BTSALMMGMRULE
ADVALMMGRULETP
Alarm ID. Advanced Alarm Management Rule Type
SDTMWDALMOC
Sliding Time Window Alarm Occurrence
BSC6900
ALMOCACDUR
Alarm Occurrence Accumulate Duration
BSC6900
SDTMWDALMDIS
Sliding Time Window Alarm Disappear
BSC6900
BTSALMMGMRULE
BTSALMMGMRULE
BTSALMMGMRULE
BSC6900
BTSALMMGMRULE
ALMDISACDUR
Alarm Disappear Accumulate Duration
BTSALMPORT
IDTYPE
Index Type
BSC6900
BTSALMPORT
BTSNAME
BTS Name
BSC6900
BTSALMPORT
BTSID
BTS Index
BSC6900
BTSALMPORT
SWITCH
Alarm Parameter Configuration Enabled
BSC6900
BTSALMPORT
NMSACN
No Mains Supply Alarm Cabinet No.
BSC6900
BTSALMPORT
NMSASRN
No Mains Supply Alarm Subrack No. BSC6900
BTSALMPORT
NMSASN
No Mains Supply Alarm Slot No.
BSC6900
BTSALMPORT
NMSAPN
No Mains Supply Alarm Port No.
BSC6900
BTSALMPORT
DCLACN
DC Low Voltage Alarm Cabinet No.
BSC6900
BTSALMPORT
DCLASRN
DC Low Voltage Alarm Subrack No. BSC6900
BSC6900
BTSALMPORT
DCLASN
DC Low Voltage Alarm Slot No.
BTSALMPORT
DCLAPN
DC Low Voltage Alarm Port No.
BSC6900
BTSANTFEEDERBRD
IDTYPE
Index Type
BSC6900
BTSANTFEEDERBRD
BTSID
BTS Index
BSC6900
BTSANTFEEDERBRD
BTSNAME
BTS Name
BSC6900
BTSANTFEEDERBRD
SRN
Subrack No.
BSC6900
BSC6900
BTSANTFEEDERBRD
SN
Slot No.
BSC6900
BTSANTFEEDERBRD
BT
Board Type
BSC6900
BTSANTFEEDERBRD
DTRX
Down Link No.
BSC6900
BTSANTFEEDERBRD
DTRXSRN
Down TRX Subrack No. BSC6900
BTSANTFEEDERBRD
DTRXSN
Down TRX Slot No. BSC6900
BTSANTFEEDERBRD
DTRXPN
Down TRX Board Pass No.
BTSANTFEEDERBRD
AORB
Down TRX1 A or B BSC6900
BTSANTFEEDERBRD
DMDUA
Down MDU A
BSC6900
BTSANTFEEDERBRD
DMDUB
Down MDU B
BSC6900
BSC6900
BTSANTFEEDERBRD
FREQBAND
Frequency Band Attribute
BSC6900
BTSANTFEEDERBRD
NEWBT1
New Board Type1
BSC6900
BTSANTFEEDERBRD
NEWBT2
New Board Type2
BSC6900
BTSANTFEEDERCONNE CT IDTYPE
Index Type
BSC6900
BTSANTFEEDERCONNE CT BTSID
BTS Index
BSC6900
BTSANTFEEDERCONNE CT BTSNAME
BTS Name
BSC6900
BTSANTFEEDERCONNE CT SRN
Subrack No.
BSC6900
BTSANTFEEDERCONNE CT SN
Slot No.
BSC6900
BTSANTFEEDERCONNE CT BT
Board Type
BSC6900
BTSANTFEEDERCONNE CT DTRX
Down Link No.
BSC6900
BTSANTFEEDERCONNE CT DTRXSRN
Down TRX Subrack No. BSC6900
BTSANTFEEDERCONNE CT DTRXSN
Down TRX Slot No. BSC6900
BTSANTFEEDERCONNE CT DTRXPN
Down TRX Board Pass No.
BSC6900
BTSANTFEEDERCONNE CT AORB
Down TRX1 A or B BSC6900
BTSANTFEEDERCONNE CT DMDUA
Down MDU A
BSC6900
BTSANTFEEDERCONNE CT DMDUB
Down MDU B
BSC6900
BTSANTFEEDERCONNE CT U0TRX
Up0 Link No.
BSC6900
BTSANTFEEDERCONNE CT U0TRXSRN
Up0 TRX Subrack No.
BSC6900
BTSANTFEEDERCONNE CT U0TRXSN
Up0 TRX Slot No.
BSC6900
BTSANTFEEDERCONNE CT U0TRXBPN
Up0 TRX Board Pass No.
BSC6900
BTSANTFEEDERCONNE CT U0TOW
Up0 Tower-Top Amplifier Flag
BSC6900
BTSANTFEEDERCONNE CT U0GEN
Up0 Power Attenuation Factor
BSC6900
BTSANTFEEDERCONNE CT U1TRX
Up1 Link No.
BSC6900
BTSANTFEEDERCONNE CT U1TRXSRN
Up1 TRX Subrack No.
BSC6900
BTSANTFEEDERCONNE CT U1TRXSN
Up1 TRX Slot No.
BSC6900
BTSANTFEEDERCONNE CT U1TRXBPN
Up1 TRX Board Pass No.
BSC6900
BTSANTFEEDERCONNE CT U1TOW
Up1 Tower-Top Amplifier Flag
BSC6900
BTSANTFEEDERCONNE CT U1GEN
Up1 Power Attenuation Factor
BSC6900
BTSAPMUBP
IDTYPE
Index Type
BSC6900
BTSAPMUBP
BTSID
BTS Index
BSC6900
BTSAPMUBP
BTSNAME
BTS Name
BSC6900
BTSAPMUBP
CN
Cabinet No.
BSC6900
BTSAPMUBP
SRN
Subrack No.
BSC6900
BTSAPMUBP
SN
Slot No.
BSC6900
BTSAPMUBP
CFGFLAG
Board Parameter Configuration Enabled
BSC6900
BTSAPMUBP
PTYPE
Power Type
BSC6900
BTSAPMUBP
PSU0
DPSU 0 Configured BSC6900
BTSAPMUBP
PSU1
DPSU 1 Configured BSC6900
BTSAPMUBP
PSU2
DPSU 2 Configured BSC6900
BTSAPMUBP
ALMENABLE
Alarm Enable Flag
BSC6900
BTSAPMUBP
SAAF
Special Analog Alarm Flag
BSC6900
BTSAPMUBP
SBAF
Special Boolean Alarm Flag
BSC6900
BTSAPMUBP
BE
Battery Configuration Enabled
BTSAPMUBP
BTYPE
Battery Type
BTSAPMUBP
BCLC
Battery Current Limiting Coefficient BSC6900
BTSAPMUBP
BC
Battery Capcity
BSC6900
BTSAPMUBP
BN
Battery Number
BSC6900
BTSAPMUBP
HPVFLAG
Hierarchical Poweroff Config. Enabled BSC6900
BTSAPMUBP
LSDV
Load Shutdown Voltage
BSC6900
BSC6900
BSC6900
BTSAPMUBP
BCV
Boost-Charging Voltage
BSC6900
BTSAPMUBP
FCV
Float-Charging Voltage
BSC6900
BTSAPMUBP
LSDF
Load Shutdown Flag
BSC6900
BTSAPMUBP
LVSDF
Low Voltage Shutdown Flag
BSC6900
BTSAPMUBP
SDV
Shutdown Voltage
BSC6900
LOWTEMPLOADPWROFF
Low Temperature StartLoadPower-off Allowed State BSC6900
BTSAPMUBP
BTSAPMUBP
Low Temperature TEMPOFLOWTEMPLOADPWR Start Load Power OFF Off Temp.
BSC6900
BTSAPMUBP
ACVUTHD
AC Voltage Alarm Upper Threshold
BSC6900
BTSAPMUBP
ACVLTHD
AC Voltage Alarm Lower Threshold
BSC6900
BTSAPMUBP
DCVUTHD
DC Voltage Alarm Upper Threshold
BSC6900
BTSAPMUBP
DCVLTHD
DC Voltage Alarm Lower Threshold
BSC6900
CELLTEMPCOMPENABLED
Battery Temperature Compensated Configure Enabled
BSC6900
BTSAPMUBP
CELLTEMP1THRESHOLDH
Upper Assembled Battery 1 Temp
BSC6900
BTSAPMUBP
CELLTEMP1THRESHOLDL
Lower Assembled Battery1 TEMP Measure
BSC6900
BTSAPMUBP
TUTHD
Temperature Alarm Upper Threshold BSC6900
BTSAPMUBP
TLTHD
Temperature Alarm Lower Threshold BSC6900
TCC
Temperature Compensation Coefficient
BTSAPMUBP
BTSAPMUBP
BSC6900
BTSAPMUBP
BASETEMPERATURE
Temperature Basis for Compensation BSC6900
BTSAPMUBP
SETENVPARAENABLED
ENV TEMP CFG Enabled
BSC6900
BTSAPMUBP
TEMPALARMTHRESHOLDH
Upper ENV TEMP Alarm
BSC6900
BTSAPMUBP
TEMPALARMTHRESHOLDL
Lower ENV TEMP Alarm
BSC6900
BTSAPMUBP
SETHUMPARAENABLED
Environment Humidity Configure Enabled BSC6900
BTSAPMUBP
HUMALAMRTHRESHOLDH
Upper Threshold of Humidity Alarm BSC6900
BTSAPMUBP
HUMALAMRTHRESHOLDL
Lower Threshold of Humidity Alarm BSC6900
BTSAPMUBP
SETDIESELENGINEENABLED
Diesel Engine Configure Enabled
BSC6900
BTSAPMUBP
ICF
Intelligent Control Flag
BSC6900
BTSAPMUBP
POWER
Rated Power
BSC6900
BTSAPMUBP
BATTERYDISCHARGEDEPTH
Battery Discharge Depth
BSC6900
BTSAPMUBP
ASSORXUCN
Associated RXU Board CN
BSC6900
BTSAPMUBP
ASSORXUSRN
Associated RXU Board SRN
BSC6900
BTSAPMUBP
ASSORXUSN
Associated RXU Board SN
BTSAPMUBP
HTSDF
High Temperature Shutdown Flag
BSC6900
BTSAPMUBP
HIGHTEMPLOADPWROFF
High Temp Load Power Off
BSC6900
BTSAPMUBP
SDT
Shutdown Temperature
BSC6900
BTSAPMUBP
Temp Of High TEMPOFHIGHTEMPLOADPWR Temp. Load Power OFF Off BSC6900
BTSAPMUBP
MCN
Manager Cabinet No.
BSC6900
BTSAPMUBP
MSRN
Manager Subrack No.
BSC6900
BTSAPMUBP
MPN
Manager Port No.
BSC6900
BSC6900
BTSAPMUBP
ADDR
Address
BSC6900
BTSAPMUBP
BCD
Boost-Charging Duration
BSC6900
BTSAPMUBP
BTPC
Battery Test Parameter Configure Enabled
BSC6900
BTSAPMUBP
DSCHGT0
0.05C10 Discharge Time BSC6900
BTSAPMUBP
DSCHGT1
0.1C10 Discharge Time
BSC6900
BTSAPMUBP
DSCHGT2
0.2C10 Discharge Time
BSC6900
BTSAPMUBP
DSCHGT3
0.3C10 Discharge Time
BSC6900
BTSAPMUBP
DSCHGT4
0.4C10 Discharge Time
BSC6900
BTSAPMUBP
DSCHGT5
0.5C10 Discharge Time
BSC6900
BTSAPMUBP
DSCHGT6
0.6C10 Discharge Time
BSC6900
BTSAPMUBP
DSCHGT7
0.7C10 Discharge Time
BSC6900
BTSAPMUBP
DSCHGT8
0.8C10 Discharge Time
BTSAPMUBP
DSCHGT9
0.9C10 Discharge Time
BSC6900
BTSAPMUBP
EFF
Battery Charge Efficiency
BSC6900
BTSAPMUBP
ENDV
Discharge Test End Voltage BSC6900
BTSAPMUBP
BATNUM
Battery Number
BSC6900
BTSAPMUBP
DSTML
Discharge Test Time Limit
BSC6900
BSC6900
BTSAPMUBP
SDSEV
Simple Discharge Test End Voltage
BSC6900
BTSAPMUBP
SDSTML
Simple Discharge Test Time Limit
BSC6900
BTSAPMUBP
ATMODE
Automatic Test Mode
BSC6900
BTSAPMUBP
TDSTM
Timing Discharge Test Time
BSC6900
BTSAPMUBP
DDSTM
Delayed Discharge Test Time BSC6900
BTSSHUTDNASW
BTS Power-off Enabled
BTSAPMUBP
BSC6900
BTSAPMUBP
SHUTDNST
Power-off Start Time
BTSAPMUBP
SHUTDNET
Power-off End Time BSC6900
BSC6900
BTSAUTODLDACTINFO IDTYPE
Index Type
BSC6900
BTSAUTODLDACTINFO BTSID
BTS Index
BSC6900
BTSAUTODLDACTINFO BTSNAME
BTS Name
BSC6900
BTSAUTODLDACTINFO ADLDACT
Auto Download Active Function Switch
BSC6900
BTSAUTODLDACTINFO AUTOTYPE
Work Mode for Auto Download Activation BSC6900
BTSAUTODLDACTINFO ADVER1
BTS Software Version 1
BSC6900
BTSAUTODLDACTINFO ADVER2
BTS Software Version 2
BTSAUTODLDACTINFO PV
BTS Patch Version BSC6900
BSC6900
BTSAUTODLDACTINFO ADMODE
Auto Download Mode
BSC6900
BTSAUTODLDACTINFO STTYPE
BTS Type
BSC6900
BTSAUTODLDACTINFO MainVer
Main Version No.of TMU BSC6900
BTSAUTODLDACTINFO SubVer
Sub-Version No.of TMU
BSC6900
BTSAUTODLDACTINFO PatchNo
Patch No.
BSC6900
BTSAUTODLDACTINFO Month
Month
BSC6900
BTSAUTODLDACTINFO Day
Day
BSC6900
BTSAUTODLDACTINFO VVer
V-Version No.
BSC6900
BTSAUTODLDACTINFO RVer
R-Version No.
BSC6900
BTSAUTODLDACTINFO CVer
C-Version No.
BSC6900
BTSAUTODLDACTINFO PatchNo1
Patch Number
BSC6900
BTSAUTOPLAN
BTSID
BTS Index
BSC6900
BTSAUTOPLAN
BTSNAME
BTS Name
BSC6900
BTSAUTOPLAN
BTSTYPE
BTS Type
BSC6900
BTSAUTOPLAN
DESTNODE
Transport Link Type BSC6900
BTSAUTOPLAN
SRN
Subrack No.
BSC6900
BTSAUTOPLAN
SN
Slot No.
BSC6900
BTSAUTOPLAN
PN
Port No.
BSC6900
BTSAUTOPLAN
UPBTSIDTYPE
Dest Father Index Type
BSC6900
BTSAUTOPLAN
UPBTSID
Dest Father BTS Index
BSC6900
BTSAUTOPLAN
UPBTSNAME
Dest Father BTS Name
BSC6900
BTSAUTOPLAN
FCN
Cabinet No. of Father BTS
BSC6900
BTSAUTOPLAN
FSRN
Subrack No. of Father BTS
BSC6900
BTSAUTOPLAN
FSN
Slot No. of Father BTS
BSC6900
BTSAUTOPLAN
FPN
Dest Father BTS Port No.
BSC6900
BTSAUTOPLAN
SERVICEMODE
Service Type
BSC6900
BTSAUTOPLAN
BTSIP
BTS IP
BSC6900
BTSAUTOPLAN
BTSMASK
Subnet Mask
BSC6900
BTSAUTOPLAN
BSCIP
BSC IP
BSC6900
BTSAUTOPLAN
GWIP
BTS SeGW IP Address
BSC6900
BTSAUTOPLAN
MAINDEVTAB
PTU Main Dev. Tab BSC6900
BTSAUTOPLAN
SRANMODE
Is Support SingleRAN Mode
BSC6900
BTSAUTOPLAN
CELLID
Cell Index
BSC6900
BTSAUTOPLAN
CELLNAME
Cell Name
BSC6900
BTSAUTOPLAN
TYPE
Freq. Band
BSC6900
BTSAUTOPLAN
MCC
MCC
BSC6900
BTSAUTOPLAN
MNC
MNC
BSC6900
BTSAUTOPLAN
LAC
Cell LAC
BSC6900
BTSAUTOPLAN
CI
Cell CI
BSC6900
BTSAUTOPLAN
MAXFQNUM
Maximum TRX Number
BSC6900
BTSAUTOPLAN
MASTERIPADDR
Master Clock Server IP Address
BSC6900
BTSAUTOPLAN
IPPHYTRANSTYPE
IP Physical Transport Type
BSC6900
BTSAUTOPLAN
TEMPLATENAME
Cell Template Name
BSC6900
BTSAUTOPLANCFG
IDTYPE
Index Type
BSC6900
BTSAUTOPLANCFG
BTSID
BTS Index
BSC6900
BTSAUTOPLANCFG
BTSNAME
BTS Name
BSC6900
BTSAUTOPLANCFG
CFGMODE
BTS Configuration Mode
BSC6900
BTSAUTOPLANCFG
BTSTYPE
BTS Type
BSC6900
BTSAUTOPLANCFG
CGIRACSWITCH
CGI and RAC Plan Switch BSC6900
BTSAUTOPLANCFG
MCC
MCC
BSC6900
BTSAUTOPLANCFG
MNC
MNC
BSC6900
BTSAUTOPLANCFG
LAC
Cell LAC
BSC6900
BTSAUTOPLANCFG
CI
Cell CI
BSC6900
BTSAUTOPLANCFG
RA
Route Area
BSC6900
BTSAUTOPLANCFG
FQBSICSWITCH
Freq. and BSIC Plan Switch
BSC6900
BTSAUTOPLANCFG
FQBSICSWITCH1
Freq. and BSIC Plan Switch
BSC6900
BTSAUTOPLANCFG
MAXFQNUM
Maximum TRX Number
BSC6900
BTSAUTOPLANCFG
NBRCELLSWITCH
Neighbor Cell Plan Switch
BSC6900
BTSAUTOPLANCFG
FQBSICOPTSWITCH
Freq. and BSIC Optimize Switch
BSC6900
CAPCOVEROPTSWITCH
Capacity and Coverage Optimize Switch BSC6900
BTSAUTOPLANCFG
MAXFQNUM1
Maximum TRX Number
BSC6900
BTSAUTOPLANCFG
MCC1
Cell MCC
BSC6900
BTSAUTOPLANCFG
MNC1
Cell MNC
BSC6900
BTSAUTOPLANCFG
BTSAUTOPLANCFG
LAC1
Cell LAC
BSC6900
BTSAUTOPLANCFG
CI1
Cell CI
BSC6900
BTSAUTOPLANCFG
RA1
Route Area
BSC6900
BTSAUTOPLANCFG
NBRCELLOPTSWITCH
Neighbor Cell Optimize Switch
BSC6900
BTSAUTOPLANCFG
FREQSELFADAPT
Frequency Band Adaptation Allowed BSC6900
BTSAUXEQP
IDTYPE
Index Type
BSC6900
BTSAUXEQP
BTSID
BTS Index
BSC6900
BTSAUXEQP
BTSNAME
BTS Name
BSC6900
BTSAUXEQP
R0AuxDev
SubRack0 Auxiliary Equipment BSC6900
BTSAUXEQP
R1AuxDev
SubRack1 Auxiliary Equipment BSC6900
BTSAUXEQP
R2AuxDev
SubRack2 Auxiliary Equipment BSC6900
BTSBAKPWR
IDTYPE
Index Type
BSC6900
BTSBAKPWR
BTSID
BTS Index
BSC6900
BTSBAKPWR
BTSNAME
BTS Name
BSC6900
BTSBAKPWR
BAKPWRSAVMETHOD
Backup Power Saving Method
BSC6900
BTSBAKPWR
BAKPWRSAVPOLICY
Backup Power Saving Policy
BSC6900
BTSBAKPWR
DROPPWRSTARTTIME
Drop Power Start Time[T1]
BSC6900
BTSBAKPWR
SHUTDOWNTRXSTARTTIME
Shutdown TRX Start Time[T2]
BSC6900
BTSBAKPWR
DROPPWRINTERVAL
Drop Power Time Interval[T3]
BSC6900
BTSBAKPWR
DROPPWRSTEP
Drop Power Step
BSC6900
BTSBAKPWR
MAXDROPPWRTHRESHOLD
Max Drop Power Threshold
BSC6900
BTSBAKPWR
Power-off Protect PWROFFPROTECTSTARTTIME Start Time
BSC6900
BTSBAT
IDTYPE
Index Type
BSC6900
BTSBAT
BTSID
BTS Index
BSC6900
BTSBAT
BTSNAME
BTS Name
BSC6900
BTSBAT
CNT
Cabinet Type
BSC6900
BTSBAT
MTVT
Hierarchical Power Supply Para.<0.1v> BSC6900
BTSBAT
R0BatAllow
SubRack0 Storage Battery Config Permit BSC6900
BTSBAT
R0BatType
SubRack0 Storage Battery Type BSC6900
BTSBAT
R0BatCap
SubRack0 Storage Battery Capacity BSC6900
BTSBAT
R0BatCoeff
SubRack0 Storage Battery Coefficient BSC6900
BTSBAT
R1BatAllow
SubRack1 Storage Battery Config Permit BSC6900
BTSBAT
R1BatType
SubRack1 Storage Battery Type BSC6900
BTSBAT
R1BatCap
SubRack1 Storage Battery Capacity BSC6900
BTSBAT
R1BatCoeff
SubRack1 Storage Battery Coefficient BSC6900
BTSBAT
R2BatAllow
SubRack2 Storage Battery Config Permit BSC6900
BTSBAT
R2BatType
SubRack2 Storage Battery Type BSC6900
BTSBAT
R2BatCap
SubRack2 Storage Battery Capacity BSC6900
BTSBAT
R2BatCoeff
SubRack2 Storage Battery Coefficient BSC6900
BTSBAT
HIERPWRPARA1
Hierarchical Power Para1 BSC6900
BTSBAT
HIERPWRPARA2
Hierarchical Power Para2 BSC6900
BTSBFD
IDTYPE
Index Type
BSC6900
BTSBFD
BTSID
BTS Index
BSC6900
BTSBFD
BTSNAME
BTS Name
BSC6900
BTSBFD
CN
Cabinet No.
BSC6900
BTSBFD
SRN
Subrack No.
BSC6900
BTSBFD
SN
Slot No.
BSC6900
BTSBFD
BFDSN
BFD Session No.
BSC6900
BTSBFD
SRCIP
Source IP Address
BSC6900
BTSBFD
DSTIP
Destination IP Address
BSC6900
BTSBFD
HT
Hop Type
BSC6900
BTSBFD
BTSWTR
Time for Waiting to Restore BSC6900
BTSBFD
MINTXINTERVAL
Minimum TX Interval
BSC6900
BTSBFD
MINRXINTERVAL
Minimum RX Interval
BSC6900
BTSBFD
DETECTMULT
Detect Period
BSC6900
BTSBFD
CN
Cabinet No.
BSC6900
BTSBFD
SRN
Subrack No.
BSC6900
BTSBFD
SN
Slot No.
BSC6900
BTSBIND2HDLCPATH
IDTYPE
Index Type
BSC6900
BTSBIND2HDLCPATH
BTSID
BTS Index
BSC6900
BTSBIND2HDLCPATH
BTSNAME
BTS Name
BSC6900
PTUID
HDLC Path Index In BTS BSC6900
BTSBIND2HDLCPATH
BTSBINDLOCGRP
IDTYPE
Index Type
BSC6900
BTSBINDLOCGRP
BTSID
BTS Index
BSC6900
BTSBINDLOCGRP
BTSNAME
BTS Name
BSC6900
BTSBINDLOCGRP
MAINLOCGRPNO
Main Location Group No.
BSC6900
BTSBINDLOCGRP
SLAVELOCGRPNO
Sub-Location Group No. BSC6900
BTSBINDLOCGRP
TRXID
TRX ID
BSC6900
BTSBINDLOCGRP
CN
Cabinet No.
BSC6900
BTSBINDLOCGRP
SRN
Subrack No.
BSC6900
BTSBINDLOCGRP
SN
Slot No.
BSC6900
BTSBINDLOCGRP
TRXPN
Sub-Location Group TRX Board Pass No. BSC6900
BTSBINDLOCGRP
ANTPASSNO
Sub-Location Group Antenna Pass No. BSC6900
BTSBRD
IDTYPE
Index Type
BSC6900
BTSBRD
BTSID
BTS Index
BSC6900
BTSBRD
BTSNAME
BTS Name
BSC6900
BTSBRD
CN
Cabinet No.
BSC6900
BTSBRD
SRN
Subrack No.
BSC6900
BTSBRD
SN
Slot No.
BSC6900
BTSBRD
BT
Board Type
BSC6900
BTSBRD
CARDFREATTR
Card Frequency Attribute
BSC6900
BTSBRD
BT
Board Type
BSC6900
BTSBRDPWR
IDTYPE
Index Type
BSC6900
BTSBRDPWR
BTSID
BTS Index
BSC6900
BTSBRDPWR
BTSNAME
BTS Name
BSC6900
BTSBRDPWR
CN
Cabinet No.
BSC6900
BTSBRDPWR
SRN
Subrack No.
BSC6900
BTSBRDPWR
SN
Slot No.
BSC6900
BTSBRDPWR
SW
Power Switch
BSC6900
BTSBREAKPOINT
IDTYPE
Index Type
BSC6900
BTSBREAKPOINT
BTSID
BTS Index
BSC6900
BTSBREAKPOINT
BTSNAME
BTS Name
BSC6900
BTSBREAKPOINT
RCN
Chain No.
BSC6900
BTSBREAKPOINT
BP1
Position of Break Point 1
BSC6900
BTSBREAKPOINT
BP2
Position of Break Point 2
BSC6900
BTSBWPARA
IDTYPE
Index Type
BSC6900
BTSBWPARA
BTSID
BTS Index
BSC6900
BTSBWPARA
BTSNAME
BTS Name
BSC6900
BTSBWPARA
TRANSTYPE
BTS Transmission Type
BSC6900
BTSBWPARA
RSLUL
BTS RSL Average Up-bandwidth
BSC6900
BTSBWPARA
RSLDL
BTSBWPARA
OMLESLUL
BTSBWPARA
OMLESLDL
BTS RSL Average Down-bandwidth BTS OML&ESL Average Upbandwidth BTS OML&ESL Average Downbandwidth
BTSBWPARA
COMPRS
BTS Transfer Compression Rate
BSC6900
BTSCABINET
IDTYPE
Index Type
BSC6900
BTSCABINET
BTSID
BTS Index
BSC6900
BSC6900
BSC6900
BSC6900
BTSCABINET
BTSNAME
BTS Name
BSC6900
BTSCABINET
CN
Cabinet No.
BSC6900
BTSCABINET
SRANMODE
Is Support SingleRAN Mode
BSC6900
BTSCABINET
TYPE
Cabinet Type
BSC6900
BTSCABINET
CABINETDESC
Cabinet Description BSC6900
BTSCABPARA
IDTYPE
Index Type
BSC6900
BTSCABPARA
BTSID
BTS Index
BSC6900
BTSCABPARA
BTSNAME
BTS Name
BSC6900
BTSCABPARA
CN
Cabinet No.
BSC6900
BTSCABPARA
CFLAG
Board Parameter Configuration Enabled
BSC6900
BTSCABPARA
OVERTHD
Derating TEMP Threshold
BSC6900
BTSCABPARA
NORTHD
Normal Work TEMP Threshold
BSC6900
BTSCABPARA
MWTRXNO
Min Quantity of Working TRXs
BSC6900
BTSCAVFRQ
IDTYPE
Index Type
BSC6900
BTSCAVFRQ
BTSID
BTS Index
BSC6900
BTSCAVFRQ
BTSNAME
BTS Name
BSC6900
BTSCAVFRQ
CN
Cabinet No.
BSC6900
BTSCAVFRQ
SRN
Subrack No.
BSC6900
BTSCAVFRQ
SN
Slot No.
BSC6900
BTSCHNFALLBACK
IDTYPE
Index Type
BSC6900
BTSCHNFALLBACK
BTSID
BTS Index
BSC6900
BTSCHNFALLBACK
BTSNAME
BTS Name
BSC6900
BTSCHNFALLBACK
CHNNO
Channel No.
BSC6900
BTSCHNFALLBACK
CHNTYPE
Channel Type
BSC6900
BTSCHNFALLBACK
GROUPCALLNUM1
Group Call Num 1
BSC6900
BTSCHNFALLBACK
SPEECHVERMODE1
Speech Version Mode 1
BSC6900
BTSCHNFALLBACK
GROUPCALLNUM2
Group Call Num 2
BSC6900
BTSCHNFALLBACK
SPEECHVERMODE2
Speech Version Mode 2
BSC6900
BTSCHNFALLBACK
SPEECHVERSION
Speech Version
BSC6900
BTSCLK
IDTYPE
Index Type
BSC6900
BTSCLK
BTSID
BTS Index
BSC6900
BTSCLK
BTSNAME
BTS Name
BSC6900
BTSCLK
ClkType
Clock Type
BSC6900
BTSCLK
TRANSTYPE
Trans Type
BSC6900
BTSCLK
PN
Port No.
BSC6900
BTSCLK
CN
Cabinet No.
BSC6900
BTSCLK
SRN
Sub No.
BSC6900
BTSCLK
SN
Slot No.
BSC6900
BTSCLKPARA
IDTYPE
Index Type
BSC6900
BTSCLKPARA
BTSID
BTS Index
BSC6900
BTSCLKPARA
BTSNAME
BTS Name
BSC6900
BTSCLKPARA
CN
Cabinet No.
BSC6900
BTSCLKPARA
SRN
Subrack No.
BSC6900
BTSCLKPARA
SN
Slot No.
BSC6900
BTSCLKPARA
CLKMOD
Clock Mode
BSC6900
BTSCLKPARA
TRCRNGLMT
Trace Mode
BSC6900
BTSCLKPARA
CALVAL
Calibration Value
BSC6900
BTSCONNECT
IDTYPE
Index Type
BSC6900
BTSCONNECT
BTSID
BTS Index
BSC6900
BTSCONNECT
BTSNAME
BTS Name
BSC6900
BTSCONNECT
INPN
BTS In Port No.
BSC6900
BTSCONNECT
INCN
In Port Cabinet No. BSC6900
BTSCONNECT
INSRN
In Port Subrack No. BSC6900
BTSCONNECT
INSN
In Port Slot No.
BSC6900
BTSCONNECT
DESTNODE
Dest Node Type
BSC6900
BTSCONNECT
SRN
Subrack No.
BSC6900
BTSCONNECT
SN
Slot No.
BSC6900
BTSCONNECT
PN
Port No.
BSC6900
BTSCONNECT
UPBTSIDTYPE
Dest Father Index Type
BSC6900
BTSCONNECT
UPBTSID
Dest Father BTS Index
BSC6900
BTSCONNECT
UPBTSNAME
Dest Father BTS Name
BSC6900
BTSCONNECT
FPN
Dest Father BTS Port No.
BSC6900
BTSCONNECT
FCN
Cabinet No. of Father BTS
BSC6900
BTSCONNECT
FSRN
Subrack No. of Father BTS
BSC6900
BTSCONNECT
FSN
Slot No. of Father BTS
BSC6900
BTSCONNECT
DXXINDEX
Up DXX Index
BSC6900
BTSCONNECT
DXXPN
Up DXX Port No.
BSC6900
BTSCRC4
IDTYPE
Index Type
BSC6900
BTSCRC4
BTSID
BTS Index
BSC6900
BTSCRC4
BTSNAME
BTS Name
BSC6900
BTSCRC4
CRC4CHK
CRC4 Check Switch
BSC6900
BTSCTRL
IDTYPE
Index Type
BSC6900
BTSCTRL
BTSID
BTS Index
BSC6900
BTSCTRL
BTSNAME
BTS Name
BSC6900
BTSCTRL
CTRLSRN
Control Plane Subrack No.
BSC6900
BTSCTRL
CTRLSN
Control Plane Slot No.
BSC6900
BTSDATUBP
IDTYPE
Index Type
BSC6900
BTSDATUBP
BTSID
BTS Index
BSC6900
BTSDATUBP
BTSNAME
BTS Name
BSC6900
BTSDATUBP
CN
Cabinet No.
BSC6900
BTSDATUBP
SRN
Subrack No.
BSC6900
BTSDATUBP
SN
Slot No.
BSC6900
BTSDATUBP
CFGFLAG
Board Parameter Configuration Enabled
BTSDATUBP
AMPC0
ANT0 ALD Power Switch
BSC6900
BTSDATUBP
MODE0
ANT0 Alarm Mode
BSC6900
MAJORALMUP0
ANT0 ALD Over Critical Alarm Threshold(mA)
BSC6900
MINORALMUP0
ANT0 ALD Over Warning Alarm Threshold(mA)
BSC6900
ALMD0
ANT0 ALD Low Current Alarm Threhold(mA)
BSC6900
BTSDATUBP
BTSDATUBP
BTSDATUBP
BSC6900
BTSDATUBP
AMPC1
ANT1 ALD Power Switch
BSC6900
BTSDATUBP
MODE1
ANT1 Alarm Mode
BSC6900
MAJORALMUP1
ANT1 ALD Over Critical Alarm Threshold(mA)
BSC6900
MINORALMUP1
ANT1 ALD Over Warning Alarm Threshold(mA)
BSC6900
BTSDATUBP
ALMD1
ANT1 ALD Low Current Alarm Threhold(mA)
BSC6900
BTSDATUBP
AMPC2
ANT2 ALD Power Switch
BSC6900
BTSDATUBP
BTSDATUBP
BTSDATUBP
MODE2
ANT2 Alarm Mode
BSC6900
MAJORALMUP2
ANT2 ALD Over Critical Alarm Threshold(mA)
BSC6900
MINORALMUP2
ANT2 ALD Over Warning Alarm Threshold(mA)
BSC6900
BTSDATUBP
ALMD2
ANT2 ALD Low Current Alarm Threhold(mA)
BSC6900
BTSDATUBP
AMPC3
ANT3 ALD Power Switch
BSC6900
BTSDATUBP
MODE3
ANT3 Alarm Mode
BSC6900
BTSDATUBP
BTSDATUBP
MAJORALMUP3
ANT3 ALD Over Critical Alarm Threshold(mA)
BSC6900
MINORALMUP3
ANT3 ALD Over Warning Alarm Threshold(mA)
BSC6900
BTSDATUBP
ALMD3
ANT3 ALD Low Current Alarm Threhold(mA)
BSC6900
BTSDATUBP
AMPC4
ANT4 ALD Power Switch
BSC6900
BTSDATUBP
MODE4
ANT4 Alarm Mode
BSC6900
MAJORALMUP4
ANT4 ALD Over Critical Alarm Threshold(mA)
BSC6900
MINORALMUP4
ANT4 ALD Over Warning Alarm Threshold(mA)
BSC6900
BTSDATUBP
BTSDATUBP
BTSDATUBP
BTSDATUBP
BTSDATUBP
ALMD4
ANT4 ALD Low Current Alarm Threhold(mA)
BTSDATUBP
AMPC5
ANT5 ALD Power Switch
BSC6900
BTSDATUBP
MODE5
ANT5 Alarm Mode
BSC6900
MAJORALMUP5
ANT5 ALD Over Critical Alarm Threshold(mA)
BSC6900
MINORALMUP5
ANT5 ALD Over Warning Alarm Threshold(mA)
BSC6900
ALMD5
ANT5 ALD Low Current Alarm Threhold(mA)
BSC6900
BTSDATUBP
BTSDATUBP
BTSDATUBP
BSC6900
BTSDATUBP
MCN
Manager Cabinet No.
BSC6900
BTSDATUBP
MSRN
Manager Subrack No.
BSC6900
BTSDATUBP
MPN
Manager Port No.
BSC6900
BTSDATUBP
ADDR
Address
BSC6900
BTSDDPUBP
IDTYPE
Index Type
BSC6900
BTSDDPUBP
BTSID
BTS Index
BSC6900
BTSDDPUBP
BTSNAME
BTS Name
BSC6900
BTSDDPUBP
SRN
Subrack No.
BSC6900
BTSDDPUBP
SN
Slot No.
BSC6900
CFGFLAG
Board Parameter Configuration Enabled
BSC6900
BTSDDPUBP
VSWRTHRES1
Standing Wave Radio Alarm Threshold
BSC6900
BTSDDPUBP
VSWRTHRES2
Serious VSW Alarm Threshold BSC6900
BTSDDPUBP
VSWRFILETERCOUNTER
Serious VSW Alarm Filter Times BSC6900
BTSDEMUBP
IDTYPE
Index Type
BSC6900
BTSDEMUBP
BTSID
BTS Index
BSC6900
BTSDEMUBP
BTSNAME
BTS Name
BSC6900
BTSDEMUBP
CN
Cabinet No.
BSC6900
BTSDEMUBP
SRN
Subrack No.
BSC6900
BTSDDPUBP
BTSDEMUBP
SN
Slot No.
BSC6900
BTSDEMUBP
CFGFLAG
Board Parameter Configuration Enabled
BSC6900
BTSDEMUBP
SAAF
Special Analog Alarm Flag.
BSC6900
BTSDEMUBP
SBAF
Special Boolean Alarm Flag
BSC6900
SASV
Special Alarm Switch Valid Vol. Level
BSC6900
BTSDEMUBP
BTSDEMUBP
ASSORXUCN
Associated RXU Board CN
BSC6900
BTSDEMUBP
ASSORXUSRN
Associated RXU Board SRN
BSC6900
BTSDEMUBP
ASSORXUSN
Associated RXU Board SN
BSC6900
BTSDEMUBP
MCN
Manager Cabinet No.
BSC6900
BTSDEMUBP
MSRN
Manager Subrack No.
BSC6900
BTSDEMUBP
MPN
Manager Port No.
BSC6900
BTSDEMUBP
ADDR
Address
BSC6900
BTSDEVIP
IDTYPE
Index Type
BSC6900
BTSDEVIP
BTSID
BTS Index
BSC6900
BTSDEVIP
BTSNAME
BTS Name
BSC6900
BTSDEVIP
PN
Port No.
BSC6900
BTSDEVIP
CN
Port Cabinet No.
BSC6900
BTSDEVIP
SRN
Subrack No.
BSC6900
BTSDEVIP
SN
Slot No.
BSC6900
BTSDEVIP
IP
Physical IP
BSC6900
BTSDEVIP
MASK
IP Mask
BSC6900
BTSDEVIP
CFGSW
Configuration Switch
BSC6900
BTSDEVIP
PN
Port No.
BSC6900
BTSDFCUBP
IDTYPE
Index Type
BSC6900
BTSDFCUBP
BTSID
BTS Index
BSC6900
BTSDFCUBP
BTSNAME
BTS Name
BSC6900
BTSDFCUBP
SRN
Subrack No.
BSC6900
BTSDFCUBP
SN
Slot No.
BSC6900
BTSDFCUBP
RELATEDFCUENABLED
Extend Connection Configuration Enabled BSC6900
BTSDFCUBP
DFCBSRN
DFCB Board SRN
BSC6900
BTSDFCUBP
DFCBSN
DFCB Board SN
BSC6900
BTSDFCUBP
RELATEDTRACK
Cascading Tributary BSC6900
BTSDFCUBP
VSWRENABLED
Standing Wave Alarm CFG Enabled BSC6900
BTSDFCUBP
VSWRTHRES1
Standing Wave Radio Alarm Threshold
BTSDFCUBP
VSWRTHRES2
Serious VSW Alarm Threshold BSC6900
BTSDFCUBP
VSWRFILETERCOUNTER
Serious VSW Alarm Filter Times BSC6900
BTSDGPSBP
IDTYPE
Index Type
BSC6900
BTSDGPSBP
BTSID
BTS Index
BSC6900
BSC6900
BTSDGPSBP
BTSNAME
BTS Name
BSC6900
BTSDGPSBP
SRN
Subrack No.
BSC6900
BTSDGPSBP
SN
Slot No.
BSC6900
BTSDGPSBP
RGPSINDICATION
GPS or RGPS
BSC6900
BTSDGPSBP
GPSORGLONASS
GPS or Glonass
BSC6900
BTSDGPSBP
ANTENNALONG
GPS Antenna Delay BSC6900
BTSDGPSBP
ANTENNAPOWERSWITCH
Antenna Power Supply Switch
BSC6900
BTSDGPSBP
ALMLMTUP1
Upper Alarm
BSC6900
BTSDGPSBP
ALMLMTUP2
Upper Alarm
BSC6900
BTSDGPSBP
ALMLMTDOWN
Lower Alarm
BSC6900
BTSDHCPSVRIP
IDTYPE
Index Type
BSC6900
BTSDHCPSVRIP
BTSID
BTS Index
BSC6900
BTSDHCPSVRIP
BTSNAME
BTS Name
BSC6900
BTSDHCPSVRIP
DHCPSRV
DHCP Server IP
BSC6900
BTSDHEUBP
IDTYPE
Index Type
BSC6900
BTSDHEUBP
BTSID
BTS Index
BSC6900
BTSDHEUBP
BTSNAME
BTS Name
BSC6900
BTSDHEUBP
CN
Cabinet No.
BSC6900
BTSDHEUBP
SRN
Subrack No.
BSC6900
BTSDHEUBP
SN
Slot No.
BSC6900
BTSDHEUBP
CFGFLAG
Board Parameter Configuration Enabled
BTSDHEUBP
TUTHD
Temperature Alarm Upper Threshold BSC6900
BTSDHEUBP
TLTHD
Temperature Alarm Lower Threshold BSC6900
BTSDHEUBP
ISTMPCTRL
DHEU Temperature Control BSC6900
BTSDHEUBP
LTCP
Low Temperature Critical Point
BSC6900
BSC6900
HTCP
High Temperature Critical Point
BSC6900
BTSDHEUBP
TLT
Temperature Limit at Air Outlet
BSC6900
BTSDHEUBP
DBD
Dead Band
BSC6900
NTDI
Normal Temperature Delta Tin BSC6900
NTDO
Normal Temperature Delta Tout BSC6900
BTSDHEUBP
BTSDHEUBP
BTSDHEUBP
BTSDHEUBP
HTDO
High Temperature Delta Tout
BSC6900
BTSDHEUBP
ISADDEDTMPCONTROL
DHEU Heater Control Allowed
BSC6900
BTSDHEUBP
STARTHEATTEMP
Heater Startup Temperature
BSC6900
BTSDHEUBP
ENDHEATTEMP
Heater Shutdown Temperature
BSC6900
BTSDHEUBP
ASSORXUCN
Associated RXU Board CN
BSC6900
BTSDHEUBP
ASSORXUSRN
Associated RXU Board SRN
BSC6900
BTSDHEUBP
ASSORXUSN
Associated RXU Board SN
BSC6900
BTSDHEUBP
MCN
Manager Cabinet No.
BSC6900
BTSDHEUBP
MSRN
Manager Subrack No.
BSC6900
BTSDHEUBP
MPN
Manager Port No.
BSC6900
BTSDHEUBP
ADDR
Address
BSC6900
BTSDHEUBP
ALMPARACFGFLAG
Alarm Parameter Configuration Enabled
BSC6900
BTSDHEUBP
SBAF
Special Boolean Alarm Flag
BSC6900
BTSDOMUBP
IDTYPE
Index Type
BSC6900
BTSDOMUBP
BTSID
BTS Index
BSC6900
BTSDOMUBP
BTSNAME
BTS Name
BSC6900
BTSDOMUBP
SRN
Subrack No.
BSC6900
BTSDOMUBP
SN
Slot No.
BSC6900
CFGFLAG
Board Parameter Configuration Enabled
BSC6900
TRANSTYPE0
E1 Port 0 Set Optical Transmission Mode BSC6900
TRANSTYPE1
E1 Port 1 Set Optical Transmission Mode BSC6900
TRANSTYPE2
E1 Port 2 Set Optical Transmission Mode BSC6900
TRANSTYPE3
E1 Port 3 Set Optical Transmission Mode BSC6900
BTSDOMUBP
BTSDOMUBP
BTSDOMUBP
BTSDOMUBP
BTSDOMUBP
BTSDOMUBP
INDEN3
Independent E1 Port 3
BSC6900
BTSDOMUBP
SAVEENABLED
Energy Saving Support
BSC6900
BTSDOMUBP
USTBGNTIME
Energy Saving Start Time[HH:MM] BSC6900
BTSDOMUBP
USTENDTIME
Energy Saving End Time[HH:MM] BSC6900
BTSDPMUBP
IDTYPE
Index Type
BSC6900
BTSDPMUBP
BTSID
BTS Index
BSC6900
BTSDPMUBP
BTSNAME
BTS Name
BSC6900
BTSDPMUBP
SRN
Subrack No.
BSC6900
BTSDPMUBP
SN
Slot No.
BSC6900
CFGFLAG
Board Parameter Configuration Enabled
BSC6900
BTSDPMUBP
BTSDPMUBP
CNT
Cabinet Type
BSC6900
BTSDPMUBP
PSU0
DPSU 0 Configured BSC6900
BTSDPMUBP
PSU1
DPSU 1 Configured BSC6900
BTSDPMUBP
PSU2
DPSU 2 Configured BSC6900
BTSDPMUBP
PSU3
DPSU 3 Configured BSC6900
BTSDPMUBP
PSU4
DPSU 4 Configured BSC6900
BTSDPMUBP
PSU5
DPSU 5 Configured BSC6900
BTSDPMUBP
PSU6
DPSU 6 Configured BSC6900
BTSDPMUBP
PSU7
DPSU 7 Configured BSC6900
BTSDPMUBP
ALMENABLE
Alarm Enable Flag
BSC6900
SALOG
Special Analog Alarm Enabled
BSC6900
BTSDPMUBP
SAS
Special Alarm Switcher
BSC6900
BTSDPMUBP
BATTENABLEDIN
Battery Configuration Enabled
BSC6900
BTSDPMUBP
BATTTYPE
Battery Type
BSC6900
BTSDPMUBP
MAXRECHARGECURRENT
Charge Coefficient
BSC6900
BTSDPMUBP
BATTCAPACITY
Battery Capacity
BSC6900
BTSDPMUBP
HPVFLAG
Hierarchical Poweroff Config. Enabled BSC6900
BTSDPMUBP
BTSDPMUBP
HPVTHD
Load Power-off Voltage
BSC6900
BTSDPMUBP
CELLEQUCHGVOL
Even Charging Voltage
BSC6900
BTSDPMUBP
CELLFLOATCHGVOL
Float Charging Voltage
BSC6900
BTSDPMUBP
LOADPWROFFEN
Load Power-off Allowed State
BSC6900
BTSDPMUBP
CELLPWROFFEN
Battery Power-off Allowed State
BSC6900
BTSDPMUBP
CELLPWROFFVOL
Battery Power-off Voltage
BSC6900
BTSDPMUBP
LOWTEMPLOADPWROFF
Low Temperature StartLoadPower-off Allowed State BSC6900
BTSDPMUBP
Low Temperature TEMPOFLOWTEMPLOADPWR Start Load Poweroff OFF Temp. BSC6900
BTSDPMUBP
ACVOLALARMH
AC Overvoltage Alarm Threshold
BSC6900
BTSDPMUBP
ACVOLALARML
AC Undervoltage Alarm Threshold
BSC6900
BTSDPMUBP
DCVOLALARMH
DC Overvoltage Alarm Threshold
BSC6900
BTSDPMUBP
DCVOLALARML
DC Under Voltage Alarm Threshold
BSC6900
CELLTEMPCOMPENABLED
Battery Temperature Compensated Configure Enabled
BSC6900
CELLTEMP1THRESHOLDH
Upper Assembled Battery 1 Temp
BSC6900
CELLTEMP1THRESHOLDL
Lower Assembled Battery1 TEMP Measure
BSC6900
BTSDPMUBP
BTSDPMUBP
BTSDPMUBP
CELLTEMP1ALARMH
High Temp Alarm Assembled Battery1 BSC6900
BTSDPMUBP
CELLTEMP1ALARML
Low Temp Alarm Assembled Battery1 BSC6900
BTSDPMUBP
TEMPCOMPENSATECOEF
Coefficient of Temp Compensation BSC6900
BTSDPMUBP
BASETEMPERATURE
Temperature Basis for Compensation BSC6900
BTSDPMUBP
SETENVPARAENABLED
ENV TEMP CFG Enabled
BSC6900
BTSDPMUBP
TEMPALARMTHRESHOLDH
Upper ENV TEMP Alarm
BSC6900
TEMPALARMTHRESHOLDL
Lower ENV TEMP Alarm
BSC6900
SETHUMPARAENABLED
Environment Humidity Configure Enabled BSC6900
BTSDPMUBP
BTSDPMUBP
BTSDPMUBP
HUMALAMRTHRESHOLDH
Upper Threshold of Humidity Alarm BSC6900
BTSDPMUBP
HUMALAMRTHRESHOLDL
Lower Threshold of Humidity Alarm BSC6900
BTSDPMUBP
SETDIESELENGINEENABLED
Diesel Engine Configure Enabled
BTSDPMUBP
DIESELENGINESAVESWITCH
Diesel Engine Save Switch BSC6900
BTSDPMUBP
MAXOUTPUTPOWER
Diesel Max Output Power
BSC6900
BTSDPMUBP
BATTERYDISCHARGEDEPTH
Battery Discharge Depth
BSC6900
BTSDTMUBP
IDTYPE
Index Type
BSC6900
BTSDTMUBP
BTSID
BTS Index
BSC6900
BTSDTMUBP
BTSNAME
BTS Name
BSC6900
BTSDTMUBP
SRN
Subrack No.
BSC6900
BTSDPMUBP
BSC6900
BTSDTMUBP
SN
Slot No.
BSC6900
BTSDTMUBP
CFGFLAG
Board Parameter Configuration Enabled
BSC6900
BTSDTMUBP
OUTPUT0
Cannel 0 Digital Control Signal Level BSC6900
BTSDTMUBP
OUTPUT1
Cannel 1 Digital Control Signal Level BSC6900
BTSDTMUBP
OUTPUT2
Cannel 2 Digital Control Signal Level BSC6900
BTSDTMUBP
OUTPUT3
Cannel 3 Digital Control Signal Level BSC6900
BTSENVALM
IDTYPE
Index Type
BSC6900
BTSENVALM
BTSID
BTS Index
BSC6900
BTSENVALM
BTSNAME
BTS Name
BSC6900
BTSENVALM
ISSPTDEMUS
Demu Configure Information
BSC6900
BTSENVALM
CN
Cabinet No.
BSC6900
BTSENVALM
SRN
Subrack No.
BSC6900
BTSENVALM
SN
Slot No.
BSC6900
BTSENVALMPORT
IDTYPE
Index Type
BSC6900
BTSENVALMPORT
BTSNAME
BTS Name
BSC6900
BTSENVALMPORT
BTSID
BTS Index
BSC6900
BTSENVALMPORT
CN
Cabinet No.
BSC6900
BTSENVALMPORT
SRN
Subrack No.
BSC6900
BTSENVALMPORT
SN
Slot No.
BSC6900
BTSENVALMPORT
PN
Port No.
BSC6900
BTSENVALMPORT
SW
Switch
BSC6900
BTSENVALMPORT
AID
Alarm ID.
BSC6900
BTSENVALMPORT
PT
Port Type
BSC6900
BTSENVALMPORT
AVOL
Alarm VOL.
BSC6900
BTSENVALMPORT
UL
Upper Limit
BSC6900
BTSENVALMPORT
LL
Lower Limit
BSC6900
BTSENVALMPORT
RESALMID
Reserved Alarm ID. BSC6900
BTSENVALMPORT
ST
Sensor Type
BSC6900
BTSENVALMPORT
SMUL
Measure Upper Limit Of Sensor
BSC6900
BTSENVALMPORT
SMLL
Measure Lower Limit Of Sensor
BSC6900
BTSENVALMPORT
SOUL
Upper Limit Of Sensor Output
BSC6900
BTSENVALMPORT
SOLL
Lower Limit Of Sensor Output
BSC6900
BTSESN
IDTYPE
BTS Index Type
BSC6900
BTSESN
BTSID
BTS Index
BSC6900
BTSESN
BTSNAME
BTS Name
BSC6900
BTSESN
MAINDEVTAB
BTS Interface Board Bar Code 1
BSC6900
BTSESN
BAKDEVTAB
BTS Interface Board Bar Code 2
BSC6900
BTSETHLCMEP
IDTYPE
Index Type
BSC6900
BTSETHLCMEP
BTSID
BTS Index
BSC6900
BTSETHLCMEP
BTSNAME
BTS Name
BSC6900
BTSETHLCMEP
MDNAME
MD Name
BSC6900
BTSETHLCMEP
MANAME
MA Name
BSC6900
BTSETHLCMEP
MEPID
MEP ID
BSC6900
BTSETHLCMEP
CN
Port Cabinet No.
BSC6900
BTSETHLCMEP
SRN
Port Subrack No.
BSC6900
BTSETHLCMEP
SN
Port Slot No.
BSC6900
BTSETHLCMEP
PN
Port No.
BSC6900
BTSETHMA
IDTYPE
Index Type
BSC6900
BTSETHMA
BTSID
BTS Index
BSC6900
BTSETHMA
BTSNAME
BTS Name
BSC6900
BTSETHMA
MDNAME
MD Name
BSC6900
BTSETHMA
MANAME
MA Name
BSC6900
BTSETHMA
CN
Port Cabinet No.
BSC6900
BTSETHMA
SRN
Port Subrack No.
BSC6900
BTSETHMA
SN
Port Slot No.
BSC6900
BTSETHMA
VLANID
VLAN ID
BSC6900
BTSETHMD
IDTYPE
Index Type
BSC6900
BTSETHMD
BTSID
BTS Index
BSC6900
BTSETHMD
BTSNAME
BTS Name
BSC6900
BTSETHMD
MDNAME
MD Name
BSC6900
BTSETHMD
MDLEVEL
MD Level
BSC6900
BTSETHPORT
IDTYPE
Index Type
BSC6900
BTSETHPORT
BTSID
BTS Index
BSC6900
BTSETHPORT
BTSNAME
BTS Name
BSC6900
BTSETHPORT
PN
Port No.
BSC6900
BTSETHPORT
CN
Port Cabinet No.
BSC6900
BTSETHPORT
SRN
Port Subrack No.
BSC6900
BTSETHPORT
SN
Port Slot No.
BSC6900
BTSETHPORT
RATE
Rate
BSC6900
BTSETHPORT
DUPLEX
Duplex Mode
BSC6900
BTSETHPORT
MTU
MTU
BSC6900
BTSETHPORT
FC
Flow Control
BSC6900
BTSETHPORT
SWITCH3AH
3ah Switch
BSC6900
BTSETHPORT
MACEAAT
BTSETHPORT
MACEADT
BTSETHPORT
IPEAAT
BTSETHPORT
IPEADT
IP Frame Error Alarm Threshold IP Frame Error Alarm Clearance Threshold
BTSETHRMMEP
IDTYPE
Index Type
BSC6900
BTSETHRMMEP
BTSID
BTS Index
BSC6900
MAC Frame Error Alarm Threshold MAC Frame Error Alarm Clearance Threshold
BSC6900
BSC6900
BSC6900
BSC6900
BTSETHRMMEP
BTSNAME
BTS Name
BSC6900
BTSETHRMMEP
MDNAME
MD Name
BSC6900
BTSETHRMMEP
MANAME
MA Name
BSC6900
BTSETHRMMEP
MEPID
MEP ID
BSC6900
BTSEXCURSION
TASKIDX
AISS Task Index
BSC6900
BTSEXCURSION
IDTYPE
Index Type
BSC6900
BTSEXCURSION
BTSID
BTS Index
BSC6900
BTSEXCURSION
BTSNAME
BTS Name
BSC6900
BTSEXCURSION
ADJMODE
Adjustment Mode
BSC6900
BTSEXCURSION
FRAMEOFFSET
Frame Offset [Frame No]
BSC6900
BTSEXCURSION
BITOFFSET
In Frame Bit Offset [1/8 bit] BSC6900
BTSEXD
IDTYPE
Index Type
BSC6900
BTSEXD
BTSID
BTS Index
BSC6900
BTSEXD
BTSNAME
BTS Name
BSC6900
BTSEXD
HUTHD
Humidity Alarm Upper Threshold
BSC6900
BTSEXD
HLTHD
Humidity Alarm Lower Threshold
BSC6900
BTSEXD
TUTHD
Temperature Alarm Upper Threshold BSC6900
BTSEXD
TLTHD
Temperature Alarm Lower Threshold BSC6900
BTSFALLBACK
IDTYPE
Index Type
BSC6900
BTSFALLBACK
BTSID
BTS Index
BSC6900
BTSFALLBACK
BTSNAME
BTS Name
BSC6900
BTSFALLBACK
ENABLE
Fallback Function Enable
BSC6900
BTSFALLBACK
STARTTIME
Fallback Start Time BSC6900
BTSFALLBACK
STOPTIME
Fallback Stop Time BSC6900
BTSFALLBACK
UPLNKMAXLENGTH
Uplink Max Length
BSC6900
BTSFALLBACK
NOVGCSTIME
No VGCS Call Time BSC6900
BTSFLEXABISPARA
IDTYPE
Index Type
BSC6900
BTSFLEXABISPARA
BTSID
BTS Index
BSC6900
BTSFLEXABISPARA
BTSNAME
BTS Name
BSC6900
BTSFLEXABISPARA
SUBRESPREEMPTFLG
Sub Res Preempt Flag
BSC6900
BTSFLEXABISPARA
LOWLEVSUBRESPREEMPTFL G
Low Lev Sub Res Preempt Flag
BSC6900
BTSFLEXABISPARA
ABISRESADJTCHHFUNSW
TCHH Function Switch
BSC6900
BTSFLEXABISPARA
FIXABISPRIORABISLOADTHRE Fix Abis Prior D Choose Load Thred BSC6900
PRIORABISLOADTHRED
Flex Abis Prior Choose Load Thred BSC6900
BTSFLEXABISPARA
PCUPREEMPTFLAG
PCU Support PREEMPT_ABIS_L INK Message BSC6900
BTSFLEXABISPARA
GROUPRELTSNUM
Group Release TS Number
BSC6900
BTSFMUABP
IDTYPE
Index Type
BSC6900
BTSFMUABP
BTSID
BTS Index
BSC6900
BTSFMUABP
BTSNAME
BTS Name
BSC6900
BTSFMUABP
CN
Cabinet No.
BSC6900
BTSFMUABP
SRN
Subrack No.
BSC6900
BTSFMUABP
SN
Slot No.
BSC6900
BTSFLEXABISPARA
BTSFMUABP
CFGFLAG
Board Parameter Configuration Enabled
BTSFMUABP
STC
Smart Temperature Control BSC6900
BTSFMUABP
SBAF
Special Boolean Alarm Flag
BTSFMUABP
SPECIALSWITCHERLEVEL
Special Alarm Valid Level Configuration BSC6900
BSC6900
BSC6900
BTSFMUABP
MCN
Manager Cabinet No.
BSC6900
BTSFMUABP
MSRN
Manager Subrack No.
BSC6900
BTSFMUABP
MPN
Manager Port No.
BSC6900
BTSFMUABP
ADDR
Address
BSC6900
BTSFMUABP
FMUTYPE
FMU Board Type
BSC6900
BTSFORBIDTS
IDTYPE
Index Type
BSC6900
BTSFORBIDTS
BTSID
BTS Index
BSC6900
BTSFORBIDTS
BTSNAME
BTS Name
BSC6900
BTSFORBIDTS
OPTYPE
Operate Type
BSC6900
BTSFORBIDTS
PN
Port No.
BSC6900
BTSFORBIDTS
CN
Port Cabinet No.
BSC6900
BTSFORBIDTS
SRN
Port Subrack No.
BSC6900
BTSFORBIDTS
SN
Port Slot No.
BSC6900
BTSFORBIDTS
STARTTS
Start Timeslot No.
BSC6900
BTSFORBIDTS
STARTSUBTS
Start Sub Timeslot No.
BSC6900
BTSFORBIDTS
ENDTS
End Timeslot NO.
BSC6900
BTSFORBIDTS
ENDSUBTS
End Sub Timeslot NO.
BSC6900
BTSGUPWRSHRFP
IDTYPE
Index Type
BSC6900
BTSGUPWRSHRFP
BTSID
BTS Index
BSC6900
BTSGUPWRSHRFP
BTSNAME
BTS Name
BSC6900
CFGFLAG
Board Parameter Configuration Enabled
GUPWRSHARESTM1
Start Time of Period 1 for Enabling GU Power Sharing[HH:MM] BSC6900
GUPWRSHAREETM1
End Time of Period 1 for Enabling GU Power Sharing[HH:MM] BSC6900
GUPWRSHARESTM2
Start Time of Period 2 for Enabling GU Power Sharing[HH:MM] BSC6900
GUPWRSHAREETM2
End Time of Period 2 for Enabling GU Power Sharing[HH:MM] BSC6900
GUPWRSHARESTM3
Start Time of Period 3 for Enabling GU Power Sharing[HH:MM] BSC6900
GUPWRSHAREETM3
End Time of Period 3 for Enabling GU Power Sharing[HH:MM] BSC6900
GUPWRSHARESTM4
Start Time of Period 4 for Enabling GU Power Sharing[HH:MM] BSC6900
BTSGUPWRSHRFP
GUPWRSHAREETM4
End Time of Period 4 for Enabling GU Power Sharing[HH:MM] BSC6900
BTSIDLETS
IDTYPE
Index Type
BTSGUPWRSHRFP
BTSGUPWRSHRFP
BTSGUPWRSHRFP
BTSGUPWRSHRFP
BTSGUPWRSHRFP
BTSGUPWRSHRFP
BTSGUPWRSHRFP
BTSGUPWRSHRFP
BSC6900
BSC6900
BTSIDLETS
BTSID
BTS Index
BSC6900
BTSIDLETS
BTSNAME
BTS Name
BSC6900
BTSIDLETS
CGN
Cabinet Group No.
BSC6900
BTSIDLETS
TSCOUNT
Idle TS Count
BSC6900
BTSIP
IDTYPE
Index Type
BSC6900
BTSIP
BTSID
BTS Index
BSC6900
BTSIP
BTSNAME
BSC6900
BTSIP
BTSCOMTYPE
BTS Name BTS Communication Type
BSC6900
BTSIP
BTSIP
BTS IP
BSC6900
BTSIP
BSCIP
BSC IP
BSC6900
BTSIP
HOSTTYPE
HostType
BSC6900
BTSIP
PEERBTSID
Peer BTS ID
BSC6900
BTSIP
PEERBSCIP
Peer BSC IP
BSC6900
BTSIP
PEERBSCMASK
Peer BSC Mask
BSC6900
BTSIP
GWIP
BTS Security Gateway IP Address
BSC6900
BTSIP
PEERBSCID
Peer BSC ID
BSC6900
BTSIP
CFGFLAG
Carry Flag
BSC6900
BTSIP
SN
Slot No.
BSC6900
BTSIP
LPN
Logic Port No.
BSC6900
BTSIP
GRPID
Transport Resource Group No. BSC6900
BTSIP
BTSGWIPSWITCH
BTS Gateway IP Switch
BSC6900
BTSIP
NEXTHOP
Forward Route Address
BSC6900
BTSIPCLKPARA
IDTYPE
Index Type
BSC6900
BTSIPCLKPARA
BTSID
BTS Index
BSC6900
BTSIPCLKPARA
BTSNAME
BTS Name
BSC6900
BTSIPCLKPARA
CLKPRTTYPE
Clock Protocol Type BSC6900
BTSIPCLKPARA
DN
Domain
BSC6900
BTSIPCLKPARA
CLKTOPOMODE
Clock Topology Mode
BSC6900
SYNMODE
Clock Synchronization Mode
BSC6900
BTSIPCLKPARA
BTSIPCLKPARA
SYNTIMEDAY
Days of Inter Sync Period
BTSIPCLKPARA
SYNTIMEHOUR
Hours of Inter Sync Period BSC6900
BTSIPCLKPARA
SYNTIMEMIN
Minutes of Inter Sync Period
BSC6900
BTSIPCLKPARA
ISCLKREDUCY
Clock Reference Source Redundancy
BSC6900
BTSIPCLKPARA
MASTERIPADDR
Clock Server 0 IP Address
BSC6900
BTSIPCLKPARA
SLAVEIPADDR
Clock Server 1 IP Address
BSC6900
BTSIPCLKPARA
CN
Cabinet No.
BSC6900
BTSIPCLKPARA
SRN
Subrack No.
BSC6900
BTSIPCLKPARA
SN
Slot No.
BSC6900
BTSIPCLKPARA
LINK0PORT
Port Number of Clock Link 0
BSC6900
BTSIPCLKPARA
LINK0MAC
Clock Reference Source MAC Address of Clock Link 0
BSC6900
BTSIPCLKPARA
LINK1PORT
Port Number of Clock Link 1
BSC6900
LINK1MAC
Clock Reference Source MAC Address of Clock Link 1
BSC6900
BTSIPCLKPARA
BSC6900
BTSIPLGCPORT
IDTYPE
Index Type
BSC6900
BTSIPLGCPORT
BTSID
BTS Index
BSC6900
BTSIPLGCPORT
BTSNAME
BTS Name
BSC6900
BTSIPLGCPORT
CN
Port Cabinet No.
BSC6900
BTSIPLGCPORT
SRN
Port Subrack No.
BSC6900
BTSIPLGCPORT
SN
Port Slot No.
BSC6900
BTSIPLGCPORT
LPN
Logical Port No.
BSC6900
BTSIPLGCPORT
PN
Port No.
BSC6900
TXBW
Transmission Bandwidth
BSC6900
BTSIPLGCPORT
TXCBS
Maximum Burst Size for Transmission
BSC6900
BTSIPPARA
IDTYPE
Index Type
BSC6900
BTSIPPARA
BTSID
BTS Index
BSC6900
BTSIPPARA
BTSNAME
BTS Name
BSC6900
BTSIPPARA
CFGSW
Configuration Switch
BSC6900
BTSIPPARA
IPPHYTRANSTYPE
BTSIPPARA
BTSCOMTYPE
BTSIPLGCPORT
IP Physical Transport Type BTS Communication Type
BSC6900
BSC6900
BTSIPPARA
BTSIP
BTS IP
BSC6900
BTSIPPARA
BSCIP
BSC IP
BSC6900
BTSIPRT
IDTYPE
Index Type
BSC6900
BTSIPRT
BTSID
BTS Index
BSC6900
BTSIPRT
BTSNAME
BTS Name
BSC6900
BTSIPRT
RTIDX
Route Index
BSC6900
BTSIPRT
DSTIP
Destination IP Address
BSC6900
BTSIPRT
DSTMASK
Destination Address Mask BSC6900
BTSIPRT
PRI
Route Priority
BSC6900
BTSIPRT
RTTYPE
Route Type
BSC6900
BTSIPRT
CN
Port Cabinet No.
BSC6900
BTSIPRT
SRN
Port Subrack No.
BSC6900
BTSIPRT
SN
Port Slot No.
BSC6900
BTSIPRT
NEXTHOP
Forward Route Address
BSC6900
BTSIPRT
ITFType
Interface Type
BSC6900
BTSIPRT
IFNO
Outgoing Interface No.
BSC6900
BTSIPRT
CFGSW
Configuration Switch
BSC6900
BTSIPRTBIND
IDTYPE
Index Type
BSC6900
BTSIPRTBIND
BTSID
BTS Index
BSC6900
BTSIPRTBIND
BTSNAME
BTS Name
BSC6900
BTSIPRTBIND
DSTIP
Destination IP Address
BSC6900
BTSIPRTBIND
DSTMASK
Destination Address Mask BSC6900
BTSIPRTBIND
NEXTHOP
Forward Route Address
BSC6900
BTSIPRTBIND
CN
Cabinet No.
BSC6900
BTSIPRTBIND
SRN
Subrack No.
BSC6900
BTSIPRTBIND
SN
Slot No.
BSC6900
BTSIPRTBIND
BFDSN
BFD Session No.
BSC6900
BTSIPRTBIND
CN
Cabinet No.
BSC6900
BTSIPRTBIND
SRN
Subrack No.
BSC6900
BTSIPRTBIND
SN
Slot No.
BSC6900
BTSIPTOLGCPORT
IDTYPE
Index Type
BSC6900
BTSIPTOLGCPORT
BTSID
BTS Index
BSC6900
BTSIPTOLGCPORT
BTSNAME
BTS Name
BSC6900
BTSIPTOLGCPORT
CN
Port Cabinet No.
BSC6900
BTSIPTOLGCPORT
SRN
Port Subrack No.
BSC6900
BTSIPTOLGCPORT
SN
Port Slot No.
BSC6900
BTSIPTOLGCPORT
LPN
Logical Port No.
BSC6900
BTSIPTOLGCPORT
DSTIP
Destination IP Address
BSC6900
BTSIPTOLGCPORT
DSTMASK
Destination IP Address Mask
BSC6900
BTSJBF
IDTYPE
Index Type
BSC6900
BTSJBF
BTSID
BTS Index
BSC6900
BTSJBF
BTSNAME
BTS Name
BSC6900
BTSJBF
JBF
LAPD Jitter Buffer Algorithm
BSC6900
BTSLAPDWS
IDTYPE
Index Type
BSC6900
BTSLAPDWS
BTSID
BTS Index
BSC6900
BTSLAPDWS
BTSNAME
BSC6900
BTSLAPDWS
OMLWS
BTS Name OML/ESL/EML LAPD Downlink Window Size
BTSLAPDWS
RSLWS
BTSLAPDWS
UPOMLWS
RSL LAPD Window Size BSC6900 OML/ESL/EML LAPD Uplink Window Size BSC6900
BTSLOADCTRL
IDTYPE
Index Type
BSC6900
BTSLOADCTRL
BTSID
BTS Index
BSC6900
BTSLOADCTRL
BTSNAME
BTS Name
BSC6900
BTSLOADCTRL
CTRLFLAG
Control Flag
BSC6900
BTSLOADCTRL
EFTIMMFLAG
Effect Immediately Flag
BSC6900
BTSLOADCTRL
SELFVERSION
Self Version
BSC6900
BSC6900
BTSLOADCTRL
PEERVERSION
Peer Version
BSC6900
BTSLOCGRP
IDTYPE
Index Type
BSC6900
BTSLOCGRP
BTSID
BTS Index
BSC6900
BTSLOCGRP
BTSNAME
BTS Name
BSC6900
BTSLOCGRP
LOCGRPNO
Location Group No. BSC6900
BTSLOCGRP
ISMAINLOCGRP
Is Main Local Group BSC6900
BTSLOCGRP
RACJACCLEV
CS Min.Access Level
BSC6900
BTSLOCGRP
PSRACJACCLEV
PS Min.Access Level
BSC6900
BTSLOCGRP
OUTPUTPOWERUNIT
Output Power Unit
BSC6900
BTSLOCGRP
OUTPUTPOWER
Output Power
BSC6900
BTSLOCGRP
OUTPUTPOWER1
Output Power
BSC6900
BTSLOCKBCCH
IDTYPE
Index Type
BSC6900
BTSLOCKBCCH
BTSID
BTS Index
BSC6900
BTSLOCKBCCH
BTSNAME
BTS Name
BSC6900
BTSLOCKBCCH
BTSPOWEROFFLOCKBCCH
BTS Power-off Lock BCCH BSC6900
BTSLSW
IDTYPE
Index Type
BSC6900
BTSLSW
BTSID
BTS Index
BSC6900
BTSLSW
BTSNAME
BTS Name
BSC6900
BTSLSW
ISSUPPORTBTSLSWITCH
Support BTS Local Switch BSC6900
BTSLSW
REGION
Region Information BSC6900
BTSMONITORTS
IDTYPE
Index Type
BSC6900
BTSMONITORTS
BTSID
BTS Index
BSC6900
BTSMONITORTS
BTSNAME
BTS Name
BSC6900
BTSMONITORTS
TSIDX
Timeslot Index
BSC6900
BTSMONITORTS
TSRATE
Time Slot Rate
BSC6900
BTSMONITORTS
BSCSRN
In-BSC Subrack No.
BSC6900
BTSMONITORTS
BSCSN
In-BSC Slot No.
BSC6900
BTSMONITORTS
BSCPN
In-BSC Port No.
BSC6900
BTSMONITORTS
BSCTS
In-BSC Timeslot No.
BSC6900
BTSMONITORTS
BSCSUBTS
In-BSC Sub Timeslot No.
BSC6900
BTSMONITORTS
STPN
Out-BTS Port No.
BSC6900
BTSMONITORTS
STCN
Out Port Cabinet No.
BSC6900
BTSMONITORTS
STSRN
Out Port Subrack No.
BSC6900
BTSMONITORTS
STSN
Out Port Slot No.
BSC6900
BTSMONITORTS
STTS
Out-BTS Timeslot No.
BSC6900
BTSMONITORTS
STSUBTS
Out-BTS Sub Timeslot No.
BSC6900
BTSMPGRP
IDTYPE
Index Type
BSC6900
BTSMPGRP
BTSID
BTS Index
BSC6900
BTSMPGRP
BTSNAME
BTS Name
BSC6900
BTSMPGRP
MPGRPN
MLPPP Group No.
BSC6900
BTSMPGRP
CN
Port Cabinet No.
BSC6900
BTSMPGRP
SRN
Port Subrack No.
BSC6900
BTSMPGRP
SN
Port Slot No.
BSC6900
BTSMPGRP
LOCALIP
Local IP Address
BSC6900
BTSMPGRP
MASK
Subnet Mask
BSC6900
BTSMPGRP
PEERIP
Peer IP Address
BSC6900
BTSMPGRP
MPSWITCH
MCPPP Switch
BSC6900
BTSMPGRP
MHF
MP/MC List Head Option
BSC6900
BTSMPGRP
MCCLASS
MC PRI Number
BSC6900
BTSMPGRP
AUTHTYPE
Validate Protocol Type
BSC6900
BTSMPGRP
AUTHMODE
Validate Mode
BSC6900
BTSMPGRP
AUTHNAME
Validate User Name BSC6900
BTSMPGRP
AUTHPWD
Validate Password
BSC6900
BTSMPGRP
PFC
BTSMPGRP
ACFC
BTSMPGRP
MPGRPEAAT
Support Protocol Field Compress Support Address and Control Field Compress MP Group Frame Error Alarm Threshold
BTSMPGRP
MPGRPEADT
MP Group Frame Error Alarm Clearance Threshold
BTSMPGRP
IPEAAT
BTSMPGRP
IPEADT
IP Frame Error Alarm Threshold IP Frame Error Alarm Clearance Threshold
BTSMPGRP
CFGSW
Configuration Switch
BSC6900
BTSMPLNK
IDTYPE
Index Type
BSC6900
BTSMPLNK
BTSID
BTS Index
BSC6900
BTSMPLNK
BTSNAME
BTS Name
BSC6900
BTSMPLNK
MPGRPN
MLPPP Group No.
BSC6900
BSC6900
BSC6900
BSC6900
BSC6900
BSC6900
BSC6900
BTSMPLNK
PPPLNKN
PPP Link No.
BSC6900
BTSMPLNK
PN
Port No.
BSC6900
BTSMPLNK
CN
Port Cabinet No.
BSC6900
BTSMPLNK
SRN
Port Subrack No.
BSC6900
BTSMPLNK
SN
Port Slot No.
BSC6900
BTSMPLNK
TSBITMAP
Bearing Time Slot
BSC6900
BTSMPLNK
MRU
Max Receive Unit
BSC6900
BTSMPLNK
RSTIME
Restart Timer
BSC6900
BTSMPLNK
CFGSW
Configuration Switch
BSC6900
BTSNFCBBP
IDTYPE
Index Type
BSC6900
BTSNFCBBP
BTSID
BTS Index
BSC6900
BTSNFCBBP
BTSNAME
BTS Name
BSC6900
BTSNFCBBP
SRN
Subrack No.
BSC6900
BTSNFCBBP
SN
Slot No.
BSC6900
BTSNFCBBP
CFGFLAG
Board Parameter Configuration Enabled
BSC6900
BTSNFCBBP
STC
Smart Temperature Control BSC6900
BTSOBJALMSHLD
OBJTP
Object Type
BSC6900
BTSOBJALMSHLD
IDTYPE
Index Type
BSC6900
BTSOBJALMSHLD
BTSNAME
BTS Name
BSC6900
BTSOBJALMSHLD
BTSID
BTS Index
BSC6900
BTSOBJALMSHLD
CELLID
Cell Index
BSC6900
BTSOBJALMSHLD
LOCGRPNO
Location Group No. BSC6900
BTSOBJALMSHLD
CN
Cabinet No.
BSC6900
BTSOBJALMSHLD
SRN
Subrack No.
BSC6900
BTSOBJALMSHLD
SN
Slot No.
BSC6900
BTSOBJALMSHLD
PN
Port No.
BSC6900
BTSOBJALMSHLD
AIDST
Alarm Select Type
BSC6900
BTSOBJALMSHLD
AID
Alarm ID.
BSC6900
BTSOMLBACKUP
IDTYPE
Index Type
BSC6900
BTSOMLBACKUP
BTSID
BTS Index
BSC6900
BTSOMLBACKUP
BTSNAME
BTS Name
BSC6900
BTSOMLBACKUP
OMLBKUP
Configure Backup OML
BSC6900
BTSOMLBACKUP
WTBS
Wait Time before OML Switch
BSC6900
BTSOMLBACKUP
TBS
Try Switching Duration Time
BSC6900
BTSOMLDETECT
IDTYPE
Index Type
BSC6900
BTSOMLDETECT
BTSID
BTS Index
BSC6900
BTSOMLDETECT
BTSNAME
BTS Name
BSC6900
BTSOMLDETECT
OMLDETECTSWITCH
OML Detection Switch
BSC6900
BTSOMLDETECT
BTSBARCODE
BTS Bar Code
BSC6900
BTSOMLTS
IDTYPE
Index Type
BSC6900
BTSOMLTS
BTSID
BTS Index
BSC6900
BTSOMLTS
BTSNAME
BTS Name
BSC6900
BTSOMLTS
PN
Port No.
BSC6900
BTSOMLTS
CN
Port Cabinet No.
BSC6900
BTSOMLTS
SRN
Port Subrack No.
BSC6900
BTSOMLTS
SN
Port Slot No.
BSC6900
BTSOMLTS
TS
Time Slot NO.
BSC6900
BTSOMLTS
SUBTS
Sub Timeslot No.
BSC6900
BTSOP
BTSIDX
Site Index Collect
BSC6900
BTSOTHPARA
IDTYPE
Index Type
BSC6900
BTSOTHPARA
BTSID
BTS Index
BSC6900
BTSOTHPARA
BTSNAME
BTS Name
BSC6900
SYNCMETHOD
Site Synchronization Method
BSC6900
BTSOTHPARA
BTSOTHPARA
PSUTURNINGOFFENABLE
PSU Turning Off Enable
BSC6900
BTSOTHPARA
BTSDETECTSWITCH
BTS Detect Switch
BSC6900
BTSOTHPARA
PaAdjVol
PA Intelligent Adjust Voltage BSC6900
BTSOTHPARA
RESETTIME
BTS Reset Time
BTSOTHPARA
SENDSAMBE
BSC Auto Link Flag BSC6900
BTSOTHPARA
ISSUPERBTS
Is Super BTS
BSC6900
BSC6900
PS Jitter Buffer Delay
BTSOTHPARA
JITBUFDELAY
BTSOTHPARA
PROBESEQ
BTSOTHPARA
PRIVATEPROBENUM
BTS Port Detection Sequence BSC6900 Number of Customized Detection Types BSC6900
PRIVATEPROBEFST
Preferential Customized Detection Type
BSC6900
BTSOTHPARA
PRIVATEPROBESND
Subsidiary Customized Detection Type
BSC6900
BTSOTHPARA
PDCHGBR
PS Service Guaranteed Rate
BSC6900
BTSOTHPARA
BSC6900
BTSOTHPARA
MCPACUTPWRPRIPOLICY
MCPA Priority Policy on Power Decrease
BTSOTHPARA
MCPACUTPSCUTPWRRANGE
PS Power Decrease Range
BSC6900
BTSOTHPARA
SPRTLU
Local Call Support Flag
BSC6900
BSC6900
BTSOTHPARA
ABISIDLETSCFGSWITCH
BTSOTHPARA
ABISIDLETSALLOC
BTSOTHPARA
ENERGYMNG
Abis Idle TS Configure Switch
BSC6900
Abis Idle TS Allocate Strategy BSC6900 Weather Adaptive Power Management Enable BSC6900
BTSOTHPARA
OTHMODNUM
Number of OtherRAT Modules
BTSOUTPUT
IDTYPE
Index Type
BSC6900
BTSOUTPUT
BTSID
BTS Index
BSC6900
BTSOUTPUT
BTSNAME
BTS Name
BSC6900
BTSOUTPUT
COLDSET
Refrigeration Equipment
BSC6900
BTSOUTPUT
WARMSET
Heating Equipment BSC6900
BTSOUTPUT
DRYSET
Dehumidification Equipment
BSC6900
BTSOUTPUT
WETSET
Humidification Equipment
BSC6900
BTSOUTPUT
FIRESET
Fire-extinguishing Equipment
BSC6900
BSC6900
BTSOUTPUT
DESTEALSET
Anti-theft Equipment
BSC6900
BTSPATCH
POT
Patch Operation Type
BSC6900
BTSPATCH
BTSTYPE
BTS Type
BSC6900
BTSPATCH
IDTYPE
Index Type
BSC6900
BTSPATCH
BTSIDLST
BTS Index List
BSC6900
BTSPATCH
BTSNAMELST
BTS Name List
BSC6900
BTSPINGSW
IDTYPE
Index Type
BSC6900
BTSPINGSW
BTSID
BTS Index
BSC6900
BTSPINGSW
BTSNAME
BTS Name
BSC6900
BTSPINGSW
BTSPINGSWITCH
BTS Ping Switch
BSC6900
BTSPLRALM
IDTYPE
Index Type
BSC6900
BTSPLRALM
BTSID
BTS Index
BSC6900
BTSPLRALM
BTSNAME
BTS Name
BSC6900
CFGFLAG
Board Parameter Configuration Enabled
BSC6900
PAE
Power Lose Redundancy Alarm Enabled BSC6900
BTSPLRALM
BTSPLRALM
BTSPMUBP
IDTYPE
Index Type
BSC6900
BTSPMUBP
BTSID
BTS Index
BSC6900
BTSPMUBP
BTSNAME
BTS Name
BSC6900
BTSPMUBP
SRN
Subrack No.
BSC6900
BTSPMUBP
SN
Slot No.
BSC6900
BTSPMUBP
CFGFLAG
Board Parameter Configuration Enabled
BSC6900
BTSPMUBP
POWERTYPE
Power Type
BSC6900
BTSPMUBP
CELLEQUCHGVOL
Even Charging Voltage
BSC6900
BTSPMUBP
CELLFLOATCHGVOL
Float Charging Voltage
BSC6900
BTSPMUBP
NOMINALCAPACITY
Norminal Capacity{AH}
BSC6900
BTSPMUBP
MAXRECHARGECURRENT
Charge Coefficient
BSC6900
BTSPMUBP
LOADCURRENTDIV
Load Current Shunt Coefficient BSC6900
BTSPMUBP
POWERCURRENTDIV
Battery Shunt Coefficient
BSC6900
BTSPMUDEF
IDTYPE
Index Type
BSC6900
BTSPMUDEF
BTSID
BTS Index
BSC6900
BTSPMUDEF
BTSNAME
BTS Name
BSC6900
BTSPMUDEF
CN
Cabinet No.
BSC6900
BTSPMUDEF
SRN
Subrack No.
BSC6900
BTSPMUDEF
SN
Slot No.
BSC6900
BTSPOWERTYPE
IDTYPE
Index Type
BSC6900
BTSPOWERTYPE
BTSID
BTS Index
BSC6900
BTSPOWERTYPE
BTSNAME
BTS Name
BSC6900
BTSPOWERTYPE
CN
Cabinet No.
BSC6900
CFLAG
Board Parameter Configuration Enabled
BSC6900
BTSPOWERTYPE
BTSPOWERTYPE
POWERTYPE
Cabinet Power System Type
BTSPPPLNK
IDTYPE
Index Type
BSC6900
BTSPPPLNK
BTSID
BTS Index
BSC6900
BTSPPPLNK
BTSNAME
BTS Name
BSC6900
BTSPPPLNK
PPPLNKN
PPP Link No.
BSC6900
BTSPPPLNK
PN
Port No.
BSC6900
BTSPPPLNK
CN
Port Cabinet No.
BSC6900
BTSPPPLNK
SRN
Port Subrack No.
BSC6900
BSC6900
BTSPPPLNK
SN
Port Slot No.
BSC6900
BTSPPPLNK
TSBITMAP
Bearing Time Slot
BSC6900
BTSPPPLNK
LOCALIP
Local IP Address
BSC6900
BTSPPPLNK
MASK
Subnet Mask
BSC6900
BTSPPPLNK
PEERIP
Peer IP Address
BSC6900
BTSPPPLNK
PFC
BTSPPPLNK
ACFC
Support Protocol Field Compress Support Address and Control Field Compress
BTSPPPLNK
MRU
Max Receive Unit
BSC6900
BTSPPPLNK
AUTHTYPE
Validate Protocol Type
BSC6900
BTSPPPLNK
AUTHMODE
Validate Mode
BSC6900
BTSPPPLNK
AUTHNAME
Validate User Name BSC6900
BSC6900
BSC6900
BTSPPPLNK
AUTHPWD
Validate Password
BSC6900
BTSPPPLNK
RSTIME
Restart Timer
BSC6900
BTSPPPLNK
PPPEAAT
BTSPPPLNK
PPPEADT
BTSPPPLNK
IPEAAT
BTSPPPLNK
IPEADT
IP Frame Error Alarm Threshold IP Frame Error Alarm Clearance Threshold
BTSPPPLNK
CFGSW
Configuration Switch
BSC6900
BTSPSUFP
IDTYPE
Index Type
BSC6900
BTSPSUFP
BTSID
BTS Index
BSC6900
BTSPSUFP
BTSNAME
BTS Name
BSC6900
PPP Frame Error Alarm Threshold PPP Frame Error Alarm Clearance Threshold
BSC6900
BSC6900
BSC6900
BSC6900
BTSPSUFP
CFGFLAG
Board Parameter Configuration Enabled
BTSPSUFP
ISTRANCABCON
Tran. Cabinet Configured
BSC6900
BTSPSUFP
SRVPRIPOLICY
Service Priority Policy
BSC6900
BTSPSUFP
MCSTANDARD
GSM Multi Carrier BTS Standard
BSC6900
BTSPTUSHKTM
IDTYPE
Index Type
BSC6900
BTSPTUSHKTM
BTSID
BTS Index
BSC6900
BTSPTUSHKTM
BTSNAME
BTS Name
BSC6900
BTSPTUSHKTM
CN
Cabinet No.
BSC6900
BTSPTUSHKTM
SRN
Subrack No.
BSC6900
BTSPTUSHKTM
SN
Slot No.
BSC6900
BSC6900
BTSPTUSHKTM
T1
Time1
BSC6900
BTSPTUSHKTM
T2
Time2
BSC6900
BTSPTUSHKTM
T3
Time3
BSC6900
BTSRACKBC
IDTYPE
Index Type
BSC6900
BTSRACKBC
BTSID
BTS Index
BSC6900
BTSRACKBC
BTSNAME
BTS Name
BSC6900
BTSRACKBC
CABLST
Cabinet List
BSC6900
BTSRACKBC
BARCODLST
Cabinet Bar Code List
BSC6900
BTSRET
IDTYPE
Index Type
BSC6900
BTSRET
BTSID
BTS Index
BSC6900
BTSRET
BTSNAME
BTS Name
BSC6900
BTSRET
DEVICENO
Device No.
BSC6900
BTSRET
DEVICENAME
Device Name
BSC6900
BTSRET
CTRLPORTCN
Control Port Cabinet No.
BSC6900
BTSRET
CTRLPORTSRN
Control Port Subrack No.
BSC6900
BTSRET
CTRLPORTSN
Control Port Slot No.
BSC6900
BTSRET
CTRLPORTNO
Control Port No.
BSC6900
BTSRET
RETTYPE
Ret Type
BSC6900
BTSRET
SUBUNITNUM
RET SubUnit Number
BSC6900
BTSRET
POLARTYPE
Polar Type
BSC6900
BTSRET
SCENARIO
Antenna Scenario
BSC6900
BTSRET
VENDORCODE
Vendor Code
BSC6900
BTSRET
SERIALNO
Serial No.
BSC6900
BTSRET
SUBUNITNO
SubUnit No.
BSC6900
BTSRETANTENB
IDTYPE
Index Type
BSC6900
BTSRETANTENB
BTSID
BTS Index
BSC6900
BTSRETANTENB
BTSNAME
BTS Name
BSC6900
BTSRETANTENB
DEVICENO
Device No.
BSC6900
BTSRETANTTILT
OPMODE
Operation Mode
BSC6900
BTSRETANTTILT
BTSIDTYPE
BTS Index Type
BSC6900
BTSRETANTTILT
BTSNAME
BTS Name
BSC6900
BTSRETANTTILT
BTSID
BTS Index
BSC6900
BTSRETANTTILT
CELLIDTYPE
Cell Index Type
BSC6900
BTSRETANTTILT
CELLNAME
Cell Name
BSC6900
BTSRETANTTILT
CELLID
Cell Index
BSC6900
BTSRETANTTILT
DEVICENO
Device No.
BSC6900
BTSRETANTTILT
TILT
Tilt(0.1degree)
BSC6900
BTSRETDEVICEDATA
IDTYPE
Index Type
BSC6900
BTSRETDEVICEDATA
BTSID
BTS Index
BSC6900
BTSRETDEVICEDATA
BTSNAME
BTS Name
BSC6900
BTSRETDEVICEDATA
DEVICENO
Device No.
BSC6900
BTSRETDEVICEDATA
SUBUNITNO
SubUnit No.
BSC6900
BTSRETDEVICEDATA
BEARING
Antenna Bearing(0.1degree) BSC6900
BTSRETDEVICEDATA
MODELNO
Antenna Model Number
BSC6900
BTSRETDEVICEDATA
BSID
Base Station ID
BSC6900
BTSRETDEVICEDATA
BAND1
Band1
BSC6900
BTSRETDEVICEDATA
BEAMWIDTH1
BeamWidth1(degre e) BSC6900
BTSRETDEVICEDATA
GAIN1
Gain1(0.1dBi)
BSC6900
BTSRETDEVICEDATA
BAND2
Band2
BSC6900
BTSRETDEVICEDATA
BEAMWIDTH2
BeamWidth2(degre e) BSC6900
BTSRETDEVICEDATA
GAIN2
Gain2(0.1dBi)
BSC6900
BTSRETDEVICEDATA
BAND3
Band3
BSC6900
BTSRETDEVICEDATA
BEAMWIDTH3
BeamWidth3(degre e) BSC6900
BTSRETDEVICEDATA
GAIN3
Gain3(0.1dBi)
BSC6900
BTSRETDEVICEDATA
BAND4
Band4
BSC6900
BTSRETDEVICEDATA
BEAMWIDTH4
BeamWidth4(degre e) BSC6900
BTSRETDEVICEDATA
GAIN4
Gain4(0.1dBi)
BSC6900
BTSRETDEVICEDATA
DATE
BSC6900
BTSRETDEVICEDATA
TILT
Installed Date Installed Mechanical Tilt(0.1degree)
BTSRETDEVICEDATA
INSTALLERID
Installer ID
BSC6900
BTSRETDEVICEDATA
SECTORID
Sector ID
BSC6900
BTSRETDEVICEDATA
SERIALNO
Serial No.
BSC6900
BTSRETSUBUNIT
IDTYPE
Index Type
BSC6900
BTSRETSUBUNIT
BTSID
BTS Index
BSC6900
BTSRETSUBUNIT
BTSNAME
BTS Name
BSC6900
BSC6900
BTSRETSUBUNIT
DEVICENO
Device No.
BSC6900
BTSRETSUBUNIT
SUBUNITNO
SubUnit No.
BSC6900
BTSRETSUBUNIT
CONNCN1
Connect Port 1 Cabinet No.
BSC6900
BTSRETSUBUNIT
CONNSRN1
Connect Port 1 Subrack No.
BSC6900
BTSRETSUBUNIT
CONNSN1
Connect Port 1 Slot No. BSC6900
BTSRETSUBUNIT
CONNPN1
Connect Port 1 Port No. BSC6900
BTSRETSUBUNIT
CONNCN2
Connect Port 2 Cabinet No.
BSC6900
BTSRETSUBUNIT
CONNSRN2
Connect Port 2 Subrack No.
BSC6900
BTSRETSUBUNIT
CONNSN2
Connect Port 2 Slot No. BSC6900
BTSRETSUBUNIT
CONNPN2
Connect Port 2 Port No. BSC6900
BTSRETSUBUNIT
TILT
Tilt(0.1degree)
BSC6900
BTSRETSUBUNIT
AER
Tilt Alarm Error Range(0.1degree)
BSC6900
BTSRETSUBUNIT
CELLIDTYPE
Cell Index Type
BSC6900
BTSRETSUBUNIT
CELLID
Cell Index
BSC6900
BTSRETSUBUNIT
CELLNAME
Cell Name
BSC6900
BTSRETTILT
IDTYPE
Index Type
BSC6900
BTSRETTILT
BTSID
BTS Index
BSC6900
BTSRETTILT
BTSNAME
BTS Name
BSC6900
BTSRETTILT
OPMODE
Operation Mode
BSC6900
BTSRETTILT
DEVICENO
Device No.
BSC6900
BTSRETTILT
CELLIDTYPE
Cell Index Type
BSC6900
BTSRETTILT
CELLID
Cell Index
BSC6900
BTSRETTILT
CELLNAME
Cell Name
BSC6900
BTSRETTILT
TILT
Tilt(0.1degree)
BSC6900
BTSRINGATTR
IDTYPE
Index Type
BSC6900
BTSRINGATTR
BTSID
BTS Index
BSC6900
BTSRINGATTR
BTSNAME
BTS Name
BSC6900
BTSRINGATTR
FASTCNETFLAG
Configure Ring II
BSC6900
BTSRINGATTR
WTBS
Ring I Wait Time Before Switch
BSC6900
BTSRINGATTR
TBS
Ring I Try Rotating Duration Time
BSC6900
BTSRINGATTR
BREAKTIME
Ring II Wait Time Before Switch
BSC6900
BTSRINGATTR
BUILDTIME
Ring II Try Rotating Duration Time BSC6900
BTSRINGATTR
ESTTIME
Ring II Rotating Penalty Time
BSC6900
BTSRINGATTR
T200
T200
BSC6900
BTSRINGATTR
T203
T203
BSC6900
BTSRINGATTR
N200
N200
BSC6900
BTSRXU2LOCGRP
IDTYPE
Index Type
BSC6900
BTSRXU2LOCGRP
BTSID
BTS Index
BSC6900
BTSRXU2LOCGRP
BTSNAME
BTS Name
BSC6900
BTSRXU2LOCGRP
LOCGRPNO
Location Group No. BSC6900
BTSRXU2LOCGRP
CN
Cabinet No.
BSC6900
BTSRXU2LOCGRP
SRN
Subrack No.
BSC6900
BTSRXU2LOCGRP
SN
Slot No.
BSC6900
BTSRXUBP
IDTYPE
Index Type
BSC6900
BTSRXUBP
BTSID
BTS Index
BSC6900
BTSRXUBP
BTSNAME
BTS Name
BSC6900
BTSRXUBP
RXUIDTYPE
RXU Index Type
BSC6900
BTSRXUBP
RXUCHAINNO
RXU Chain No.
BSC6900
BTSRXUBP
RXUPOS
RXU Chain Position BSC6900
BTSRXUBP
RXUNAME
RXU Name
BSC6900
BTSRXUBP
CN
Cabinet No.
BSC6900
BTSRXUBP
SRN
Subrack No.
BSC6900
BTSRXUBP
SN
Slot No.
BSC6900
BTSRXUBP
RXUTYPE
RXU Board Type
BSC6900
BTSRXUBP
SndRcvMode
DRRU Sending Receiving Mode
BSC6900
BTSRXUBP
SndRcvMode1
DRFU Sending Receiving Mode
BSC6900
SndRcvMode2
MRRU/GRRU Sending Receiving Mode
BSC6900
BTSRXUBP
SndRcvMode3
MRFU/GRFU Sending Receiving Mode
BSC6900
BTSRXUBP
SndRcvMode4
BTS3900E Sending Receiving Mode BSC6900
BTSRXUBP
DivSwitch
Radio Transceiver Inter-board Switch
BTSRXUBP
BSC6900
BTSRXUBP
ASSORXUCN
Associated RXU Board CN
BTSRXUBP
ASSORXUSRN
Associated RXU Board SRN
BSC6900
BTSRXUBP
ASSORXUSN
Associated RXU Board SN
BSC6900
BTSRXUBP
Lvl1Vswr
Lvl1 Vswr
BSC6900
BTSRXUBP
Lvl2Vswr
Lvl2 Vswr
BSC6900
BTSRXUBP
LNA1
LNA Threshold1
BSC6900
BTSRXUBP
LNA2
LNA Threshold2
BSC6900
BTSRXUBP
HAVETT1
Antenna Tributary 1 Flag BSC6900
BTSRXUBP
ATTENFACTOR1
Antenna Tributary 1 Factor BSC6900
BSC6900
MRRUATTENFACTOR1
Antenna Tributary 1 Factor BSC6900
BTSRXUBP
HAVETT2
Antenna Tributary 2 Flag BSC6900
BTSRXUBP
ATTENFACTOR2
Antenna Tributary 2 Factor BSC6900
BTSRXUBP
MRRUATTENFACTOR2
Antenna Tributary 2 Factor BSC6900
BTSRXUBP
IFOFFSET
IF Offset
BSC6900
BTSRXUBP
WORKINGSTANDARD
Working Standard
BSC6900
BTSRXUBP
SPTSHARING
RanSharing Support
BSC6900
BTSRXUBP
BTSRXUBP
BTSRXUBP
PwrSwitchA
ANT_A ALD Power Switch BSC6900
ChkModA
ANT_A ALD Current Alarm Threshold Type
BSC6900
BTSRXUBP
BTSRXUBP
BTSRXUBP
BTSRXUBP
BTSRXUBP
BTSRXUBP
BTSRXUBP
OverCurAlmThdA
ANT_A ALD Over Current Occur Threshold(mA)
BSC6900
OverCurClrThdA
ANT_A ALD Over Current Clear Threshold(mA)
BSC6900
UnderCurAlmThdA
ANT_A ALD Under Current Occur Threshold(mA) BSC6900
UnderCurClrThdA
ANT_A ALD Under Current Clear Threshold(mA) BSC6900
MinorAlmThdA
ANT_A ALD Current Minor Alarm Occur Threshold(mA)
BSC6900
MinorClrThdA
ANT_A ALD Current Minor Alarm Clear Threshold(mA)
BSC6900
OverCurDurA
A ALD Cur-Minor Alarm Over-Cur Duration(ms)
BSC6900
BTSRXUBP
NormalCurDurA
A ALD Cur-Minor Alarm N-Cur Duration(ms)
BTSRXUBP
PwrSwitchB
ANT_B ALD Power Switch BSC6900
BSC6900
BTSRXUBP
BTSRXUBP
BTSRXUBP
BTSRXUBP
BTSRXUBP
ChkModB
ANT_B ALD Current Alarm Threshold Type
BSC6900
OverCurAlmThdB
ANT_B ALD Over Current Occur Threshold(mA)
BSC6900
OverCurClrThdB
ANT_B ALD Over Current Clear Threshold(mA)
BSC6900
UnderCurAlmThdB
ANT_B ALD Under Current Occur Threshold(mA) BSC6900
UnderCurClrThdB
ANT_B ALD Under Current Clear Threshold(mA) BSC6900
MinorAlmThdB
ANT_B ALD Current Minor Alarm Occur Threshold(mA)
BSC6900
MinorClrThdB
ANT_B ALD Current Minor Alarm Clear Threshold(mA)
BSC6900
OverCurDurB
B ALD Cur-Minor Alarm Over-Cur Duration(ms)
BSC6900
BTSRXUBP
NormalCurDurB
B ALD Cur-Minor Alarm N-Cur Duration(ms)
BSC6900
BTSRXUBP
RELATEDMODFUNC
Associated Board Function
BSC6900
BTSRXUBP
RELATEDCN
Associated Board CN
BSC6900
BTSRXUBP
RELATEDSRN
Associated Board SRN
BSC6900
RELATEDSN
Associated Board SN
BSC6900
BTSRXUBP
BTSRXUBP
BTSRXUBP
BTSRXUBP
PwrSwitchRET
RET ALD Power Switch
BSC6900
THRESHOLDTYPERET
RET ALD Current Alarm Threshold Type
BSC6900
OverCurAlmThdRET
RET ALD Over Current Occur Threshold(mA)
BSC6900
OverCurClrThdRET
RET ALD Over Current Clear Threshold(mA)
BSC6900
UnderCurAlmThdRET
RET ALD Under Current Occur Threshold(mA)
BSC6900
BTSRXUBP
UnderCurClrThdRET
RET ALD Under Current Clear Threshold(mA)
BSC6900
BTSRXUBP
TXAOPER1
Assigned Power of Pass A Operators 1 BSC6900
BTSRXUBP
TXAOPER2
Assigned Power of Pass A Operators 2 BSC6900
BTSRXUBP
TXAOPER3
Assigned Power of Pass A Operators 3 BSC6900
BTSRXUBP
TXAOPER4
Assigned Power of Pass A Operators 4 BSC6900
BTSRXUBP
TXBOPER1
Assigned Power of Pass B Operators 1 BSC6900
BTSRXUBP
BTSRXUBP
BTSRXUBP
BTSRXUBP
BTSRXUBP
BTSRXUBP
TXBOPER2
Assigned Power of Pass B Operators 2 BSC6900
BTSRXUBP
TXBOPER3
Assigned Power of Pass B Operators 3 BSC6900
BTSRXUBP
TXBOPER4
Assigned Power of Pass B Operators 4 BSC6900
BTSRXUBP
GUPWRSHARESWITCH
GU Dynamic Power Sharing Switch BSC6900
GUPWRSHARETRXNUM
Minimum Number of Non-BCCH TRXs in GSM for GU Power Sharing BSC6900
GUPWRSHAREPWRLOAD
GSM Power Load Threshold for GU Power Sharing
GUPWRSHAREN
Number of Checked Timeslots for Retrieving Shared Power BSC6900
GUPWRSHAREP
Num of Timeslots Meet Requirements for Retrieving Shared Pwr BSC6900
GUPWRSHARERSVFACTOR
GSM Power Reserve Coefficient for Retrieving Shared Power BSC6900
BTSRXUBP
BTSRXUBP
BTSRXUBP
BTSRXUBP
BTSRXUBP
BSC6900
GUPWRSHAREGSMIDLETH
GSM Idle Channel Threshold for GU Power Sharing
BSC6900
BTSRXUBP
GUPWRSHAREGSMIDLEHS
GSM Idle Channel Hysteresis for GU Power Sharing
BSC6900
BTSRXUBP
GSM Power Reserve in Low GUPWRSHAREGSMIDLERSVP Load for GU Power WR Sharing BSC6900
BTSRXUBP
GUPWRSHAREGSMBUSYRSV PWR
GSM Power Reserve in High Load for GU Power Sharing BSC6900
GUPWRSHAREURCVPWR
Maximum Accumulated Shared Power That UMTS Can Accept BSC6900
BTSRXUBP
BTSRXUBP
GUPWRSHAREURCVPWRPD
Maximum Shared Power That UMTS Can Accept In Each Period BSC6900
BTSRXUBP
ADEF
External Alarm Customer Definition Switch BSC6900
BTSRXUBP
PASHRMODE
Inter-PA Sharing Mode
BSC6900
BTSRXUBRD
IDTYPE
Index Type
BSC6900
BTSRXUBRD
BTSID
BTS Index
BSC6900
BTSRXUBRD
BTSNAME
BTS Name
BSC6900
BTSRXUBP
BTSRXUBRD
BT
Board Type
BSC6900
BTSRXUBRD
RXUSPEC
RXU Specification
BSC6900
BTSRXUBRD
CN
Cabinet No.
BSC6900
BTSRXUBRD
SRN
Subrack No.
BSC6900
BTSRXUBRD
SN
Slot No.
BSC6900
BTSRXUBRD
RXUNAME
RXU Name
BSC6900
BTSRXUBRD
RXUCHAINNO
RXU Chain No.
BSC6900
BTSRXUBRD
RXUPOS
RXU Board Position BSC6900
BTSRXUBRD
ISCONFIGTHD
Configure Check Threshold or Not
BTSRXUBRD
BRDTXBW
Forward Bandwidth BSC6900
BSC6900
BTSRXUBRD
BRDRXBW
Receive Bandwidth BSC6900
BTSRXUBRD
PWRMODE
Power Class
BSC6900
BTSRXUBRD
TrxNum
TRX Number
BSC6900
BTSRXUBRD
RXUIDTYPE
RXU Index Type
BSC6900
BTSRXUBRD
NewRXUName
New RXU Name
BSC6900
BTSRXUBRDPOS
IDTYPE
Index Type
BSC6900
BTSRXUBRDPOS
BTSID
BTS Index
BSC6900
BTSRXUBRDPOS
BTSNAME
BTS Name
BSC6900
BTSRXUBRDPOS
RXUIDTYPE
RXU Index Type
BSC6900
BTSRXUBRDPOS
OLDRXUCHAINNO
Old RXU Chain No. BSC6900
BTSRXUBRDPOS
OLDRXUPOS
Old RXU Board Position
BTSRXUBRDPOS
RXUNAME
RXU Name
BSC6900
BTSRXUBRDPOS
CN
Cabinet No.
BSC6900
BTSRXUBRDPOS
SRN
Subrack No.
BSC6900
BTSRXUBRDPOS
SN
Slot No.
BSC6900
BTSRXUBRDPOS
RXUCHAINNO
RXU Chain No.
BSC6900
BTSRXUBRDPOS
RXUPOS
RXU Board Position BSC6900
BTSRXUCHAIN
IDTYPE
Index Type
BSC6900
BTSRXUCHAIN
BTSID
BTS Index
BSC6900
BSC6900
BTSRXUCHAIN
BTSNAME
BTS Name
BSC6900
BTSRXUCHAIN
RCN
Chain No.
BSC6900
BTSRXUCHAIN
TT
Topo Type
BSC6900
BTSRXUCHAIN
HCN
Head Cabinet No.
BSC6900
BTSRXUCHAIN
HSRN
Head Subrack No.
BSC6900
BTSRXUCHAIN
HSN
Head Slot No.
BSC6900
BTSRXUCHAIN
HPN
Head Port No.
BSC6900
BTSRXUCHAIN
TCN
Tail Cabinet No.
BSC6900
BTSRXUCHAIN
TSRN
Tail Subrack No.
BSC6900
BTSRXUCHAIN
TSN
Tail Slot No.
BSC6900
BTSRXUCHAIN
TPN
Tail Port No.
BSC6900
BTSRXUCHAIN
CHAINTORING
Combine Type
BSC6900
BTSRXUCHAIN
RCN1
First RXU Chain No.
BSC6900
BTSRXUCHAIN
RCN2
Second RXU Chain No. BSC6900
BTSRXUCHAIN
SEPARATEPOS
Separate Position
BSC6900
BTSSFPMODE
IDTYPE
Index Type
BSC6900
BTSSFPMODE
BTSID
BTS Index
BSC6900
BTSSFPMODE
BTSNAME
BTS Name
BSC6900
BTSSFPMODE
CN
Port Cabinet No.
BSC6900
BTSSFPMODE
SRN
Port Subrack No.
BSC6900
BTSSFPMODE
SN
Port Slot No.
BSC6900
BTSSFPMODE
SFPPORTNO
SFP Port No
BSC6900
BTSSFPMODE
SWITCHPORTNO
Switch Port
BSC6900
BTSSHARING
IDTYPE
Index Type
BSC6900
BTSSHARING
BTSID
BTS Index
BSC6900
BTSSHARING
BTSNAME
BTS Name
BSC6900
BTSSHARING
SHARINGALLOW
Sharing Allow
BSC6900
BTSSPTMODE
IDTYPE
Index Type
BSC6900
BTSSPTMODE
BTSID
BTS Index
BSC6900
BTSSPTMODE
BTSNAME
BTS Name
BSC6900
BTSSW
VER
Version No.
BSC6900
BTSSW
IDTYPE
Index Type
BSC6900
BTSSW
BTSIDLST
BTS Index List
BSC6900
BTSSW
BTSNAMELST
BTS Name List
BSC6900
BTSSW
BTSSWVER
Rollback Software Version
BSC6900
BTSSW
PV
Rollback Patch Version
BSC6900
BTSTHEFTALM
IDTYPE
Index Type
BSC6900
BTSTHEFTALM
BTSID
BTS Index
BSC6900
BTSTHEFTALM
BTSNAME
BTS Name
BSC6900
BTSTHEFTALM
AntiTheftAllow
Burglar Alarm Auto Clear Permit BSC6900
BTSTHEFTALM
ClrDelay
Clear Command Delay Time
BSC6900
BTSTHEFTALM
ClrInterval
Clear Command Time Interval
BSC6900
BTSTMA
IDTYPE
Index Type
BSC6900
BTSTMA
BTSID
BTS Index
BSC6900
BTSTMA
BTSNAME
BTS Name
BSC6900
BTSTMA
DEVICENO
Device No.
BSC6900
BTSTMA
DEVICENAME
Device Name
BSC6900
BTSTMA
PWRSUPPLYTYPE
TMA Power Supply Type BSC6900
BTSTMA
CTRLPORTCN
Control Port Cabinet No.
BSC6900
BTSTMA
CTRLPORTSRN
Control Port Subrack No.
BSC6900
BTSTMA
CTRLPORTSN
Control Port Slot No.
BSC6900
BTSTMA
SUBUNITNUM
TMA SubUnit Number
BSC6900
BTSTMADEVICEDATA
IDTYPE
Index Type
BSC6900
BTSTMADEVICEDATA
BTSID
BTS Index
BSC6900
BTSTMADEVICEDATA
BTSNAME
BTS Name
BSC6900
BTSTMADEVICEDATA
DEVICENO
Device No.
BSC6900
BTSTMADEVICEDATA
SUBUNITNO
SubUnit No.
BSC6900
BTSTMADEVICEDATA
BEARING
Antenna Bearing(0.1degree) BSC6900
BTSTMADEVICEDATA
BSID
Base Station ID
BSC6900
BTSTMADEVICEDATA
BAND1
Band1
BSC6900
BTSTMADEVICEDATA
BEAMWIDTH1
BeamWidth1(degre e) BSC6900
BTSTMADEVICEDATA
GAIN1
Gain1(0.1dBi)
BSC6900
BTSTMADEVICEDATA
BAND2
Band2
BSC6900
BTSTMADEVICEDATA
BEAMWIDTH2
BeamWidth2(degre e) BSC6900
BTSTMADEVICEDATA
GAIN2
Gain2(0.1dBi)
BSC6900
BTSTMADEVICEDATA
BAND3
Band3
BSC6900
BTSTMADEVICEDATA
BEAMWIDTH3
BeamWidth3(degre e) BSC6900
BTSTMADEVICEDATA
GAIN3
Gain3(0.1dBi)
BSC6900
BTSTMADEVICEDATA
BAND4
Band4
BSC6900
BTSTMADEVICEDATA
BEAMWIDTH4
BeamWidth4(degre e) BSC6900
BTSTMADEVICEDATA
GAIN4
Gain4(0.1dBi)
BSC6900
BTSTMADEVICEDATA
DATE
BSC6900
BTSTMADEVICEDATA
TILT
Installed Date Installed Mechanical Tilt(0.1degree)
BTSTMADEVICEDATA
INSTALLERID
Installer ID
BSC6900
BTSTMADEVICEDATA
SECTORID
Sector ID
BSC6900
BTSTMADEVICEDATA
SERIALNO
Serial No.
BSC6900
BTSTMADEVICEDATA
MODELNO
Antenna Model Number
BSC6900
BTSTMADEVICEDATA
GAINRESOLUTION
Gain Resolution(0.25db) BSC6900
BTSTMADEVICEDATA
SUBUNITTYPE
Subunit Type
BTSTMADEVICEDATA
RXMAXFQ
Received Max Frequency(100kHz) BSC6900
BSC6900
BSC6900
BTSTMADEVICEDATA
RXMINFQ
Received Min Frequency(100kHz) BSC6900
BTSTMADEVICEDATA
TXMAXFQ
Transmit Max Frequency(100kHz) BSC6900
BTSTMADEVICEDATA
TXMINFQ
Transmit Min Frequency(100kHz) BSC6900
BTSTMAPWR
IDTYPE
Index Type
BSC6900
BTSTMAPWR
BTSID
BTS Index
BSC6900
BTSTMAPWR
BTSNAME
BTS Name
BSC6900
BTSTMAPWR
CN
Cabinet No.
BSC6900
BTSTMAPWR
SRN
Subrack No.
BSC6900
BTSTMAPWR
SN
Slot No.
BSC6900
BTSTMAPWR
SRNO
Tributary No.
BSC6900
BTSTMAPWR
ENABLED
TMA Power Supply Enabled BSC6900
BTSTMASUBUNIT
IDTYPE
Index Type
BSC6900
BTSTMASUBUNIT
BTSID
BTS Index
BSC6900
BTSTMASUBUNIT
BTSNAME
BTS Name
BSC6900
BTSTMASUBUNIT
DEVICENO
Device No.
BSC6900
BTSTMASUBUNIT
SUBUNITNO
SubUnit No.
BSC6900
BTSTMASUBUNIT
CONNCN
Connect Port Cabinet No.
BSC6900
BTSTMASUBUNIT
CONNSRN
Connect Port Subrack No.
BSC6900
BTSTMASUBUNIT
CONNSN
Connect Port Slot No.
BSC6900
BTSTMASUBUNIT
CONNPN
Connect Port Port No.
BSC6900
BTSTMASUBUNIT
MODE
Mode
BSC6900
BTSTMASUBUNIT
GAIN
Gain(0.25db)
BSC6900
BTSTOPCONFIG
IDTYPE
Index Type
BSC6900
BTSTOPCONFIG
BTSID
BTS Index
BSC6900
BTSTOPCONFIG
BTSNAME
BTS Name
BSC6900
BTSTOPCONFIG
CN
Port Cabinet No.
BSC6900
BTSTOPCONFIG
SRN
Port Subrack No.
BSC6900
BTSTOPCONFIG
SN
Port Slot No.
BSC6900
BTSTOPCONFIG
E1T1PORTNO
Backboard E1/T1 Port No.
BSC6900
BTSTOPCONFIG
TOPBOARDCN
TOP Board Cabinet No. BSC6900
BTSTOPCONFIG
TOPBOARDSRN
TOP Board Subrack No. BSC6900
BTSTOPCONFIG
TOPBOARDSLOTNO
TOP Board Slot No. BSC6900
BTSTOPCONFIG
PORTTYPE
Port Type
BSC6900
BTSTOPCONFIG
ORIPORT
Originally E1/T1 Port No.
BSC6900
BTSTOPCONFIG
TSMASK
TS Mask
BSC6900
BTSTRANS
IDTYPE
Index Type
BSC6900
BTSTRANS
BTSID
BTS Index
BSC6900
BTSTRANS
BTSNAME
BTS Name
BSC6900
BTSTRANS
TransMode
Transmission Mode BSC6900
BTSTRANSTS
IDTYPE
Index Type
BSC6900
BTSTRANSTS
BTSID
BTS Index
BSC6900
BTSTRANSTS
BTSNAME
BTS Name
BSC6900
BTSTRANSTS
TSIDX
Timeslot Index
BSC6900
BTSTRANSTS
INPN
BTS In Port No.
BSC6900
BTSTRANSTS
INCN
In Port Cabinet No. BSC6900
BTSTRANSTS
INSRN
In Port Subrack No. BSC6900
BTSTRANSTS
INSN
In Port Slot No.
BTSTRANSTS
INTSBITMAP
Timeslot Carried by an Input Port BSC6900
BTSTRANSTS
OUTPN
BTS Out Port No.
BSC6900
OUTCN
Out Port Cabinet No.
BSC6900
BTSTRANSTS
BSC6900
BTSTRANSTS
OUTSRN
Out Port Subrack No.
BTSTRANSTS
OUTSN
Out Port Slot No.
BTSTRANSTS
OUTTSBITMAP
Timeslot Carried by an Output Port BSC6900
BTSTRCMPR
IDTYPE
Index Type
BSC6900
BTSTRCMPR
BTSID
BTS Index
BSC6900
BSC6900
BSC6900
BTSTRCMPR
BTSNAME
BTS Name
BSC6900
BTSTRCMPR
BTSTRCMPRATE
Transmission Compression Ratio BSC6900
BTSTRXBRD
IDTYPE
Index Type
BSC6900
BTSTRXBRD
BTSID
BTS Index
BSC6900
BTSTRXBRD
BTSNAME
BTS Name
BSC6900
BTSTRXBRD
BT
Board Type
BSC6900
BTSTRXBRD
SRN
Subrack No.
BSC6900
BTSTRXBRD
SN
Slot No.
BSC6900
BTSTRXBRD
BT
Board Type
BSC6900
BTSUSCUBP
IDTYPE
Index Type
BSC6900
BTSUSCUBP
BTSID
BTS Index
BSC6900
BTSUSCUBP
BTSNAME
BTS Name
BSC6900
BTSUSCUBP
CN
Cabinet No.
BSC6900
BTSUSCUBP
SRN
Subrack No.
BSC6900
BTSUSCUBP
SN
Slot No.
BSC6900
BTSUSCUBP
CFGFLAG
Board Parameter Configuration Enabled
BSC6900
BTSUSCUBP
GPSORGLONASS
GPS or Glonass
BSC6900
BTSUSCUBP
ANTENNALONG
GPS Antenna Delay BSC6900
BTSUSCUBP
ANTENNAPOWERSWITCH
Antenna Power Supply Switch
BSC6900
BTSVLAN
IDTYPE
Index Type
BSC6900
BTSVLAN
BTSID
BTS Index
BSC6900
BTSVLAN
BTSNAME
BTS Name
BSC6900
BTSVLAN
SERVICETYPE
Service Type
BSC6900
BTSVLAN
DSCP
DSCP
BSC6900
BTSVLAN
VLANSWITCH
VLAN Switch
BSC6900
BTSVLAN
VLANID
VLAN ID
BSC6900
BTSVLAN
VLANPRI
VLAN Priority
BSC6900
BTSVLAN
CFGSW
Configuration Switch
BSC6900
BTSVLAN
DSCP
DSCP
BSC6900
BTSVLAN
VLANID
VLAN ID
BSC6900
BTSVLANCLASS
IDTYPE
Index Type
BSC6900
BTSVLANCLASS
BTSID
BTS Index
BSC6900
BTSVLANCLASS
BTSNAME
BTS Name
BSC6900
BTSVLANCLASS
VLANGROUPNO
VLAN Group No.
BSC6900
BTSVLANCLASS
TRAFFICTYPE
Traffic Type
BSC6900
BTSVLANCLASS
DSCP
DSCP
BSC6900
BTSVLANCLASS
VLANID
VLAN ID
BSC6900
BTSVLANCLASS
VLANPRI
VLAN Priority
BSC6900
BTSVLANCLASS
CFGSW
Configuration Switch
BSC6900
BTSVLANMAP
IDTYPE
Index Type
BSC6900
BTSVLANMAP
BTSID
BTS Index
BSC6900
BTSVLANMAP
BTSNAME
BTS Name
BSC6900
BTSVLANMAP
NEXTHOPIP
Next Hop IP
BSC6900
BTSVLANMAP
MODE
VLAN MODE
BSC6900
BTSVLANMAP
VLANID
VLAN ID
BSC6900
BTSVLANMAP
VLANPRI
VLAN Priority
BSC6900
BTSVLANMAP
VLANGROUPNO
VLAN Group No.
BSC6900
BTSVLANMAP
CFGSW
Configuration Switch
BSC6900
BTSXMUFP
IDTYPE
Index Type
BSC6900
BTSXMUFP
BTSID
BTS Index
BSC6900
BTSXMUFP
BTSNAME
BTS Name
BSC6900
BTSXMUFP
TRXPWRADJALLOW
Power Adjust Parameter Configuration Enabled
BSC6900
CAB
CN
Cabinet No.
BSC6900
CAB
CABT
Is remote cabinet
BSC6900
CCG
CMD
Command Name
BSC6900
CCGN
CGN
Command Group Name
BSC6900
CELLBIND2BTS
IDTYPE
Index Type
BSC6900
CELLBIND2BTS
CELLID
Cell Index
BSC6900
CELLBIND2BTS
CELLNAME
Cell Name
BSC6900
CELLBIND2BTS
BTSID
BTS Index
BSC6900
CELLBIND2BTS
BTSNAME
BTS Name
BSC6900
CERTFILE
RootCert
Root Certificate File Name BSC6900
CERTFILE
PubCert
Certificate File Name
BSC6900
CERTFILE
PrivKey
Private Key File Name
BSC6900
PKPEnableSta
Private Key Password Enabled State
BSC6900
CERTFILE
CERTFILE
PWD
Private Key Password
BSC6900
CERTFILE
CRLEnableSta
CERTFILE
CRL
Certificate Revocation List File State BSC6900 Certificate Revocation List File Name BSC6900
CERTFILE
CCAEnableSta
Certificate Chain File Enabled State
BSC6900
CERTFILE
CertChain
Certificate Chain File Name
BSC6900
CFGDATAEFFECTIVE
SRN
Subrack No.
BSC6900
CFGDATAINEFFECTIVE SRN
Subrack No.
BSC6900
CFMMA
SRN
Subrack No.
BSC6900
CFMMA
SN
Slot No.
BSC6900
CFMMA
MDIDX
MD Index
BSC6900
CFMMA
VLANID
VLAN ID
BSC6900
CFMMA
MAIDX
MA Index
BSC6900
CFMMA
MANAME
MA Name
BSC6900
CFMMA
CCMINTERVAL
CCM Send Prid
BSC6900
CFMMD
SRN
Subrack No.
BSC6900
CFMMD
SN
Slot No.
BSC6900
CFMMD
MDIDX
MD Index
BSC6900
CFMMD
Level
MD Level
BSC6900
CFMMD
MDName
MD Name
BSC6900
CFMMEP
SRN
Subrack No.
BSC6900
CFMMEP
MAIDX
MA Index
BSC6900
CFMMEP
MEPTYPE
MEP Type
BSC6900
CFMMEP
MEPID
MEP ID
BSC6900
CFMMEP
PORTTYPE
Port Type
BSC6900
CFMMEP
SN
Slot No.
BSC6900
CFMMEP
PN
Port No.
BSC6900
CFMMEP
TRUNKN
Trunk No.
BSC6900
CLK
SRT
Subrack type
BSC6900
CLK
SRN
Subrack No.
BSC6900
CLK
SN
Slot No.
BSC6900
CLK
BT
Board type
BSC6900
CLK
REF2MCLKSRC
Port for LINE1
BSC6900
SUPPORTBAKCLKSRC
Use Back-up port for LINE1
BSC6900
CLK
REF2MCLKSRCBAK
Back-up port for LINE1
BSC6900
CLK
REF2MCLK2SRC
Port for LINE2
BSC6900
CLK
SUPPORTBAKCLK2SRC
Use Back-up port for LINE2
BSC6900
CLK
REF2MCLK2SRCBAK
Back-up port for LINE2
BSC6900
CLK
REFUSELOCALCLK
Use SGSN clock source
BSC6900
CLK
REF2MCLKSW1
Switch of panel 2M BITS1 BSC6900
CLK
REF2MCLKSW2
Switch of panel 2M BITS2 BSC6900
CLK
CLK
CLK
CLKMODE
BACK8KCLKSW1
Switch of backplane LINE1 BSC6900
BACK8KCLKSW2
Switch of backplane LINE2 BSC6900
MODE
System clock working mode
BSC6900
SRCGRD
Clock source priority
BSC6900
CLKSRC
SRCGRD
Clock source priority
BSC6900
CLKSRC
SRCT
Clock source type
BSC6900
CLKMODE
CLKTYPE
CLKTYPE
Clock board type
BSC6900
CMCTRLSW
CTRLSW
CM Control Enable Switch BSC6900
CONNTYPE
CONNTYPE
Connection Type
BSC6900
COPTLNK
SRN
Subrack No.
BSC6900
COPTLNK
SN
Slot No.
BSC6900
COPTLNK
BT
Board Type
BSC6900
COPTLNK
PS
Port select
BSC6900
COPTLNK
PN
Port No.
BSC6900
COPTLNK
E1T1PN
E1/T1 port No.
BSC6900
COPTLNK
J2ALMSWITCH
J2 mismatch alarm switch BSC6900
COPTLNK
J2MODE
J2 length
BSC6900
COPTLNK
J2BYTE_FORMAT
J2 Byte Format
BSC6900
COPTLNK
J2TXVALUE
J2 transmit value
BSC6900
COPTLNK
J2RXVALUE
J2 expected incept value
BSC6900
COPTLNK
JAUTOADD
Automatic Append J Byte BSC6900
CPUTHD
BRDCLASS
Board Class
BSC6900
CPUTHD
SSCPUAVEUSAGEALMTHD
CPU occupancy alarm clearance threshold
BSC6900
CPUTHD
SSCPUMAXUSAGEALMTHD
CPU occupancy alarm threshold
BSC6900
CPUTHD
SSDSPAVEUSAGEALMTHD
DSP occupancy alarm clearance threshold
BSC6900
CPUTHD
SSDSPMAXUSAGEALMTHD
DSP occupancy alarm threshold
BSC6900
CPUTHD
SSTHRUPUTAVEUSAGEALMT HD
Thruput Occupancy Alarm Clearance Threshold BSC6900
CPUTHD
SSTHRUPUTMAXUSAGEALMT Thruput Occupancy HD Alarm Threshold BSC6900
CSABISCONGCTRL
ucCSPrefCSOrgCallPrio
CS Preferred CS MOC Priority
BSC6900
ucCSPrefCSTermCallPrio
CS Preferred CS MTC Priority
BSC6900
CSABISCONGCTRL
ucCSPrefCSEmergCallPrio
CS Preferred CS Emergency Call Priority
BSC6900
CSABISCONGCTRL
ucCSPrefVBSPrio
CS Preferred VBS Priority
BSC6900
CSABISCONGCTRL
ucCSPrefVGCSPrio
CS Preferred VGCS Priority BSC6900
CSABISCONGCTRL
ucCSPrefSupplePrio
CS Preferred Supplement Priority BSC6900
CSABISCONGCTRL
ucCSPrefCallReestPrio
CS Preferred Call Reestablish Priority BSC6900
CSABISCONGCTRL
ucCSPrefIntraBscHoPrio
CS Preferred IntraBSC HO Priority BSC6900
CSABISCONGCTRL
ucCSPrefInBscHoPrio
CS Preferred IntoBSC HO Priority
BSC6900
CSABISCONGCTRL
ucCSPrefPSPrio
CS Preferred PS Priority
BSC6900
CSABISCONGCTRL
ucCSPrefOtherPrio
CS Preferred Other Service Priority BSC6900
DB
FN
File Name
BSC6900
DEVIP
SRN
Subrack No.
BSC6900
CSABISCONGCTRL
DEVIP
SN
Slot No.
BSC6900
DEVIP
DEVTYPE
Device IP Address Type
BSC6900
DEVIP
IPADDR
IP address
BSC6900
DHCPRLY
DHCPRLYID
BSC6900
DHCPRLY
DHCPRLYGATEWAYIP
DHCP Relay ID DHCP Relay Gateway IP Address
DPUBRDTYPE
SRN
Subrack No.
BSC6900
DPUBRDTYPE
SN
Slot No.
BSC6900
DPUBRDTYPE
BRDTYPE
Board Type
BSC6900
DSCPMAP
DSCP
Differentiated Service Codepoint
BSC6900
BSC6900
DSCPMAP
VLANPRI
VLAN Priority
BSC6900
DSPLVDSMODE
SRN
Subrack No.
BSC6900
DSPLVDSMODE
SN
Slot No.
BSC6900
DSPLVDSMODE
LVDS252DSPNUM
Number of DSPs with 252 LVDS Links
BSC6900
DXX
DXXINDEX
DXX Index
BSC6900
DXX
PORTNUM
DXX Port Number
BSC6900
DXXCONNECT
DXXINDEX
DXX Index
BSC6900
DXXCONNECT
PORTNO
DXX In Port No.
BSC6900
DXXCONNECT
CIUSUBRACKNO
Subrack No.
BSC6900
DXXCONNECT
CIUSLOTNO
Slot No.
BSC6900
DXXCONNECT
CONNECTPORTNO
Connect Port No.
BSC6900
DXXTSEXGRELATION
DXXINDEX
DXX Index
BSC6900
DXXTSEXGRELATION
INPORTNO
DXX In Port No.
BSC6900
DXXTSEXGRELATION
INTSNO
DXX In Time Slot No.
BSC6900
DXXTSEXGRELATION
OUTPORTNO
DXX Out Port No.
BSC6900
DXXTSEXGRELATION
OUTPORTTS
DXX Out Time Slot No. BSC6900
E1T1
SRN
Subrack No.
BSC6900
E1T1
SN
Slot No.
BSC6900
E1T1
BT
Board type
BSC6900
E1T1
PS
Port select
BSC6900
E1T1
PN
Port No.
BSC6900
E1T1
UNBA
Support Balance
BSC6900
E1T1
WORKMODE
Work Mode
BSC6900
E1T1
PTTYPE
Frame Structure
BSC6900
E1T1
PTTXT
Frame send Structure
BSC6900
E1T1
PTRXT
Frame receive Structure
BSC6900
E1T1
PTCODE
Line code
BSC6900
E1T1
LOOPSW
Loop Detect Switch BSC6900
E1T1
REMARK
Remark
BSC6900
E1T1LOP
SRN
Subrack No.
BSC6900
E1T1LOP
SN
Slot No.
BSC6900
E1T1LOP
BT
Board type
BSC6900
E1T1LOP
PN
Port No.
BSC6900
E1T1LOP
LOPT
Loopback type
BSC6900
E1T1LOP
LLCN
Channel No.
BSC6900
E1T1LOP
RLCN
Channel No.
BSC6900
E1T1LOP
IDLECODE
Idle code
BSC6900
E1T1LOP
AUSTOP
Loop time[min]
BSC6900
EMSIP
EMSIP
EMS IP Address
BSC6900
EMSIP
MASK
Subnet mask
BSC6900
OMUIP
OMU External Network Virtual IP
BSC6900
EMSIP
OMU External Network Mask
EMSIP
OMUMASK
EMU
SRN
EMU
VOL48_MASK
EMU
VOL24_MASK
EMU
TEMP_MASK
Subrack No. Enable Alarm Reporting for 48V Power Enable Alarm Reporting for 24V Power Enable Temperature Alarm Reporting
EMU
HUM_MASK
Enable Humidity Alarm Reporting
BSC6900
EMU
WATER_MASK
Enable Water Alarm Reporting
BSC6900
EMU
SMOKE_MASK
Enable Smoke Alarm Reporting
BSC6900
EMU
INFRA_RED_MASK
Infrared alarm switch
BSC6900
EMU
DOOR_ENGINE_MASK
Enable Door Status Alarm Reporting BSC6900
EMU
EX_ANO1_TYPE
Sensor Type of External Analog 1
BSC6900
EMU
EX_ANO2_TYPE
Sensor Type of External Analog 2
BSC6900
EMU
EX_ANO3_TYPE
Sensor Type of External Analog 3
BSC6900
EMU
EX_ANO4_TYPE
EMU
VOL48_THD_HIGH
EMU
VOL48_THD_LOW
Sensor Type of External Analog 4 Upper Limit of Alarm for 48V Power Lower Limit of Alarm for 48V Power
BSC6900
BSC6900
BSC6900
BSC6900
BSC6900
BSC6900
BSC6900
BSC6900
EMU
VOL24_THD_HIGH
EMU
VOL24_THD_LOW
Upper Limit of Alarm for 24V Power Lower Limit of Alarm for 24V Power
EMU
TEMP_THD_HIGH
Upper Limit of Temperature Alarm BSC6900
EMU
TEMP_THD_LOW
Lower Limit of Temperature Alarm BSC6900
EMU
HUM_THD_HIGH
Upper Limit of Humidity Alarm
BSC6900
EMU
HUM_THD_LOW
Lower Limit of Humidity Alarm
BSC6900
EX_ANO1_SIG_MAX
Upper Limit of Signal Output of External Analog 1
BSC6900
EX_ANO1_SIG_MIN
Lower Limit of Signal Output of External Analog 1
BSC6900
EX_ANO1_VAL_MAX
Upper Limit of Measurement Range of External Analog 1
BSC6900
EMU
EMU
EMU
BSC6900
BSC6900
EMU
EMU
EMU
EMU
EX_ANO1_VAL_MIN
Lower Limit of Measurement Range of External Analog 1
BSC6900
EX_ANO2_SIG_MAX
Upper Limit of Signal Output of External Analog 2
BSC6900
EX_ANO2_SIG_MIN
Lower Limit of Signal Output of External Analog 2
BSC6900
EX_ANO2_VAL_MAX
Upper Limit of Measurement Range of External Analog 2
BSC6900
EMU
EMU
EMU
EMU
EX_ANO2_VAL_MIN
Lower Limit of Measurement Range of External Analog 2
BSC6900
EX_ANO3_SIG_MAX
Upper Limit of Signal Output of External Analog 3
BSC6900
EX_ANO3_SIG_MIN
Lower Limit of Signal Output of External Analog 3
BSC6900
EX_ANO3_VAL_MAX
Upper Limit of Measurement Range of External Analog 3
BSC6900
EMU
EMU
EMU
EMU
EX_ANO3_VAL_MIN
Lower Limit of Measurement Range of External Analog 3
BSC6900
EX_ANO4_SIG_MAX
Upper Limit of Signal Output of External Analog 4
BSC6900
EX_ANO4_SIG_MIN
Lower Limit of Signal Output of External Analog 4
BSC6900
EX_ANO4_VAL_MAX
Upper Limit of Measurement Range of External Analog 4
BSC6900
EMU
EX_ANO4_VAL_MIN
Lower Limit of Measurement Range of External Analog 4
EMU
POWER_RELAY1
Switch for Relay 1
BSC6900
EMU
POWER_RELAY2
Switch for Relay 2
BSC6900
EMU
POWER_RELAY3
Switch for Relay 3
BSC6900
EMU
POWER_RELAY4
Switch for Relay 4
BSC6900
EMU
POWER_RELAY5
Switch for Relay 5
BSC6900
EMU
POWER_RELAY6
Switch for Relay 6
BSC6900
ENVALMPARA
ANM
Alarm Name
BSC6900
ENVALMPARA
ALVL
Alarm Severity
BSC6900
BSC6900
ENVALMPARA
ASS
Event Type
BSC6900
ETHIP
SRN
Subrack No.
BSC6900
ETHIP
SN
Slot No.
BSC6900
ETHIP
PN
Port No.
BSC6900
ETHIP
IPINDEX
IP address index
BSC6900
ETHIP
IPADDR
Local IP address
BSC6900
ETHIP
MASK
Subnet mask
BSC6900
ETHIP
MASK
Subnet mask
BSC6900
ETHPORT
SRN
Subrack No.
BSC6900
ETHPORT
SN
Slot No.
BSC6900
ETHPORT
BRDTYPE
Board type.
BSC6900
ETHPORT
PTYPE
Port type
BSC6900
ETHPORT
PN
Port No.
BSC6900
ETHPORT
AUTO
Auto negotiation
BSC6900
ETHPORT
SPEED
Port speed
BSC6900
ETHPORT
MTU
MTU[Byte]
BSC6900
ETHPORT
FC
Physical layer flow control switch
BSC6900
ETHPORT
OAMFLOWBW
OAM flow min bandwidth[%]
BSC6900
ETHPORT
FLOWCTRLSWITCH
Flow control switch BSC6900
FCINDEX
Flow control parameter index
ETHPORT
BSC6900
ETHPORT
ERRDETECTSW
Error-frame detect switch
ETHPORT
ERRALARMTHD
Error-frame alarm threshold
BCPKTALARMTHD
Received broadcast packets alarm threshold[pps] BSC6900
BCPKTALARMCLRTHD
Received broadcast packets alarm clear threshold[pps] BSC6900
ETHPORT
ETHPORT
BSC6900
BSC6900
ETHPORT
CFMVER
CFM Protocol Version
BSC6900
ETHREDPORT
SRN
Subrack No.
BSC6900
ETHREDPORT
SN
Slot No.
BSC6900
ETHREDPORT
PN
Port No.
BSC6900
ETHTRK
SRN
Subrack No.
BSC6900
ETHTRK
SN
Slot No.
BSC6900
ETHTRK
TRKN
Trunk No.
BSC6900
ETHTRK
LACPMODE
Aggregation Mode
BSC6900
ETHTRK
OAMFLOWBW
OAM flow min bandwidth[%]
ETHTRK
FLOWCTRLSWITCH
Flow control switch BSC6900
ETHTRK
FCINDEX
Flow control parameter index
BSC6900
ETHTRK
CFMVER
CFM Protocol Version
BSC6900
ETHTRKIP
SRN
Subrack No.
BSC6900
ETHTRKIP
SN
Slot No.
BSC6900
ETHTRKIP
TRKN
Trunk No.
BSC6900
ETHTRKIP
IPINDEX
IP address index
BSC6900
ETHTRKIP
IPADDR
Local IP address
BSC6900
BSC6900
ETHTRKIP
MASK
Subnet mask
BSC6900
ETHTRKLNK
SRN
Subrack No.
BSC6900
ETHTRKLNK
SN
Slot No.
BSC6900
ETHTRKLNK
TRKN
Trunk No.
BSC6900
ETHTRKLNK
TRKLNKSN
Trunk Link Slot No. BSC6900
ETHTRKLNK
TRKLNKPN
Trunk Link No.
BSC6900
EXTBSC
BSCIDX
BSC Index
BSC6900
EXTBSC
BSCNAME
External BSC Name BSC6900
EXTBSC
BSCDPC
External BSC DPC BSC6900
EXTBSC
IDTYPE
Index Type
BSC6900
EXTNCELL
IDTYPE
Index Type
BSC6900
EXTNCELL
INNCELLID
BSC Inner Cell Index
BSC6900
EXTNCELL
INNCELLNAME
BSC Inner Cell Name
EXTNCELL
ADJBSCDPC
Adjacent BSC DPC BSC6900
EXTNCELL
EXTADJCELLID
BSC Adjacent Cell Index
BSC6900
EXTNCELL
EXTADJCELLNAME
BSC Adjacent Cell Name
BSC6900
FANSPEED
FANFLAG
Fan Type
BSC6900
FANSPEED
SRN
Subrack No.
BSC6900
FANSPEED
FANSPEEDMODE
FANSPEED
FANADJUSTCOMMAND2
Speed adjustment mode Duty ratio adjustment command
FCCPUTHD
BRDCLASS
Board Class
BSC6900
FCCPUTHD
SMWINDOW
Filter window
BSC6900
FCCPUTHD
FDWINDOW
Fast judgement window
BSC6900
FCCPUTHD
CTHD
Critical threshold
BSC6900
FCCPUTHD
PRINTCTHD
Print control threshold
BSC6900
BSC6900
BSC6900
BSC6900
FCCPUTHD
PRINTRTHD
Print restore threshold
FCCPUTHD
TRACECTHD
Debug tracking control threshold
BSC6900
FCCPUTHD
TRACERTHD
Debug tracking restore threshold
BSC6900
PMCTHD
Performance monitor control threshold
BSC6900
FCCPUTHD
PMRTHD
Performance monitor restore threshold
BSC6900
FCCPUTHD
LOGCTHD
Log control threshold
BSC6900
FCCPUTHD
LOGRTHD
Log restore threshold
BSC6900
FCCPUTHD
LPRISERVCTHD
Low Priority Service Control Threshold BSC6900
FCCPUTHD
LPRISERVRTHD
Low Priority Service Restore Threshold BSC6900
NPRISERVCTHD
Normal Priority Service Control Threshold
FCCPUTHD
FCCPUTHD
BSC6900
BSC6900
NPRISERVRTHD
Normal Priority Service Restore Threshold
BSC6900
HPRISERVCTHD
High Priority Service Control Threshold
BSC6900
FCCPUTHD
HPRISERVRTHD
High Priority Service Restore Threshold
BSC6900
FCMSGQTHD
BRDCLASS
Board Class
BSC6900
FCMSGQTHD
SMWINDOW
Filter window
BSC6900
FCMSGQTHD
CTHD
Critical threshold
BSC6900
FCMSGQTHD
PRINTCTHD
Print control threshold
BSC6900
FCMSGQTHD
PRINTRTHD
Print restore threshold
BSC6900
FCMSGQTHD
TRACECTHD
Debug tracking control threshold
BSC6900
FCCPUTHD
FCCPUTHD
TRACERTHD
Debug tracking restore threshold
BSC6900
PMCTHD
Performance monitor control threshold
BSC6900
FCMSGQTHD
PMRTHD
Performance monitor restore threshold
BSC6900
FCMSGQTHD
LOGCTHD
Log control threshold
BSC6900
FCMSGQTHD
LOGRTHD
Log restore threshold
BSC6900
FCSW
BRDCLASS
Board Class
BSC6900
FCSW
FCSW
Flow control switch BSC6900
FCSW
PRINTSW
Print Flow control switch
FCSW
TRACESW
FCSW
PMSW
Debug Flow control switch BSC6900 Performance monitoring flow control switch BSC6900
FCSW
LOGSW
Log control switch
BSC6900
FHO
OBJTYPE
Object Type
BSC6900
FHO
CELLIDTYPE
Cell Index Type
BSC6900
FCMSGQTHD
FCMSGQTHD
BSC6900
FHO
CELLID
Cell Index
BSC6900
FHO
CELLNAME
Cell Name
BSC6900
FHO
TRXID
TRX ID
BSC6900
FHO
CHNO
Channel No.
BSC6900
FHO
HOMOD
Handover Scope
BSC6900
FHO
HOCELLIDTYPE
Specify Index of Cell Handover to
BSC6900
FHO
HOCELLNAME
Cell Name of Handover to
BSC6900
FHO
MCC
MCC
BSC6900
FHO
MNC
MNC
BSC6900
FHO
LAC
Cell LAC
BSC6900
FHO
CI
Cell CI
BSC6900
FTPCLTPORT
STARTPORT
Start Data Port
BSC6900
FTPCLTPORT
ENDPORT
End Data Port
BSC6900
FTPPWD
NEW
New Password
BSC6900
FTPPWD
CFM
Confirm Password
BSC6900
FTPSCLT
ENCRYMODE
The Encrypted Mode
BSC6900
FTPSCLT
SPTSTATEFWL
Support State Firewall
BSC6900
FTPSCLTDPORT
Port
Destination Port
BSC6900
FTPSRVPORT
STARTPORT
Start Data Port
BSC6900
FTPSRVPORT
ENDPORT
End Data Port
BSC6900
FTPSSRV
ENCRYMODE
Transport Encrypted Mode
BSC6900
FTPSSRV
DFTPORTSWT
The Type of FTP Server Command Port
FTPSSRV
SERCMDPORT
The Command Port of FTP Server BSC6900
FTPSSRV
SERDATAPORT
The Source Date Port of FTP Server BSC6900
G2GNCELL
IDTYPE
Index Type
BSC6900
G2GNCELL
SRC2GNCELLID
Source Cell Index
BSC6900
G2GNCELL
SRC2GNCELLNAME
Source Cell Name
BSC6900
G2GNCELL
NBR2GNCELLID
Neighbor 2G Cell Index
BSC6900
G2GNCELL
NBR2GNCELLNAME
Neighbor 2G Cell Name
BSC6900
G2GNCELL
SRCMCC
Source Cell MCC
BSC6900
G2GNCELL
SRCMNC
Source Cell MNC
BSC6900
G2GNCELL
SRCLAC
Source Cell LAC
BSC6900
G2GNCELL
SRCCI
Source Cell CI
BSC6900
G2GNCELL
NBRMCC
Neighbour Cell MCC
BSC6900
G2GNCELL
NBRMNC
Neighbour Cell MNC
BSC6900
BSC6900
G2GNCELL
NBRLAC
Neighbour Cell LAC
G2GNCELL
NBRCI
Neighbour Cell CI
BSC6900
NCELLTYPE
Neighboring Cell Type
BSC6900
SRCHOCTRLSWITCH
Current HO CTRL Algorithm in Source Cell BSC6900
G2GNCELL
G2GNCELL
BSC6900
G2GNCELL
INTERCELLHYST
Inter-cell HO Hysteresis
G2GNCELL
MINOFFSET
Min Access Level Offset
BSC6900
G2GNCELL
PBGTMARGIN
PBGT HO Threshold
BSC6900
BSC6900
G2GNCELL
BQMARGIN
BQ HO Margin
G2GNCELL
ISCHAINNCELL
Chain Neighbor Cell BSC6900
G2GNCELL
INTELEVHOHYST
Adjacent Cell Interlayer HO Hysteresis BSC6900
DRHOLEVRANGE
Directed Retry Handover Level Range
G2GNCELL
BSC6900
BSC6900
CHAINNCELLTYPE
Chain Neighbour Cell Type
BSC6900
G2GNCELL
EDGEADJSTATTIME
Edge HO AdjCell Watch Time
BSC6900
G2GNCELL
EDGEADJLASTTIME
Edge HO AdjCell Valid Time
BSC6900
G2GNCELL
LEVSTAT
Layer HO Watch Time
BSC6900
G2GNCELL
LEVLAST
Layer HO Valid Time
BSC6900
G2GNCELL
PBGTSTAT
PBGT Watch Time BSC6900
G2GNCELL
G2GNCELL
PBGTLAST
PBGT Valid Time
BSC6900
G2GNCELL
BETTERCELLSTATTIME
Better Cell HO Watch Time
BSC6900
G2GNCELL
BETTERCELLLASTTIME
Better Cell HO Valid Time BSC6900
G2GNCELL
HOSTATICTIME
Quick Handover Static Time
BSC6900
G2GNCELL
HOLASTTIME
Quick Handover Last Time
BSC6900
G2GNCELL
HCSSTATTIME
HCS HO Watch Time
BSC6900
G2GNCELL
HCSLASTTIME
HCS HO Valid Time BSC6900
G2GNCELL
BQSTATTIME
BQ HO Watch Time BSC6900
G2GNCELL
BQLASTTIME
BQ HO Valid Time
G2GNCELL
TASTATTIME
TA HO Watch Time BSC6900
G2GNCELL
TALASTTIME
TA HO Valid Time
BSC6900
G2GNCELL
ULBQSTATTIME
UL BQ HO Static Time
BSC6900
BSC6900
UL BQ HO Last Time
G2GNCELL
ULBQLASTTIME
G2GNCELL
IBCADYNCMEASURENCELLAL IBCA Dyn Measure LOWED Neighbour Cell Flag BSC6900
G2GNCELL
IBCARXLEVOFFSET
IBCA RxLev Offset BSC6900
LOADHOPBGTMARGIN
Load HO PBGT Threshold
G2GNCELL
BSC6900
BSC6900
G2GNCELL
NCELLPRI
Neighboring Cell Priority
BSC6900
G2GNCELL
IDTYPE
Index Type
BSC6900
G3GNCELL
IDTYPE
Index Type
BSC6900
G3GNCELL
SRC3GNCELLID
Source Cell Index
BSC6900
G3GNCELL
SRC3GNCELLNAME
Source Cell Name
BSC6900
G3GNCELL
NBR3GNCELLID
Neighbor Cell Index BSC6900
G3GNCELL
NBR3GNCELLNAME
Neighbor Cell Name
BSC6900
G3GNCELL
RSCPOFF
RSCP Offset
BSC6900
G3GNCELL
ECNOOFF
Ec/No Offset
BSC6900
G3GNCELL
HOSTAT3GTDD
TDD 3G Better Cell HO Watch Time BSC6900
G3GNCELL
HODURT3GTDD
TDD 3G Better Cell HO Valid Time BSC6900
G3GNCELL
HOSTAT3G
FDD 3G Better Cell HO Watch Time BSC6900
G3GNCELL
HODURT3G
FDD 3G Better Cell HO Valid Time BSC6900
NCELLPRI
Neighboring Cell Priority
GROUPINDEX
BSC Node Redundancy Group Index BSC6900
GBSCREDGRP
GROUPNAME
BSC Node Redundancy Group Name BSC6900
GBSCREDGRP
BEATSENDINGDIS
Interval for Sending Heartbeat BSC6900
GBSCREDGRP
MSTSERVACTDELAY
Master Service Active Delay
G3GNCELL
GBSCREDGRP
BSC6900
BSC6900
GBSCREDGRP
SLVSERVACTDELAY
Slave Service Active Delay
BSC6900
GBSCREDGRP
CNFAULTDELAY
CN Fault Delay
BSC6900
GBSCREDGRP
CNSTATEPOLICYFORGROUP
CN State Policy For Group BSC6900
GBSCREDGRP
LocalBSCID
Local BSC ID
BSC6900
GBSCREDGRP
PeerBSCID
Peer BSC ID
BSC6900
GCBSADDR
CBCINDEX
CBC INDEX
BSC6900
GCBSADDR
OPINDEXSET
OP INDEX SET
BSC6900
GCBSADDR
SRN
Subrack No.
BSC6900
GCBSADDR
SN
Slot No.
BSC6900
GCBSADDR
CPUN
CPU NO
BSC6900
GCBSADDR
BSCIP
BSC IP
BSC6900
GCBSADDR
BSCPORT
BSC Port
BSC6900
GCBSADDR
BSCGATEWAYIP
BSC GateWay IP
BSC6900
GCBSADDR
CBCIP
CBC IP
BSC6900
GCBSADDR
MASK
Mask
BSC6900
GCBSADDR
CBCPORT
CBC Port
BSC6900
GCBSADDR
IFCBSHAKEHAND
If CB Shake Hand
BSC6900
GCBSADDR
CBCITFPARA
CBC ITF Para
BSC6900
GCELL
IDTYPE
Index Type
BSC6900
GCELL
CELLID
Cell Index
BSC6900
GCELL
CELLNAME
Cell Name
BSC6900
GCELL
NEWCELLNAME
New Cell Name
BSC6900
GCELL
TYPE
Freq. Band
BSC6900
GCELL
MCC
MCC
BSC6900
GCELL
MNC
MNC
BSC6900
GCELL
LAC
Cell LAC
BSC6900
GCELL
CI
Cell CI
BSC6900
GCELL
NCC
NCC
BSC6900
GCELL
BCC
BCC
BSC6900
GCELL
EXTTP
Cell Extension Type BSC6900
GCELL
IUOTP
Cell IUO Type
BSC6900
GCELL
ENIUO
Enhanced Concentric Allowed BSC6900
GCELL
CELLINEXTP
Cell Inner/Extra Property
BSC6900
GCELL
DBLFREQADJIDTYPE
Same Group Cell Index Type
BSC6900
GCELL
DBLFREQADJCID
Same Group Cell Index
GCELL
DBLFREQADJCNAME
Same Group Cell Name
BSC6900
GCELL
DBFREQBCCHIUO
BCCH IUO of Double Frequency Cell
BSC6900
GCELL
FLEXMAIO
Start Flex MAIO Switch
BSC6900
GCELL
HSNSW
HSN Modification Switch
BSC6900
BSC6900
GCELL
CSVSP
CS Voice Service PRI
BSC6900
GCELL
CSDSP
CS Data Service PRI
BSC6900
GCELL
PSHPSP
PS High PRI Service PRI
GCELL
PSLPSVP
PS Low PRI Service PRI BSC6900
GCELL
BSPBCCHBLKS
Number of PBCCH Blocks BSC6900
BSC6900
GCELL
BSPAGBLKSRES
Number of PAGCH Blocks BSC6900
GCELL
BSPRACHBLKS
Number of PRACH Blocks BSC6900
GCELL
OPNAME
Operator Name
BSC6900
GCELL
VIPCELL
VIP Cell
BSC6900
GCELL
MocnCmCell
MOCN Sharing Cell BSC6900
GCELL
HybHiFreqBandSupport
Support Dual High Frequency Bands
BSC6900
GCELL
TYPE
Freq. Band
BSC6900
GCELL
BCC
BCC
BSC6900
GCELL
TEMPLATENAME
Cell Template Name
BSC6900
GCELL2GBA1
IDTYPE
Index Type
BSC6900
GCELL2GBA1
CELLID
Cell Index
BSC6900
GCELL2GBA1
CELLNAME
Cell Name
BSC6900
GCELL2GBA1
CELL2GBA1TAG
2GBA1 Input Tag
BSC6900
GCELL2GBA1
ITEM
NCCELL No.
BSC6900
GCELL2GBA1
ITEMVALID
Item Valid
BSC6900
GCELL2GBA1
CELL2GBA1BCCH
2G NCELL BCCH
BSC6900
GCELLADMSTAT
IDTYPE
Index Type
BSC6900
GCELLADMSTAT
CELLID
Cell Index
BSC6900
GCELLADMSTAT
CELLNAME
Cell Name
GCELLADMSTAT
ADMSTAT
Administrative State BSC6900
GCELLAMRQUL
IDTYPE
Index Type
BSC6900
GCELLAMRQUL
CELLID
Cell Index
BSC6900
GCELLAMRQUL
CELLNAME
Cell Name
BSC6900
RXQUAL1
Interfere HO Qual. Thresh 1 for NonAMR FR
BSC6900
GCELLAMRQUL
BSC6900
GCELLAMRQUL
GCELLAMRQUL
GCELLAMRQUL
RXQUAL2
Interfere HO Qual. Thresh 2 for NonAMR FR
BSC6900
RXQUAL3
Interfere HO Qual. Thresh 3 for NonAMR FR
BSC6900
RXQUAL4
Interfere HO Qual. Thresh 4 for NonAMR FR
BSC6900
GCELLAMRQUL
GCELLAMRQUL
GCELLAMRQUL
RXQUAL5
Interfere HO Qual. Thresh 5 for NonAMR FR
BSC6900
RXQUAL6
Interfere HO Qual. Thresh 6 for NonAMR FR
BSC6900
RXQUAL7
Interfere HO Qual. Thresh 7 for NonAMR FR
BSC6900
GCELLAMRQUL
GCELLAMRQUL
GCELLAMRQUL
RXQUAL8
Interfere HO Qual. Thresh 8 for NonAMR FR
BSC6900
RXQUAL9
Interfere HO Qual. Thresh 9 for NonAMR FR
BSC6900
RXQUAL10
Interfere HO Qual. Thresh 10 for NonAMR FR BSC6900
GCELLAMRQUL
GCELLAMRQUL
RXQUAL11
Interfere HO Qual. Thresh 11 for NonAMR FR BSC6900
RXQUAL12
Interfere HO Qual. Thresh 12 for NonAMR FR BSC6900
GCELLAMRQUL
RXLEVOFF
Interfere HO Qual. Thresh Offset for AMR FR
GCELLAMRQUL
DLQUALIMITAMRFR
DL Qual. Limit for AMR FR
BSC6900
BSC6900
GCELLAMRQUL
ULQUALIMITAMRFR
UL Qual. Limit for AMR FR
BSC6900
GCELLAMRQUL
DLQUALIMITAMRHR
DL Qual. Limit for AMR HR
BSC6900
GCELLAMRQUL
ULQUALIMITAMRHR
UL Qual. Limit for AMR HR
BSC6900
GCELLBASICPARA
IDTYPE
Index Type
BSC6900
GCELLBASICPARA
CELLID
Cell Index
BSC6900
GCELLBASICPARA
CELLNAME
Cell Name
BSC6900
GCELLBASICPARA
LAYER
Layer of The Cell
BSC6900
GCELLBASICPARA
PRIOR
Cell Priority
BSC6900
GCELLBASICPARA
MAXTA
Max TA
BSC6900
GCELLBASICPARA
FRDLDTX
FR Use Downlink DTX
GCELLBASICPARA
HRDLDTX
HR Use Downlink DTX
BSC6900
BSC6900
GCELLBASICPARA
ENCRY
Encryption Algorithm
BSC6900
GCELLBASICPARA
RXMIN
Minimum Access RXLEV
BSC6900
GCELLBASICPARA
FRULDTX
FR Uplink DTX
BSC6900
GCELLBASICPARA
HRULDTX
HR Uplink DTX
BSC6900
GCELLBASICPARA
CALLRESTABDIS
Call Reestablishment Forbidden
BSC6900
GCELLBASICPARA
IMMASSEN
TCH Immediate Assignment
BSC6900
GCELLBASICPARA
DIRECTRYEN
Directed Retry
BSC6900
GCELLBASICPARA
UPPCEN
UL PC Allowed
BSC6900
GCELLBASICPARA
DNPCEN
DL PC Allowed
BSC6900
GCELLBASICPARA
SDDYN
SDCCH Dynamic Allocation Allowed
GCELLBASICPARA
LEVELRPT
Level Report Switch BSC6900
GCELLBASICPARA
DYNOpenTrxPower
Allow Dynamic Shutdown of TRX
BSC6900
GCELLBASICPARA
BTSadjust
Adjust Voltage
BSC6900
GMSKDELAY
Diversity Transmitter GMSK Delay
BSC6900
GCELLBASICPARA
BSC6900
GCELLBASICPARA
DIVERT8PSKDELAY
Diversity Transmitter 8PSK Delay
GCELLBASICPARA
ICBALLOW
ICB Allowed
BSC6900
TIMESLOTVOLADJALLOW
Voltage Adjust Based Timeslots Allowed
BSC6900
DIVERT16QAMDELAY
Diversity Transmitter 16QAM Delay BSC6900
GCELLBASICPARA
GCELLBASICPARA
BSC6900
DIVERT32QAMDELAY
Diversity Transmitter 32QAM Delay BSC6900
POWERREDUCE16QAM
16QAM Transmitter Power Reduce Level BSC6900
GCELLBASICPARA
POWERREDUCE32QAM
32QAM Transmitter Power Reduce Level BSC6900
GCELLBASICPARA
CELLSCENARIO
Cell Scenario
BSC6900
GCELLBASICPARA
CELL8PSKPOWERLEVEL
Cell 8PSK Power Attenuation Grade
BSC6900
FASTCALLTCHTHRESHOLD
Fast Call Setup TCH Usage Threshold
BSC6900
GCELLBASICPARA
GCELLBASICPARA
GCELLBASICPARA
GCELLBASICPARA
IMMASSCBB
Immediate Assignment Optimized
GCELLBASICPARA
NBAMRTFOSWITCH
TFO Switch
GCELLBASICPARA
RTPSWITCH
Measure Link Delay Switch BSC6900
HIGHMODPWREN
High-Order Modulation Power Increase Allowed
BSC6900
MAINBCCHHIGHMODPWREN
High-Order Modulation Power Increase on BCCH TRX Allowed
BSC6900
GCELLBASICPARA
GCELLBASICPARA
BSC6900
BSC6900
GCELLBASICPARA
UPGRADELEV8PSK
Power Increase in 8PSK
BSC6900
GCELLBASICPARA
UPGRADELEVQPSK
Power Increase in QPSK
BSC6900
GCELLBASICPARA
UPGRADELEVLSR16QAM
Power Increase in LSR 16QAM
BSC6900
GCELLBASICPARA
UPGRADELEVLSR32QAM
Power Increase in LSR 32QAM
BSC6900
GCELLBASICPARA
UPGRADELEVHSR16QAM
Power Increase in HSR 16QAM
BSC6900
GCELLBASICPARA
UPGRADELEVHSR32QAM
Power Increase in HSR 32QAM
BSC6900
GCELLCCACCESS
IDTYPE
Index Type
BSC6900
GCELLCCACCESS
CELLID
Cell Index
BSC6900
GCELLCCACCESS
CELLNAME
Cell Name
BSC6900
GCELLCCACCESS
VOICEVER
Speech Version
BSC6900
GCELLCCACCESS
TRXAIDSWITCH
TRX Aiding Function Control
BSC6900
GCELLCCACCESS
RANERRTHRED
Random Access Error Threshold
BSC6900
GCELLCCACCESS
PWRDIVIND
Power Deviation Indication
BSC6900
GCELLCCACCESS
PWRDIV
Power Deviation
BSC6900
GCELLCCACCESS
RACHACCLEV
CS RACH Min. Access Level
BSC6900
GCELLCCACCESS
PSRACHACCLEV
PS RACH Min. Access Level
BSC6900
GCELLCCACCESS
BHPREPOLICY
Switchback Policy of Baseband FH Mutual Aid
GCELLCCAD
IDTYPE
Index Type
BSC6900
GCELLCCAD
CELLID
Cell Index
BSC6900
GCELLCCAD
CELLNAME
Cell Name
BSC6900
BSC6900
GCELLCCAD
UPSENDSMDIS
Short Message Uplink Disabled
BSC6900
GCELLCCAD
DNSENDSMDIS
Short Message Downlink Disabled
BSC6900
REASSFREQBAND
Frequency Band of Reassign BSC6900
GCELLCCAD
PREEMPTIONPERMIT
Emergency Call Preemption Permitted
BSC6900
GCELLCCAD
EMCPRILV
Priority of Emergency Call
BSC6900
GCELLCCAD
CELLSELECTAFTERCALLREL
Select 3G Cell After Call Release BSC6900
GCELLCCAD
GCELLCCAD
MAXTADROPCALLSWITCH
Max TA Drop Call Switch
GCELLCCAD
MAXTADROPCALLFILTER
MAX TA Drop Call Filter
BSC6900
GCELLCCAD
MAXTADROPCALLTHRESHOL D
MAX TA Drop Call Threshold
BSC6900
GCELLCCAD
FSTRTNTDDWITHOUTMR
Select 3G Cell If No TD Cell Is Contained In MR BSC6900
GCELLCCAD
POSSI13
Channel of Sending SI13 Message BSC6900
GCELLCCAMR
IDTYPE
Index Type
BSC6900
GCELLCCAMR
CELLID
Cell Index
BSC6900
GCELLCCAMR
CELLNAME
Cell Name
BSC6900
BSC6900
GCELLCCAMR
RATECTRLSW
AMR Rate Control Switch
BSC6900
GCELLCCAMR
ACTCDSETF
AMR ACS[F]
BSC6900
GCELLCCAMR
AUTOADJULTHHYSTF
Auto Adjust UL TH and Hysteresis [F]
BSC6900
GCELLCCAMR
ULTHF1
AMR UL Coding Rate adj.th1[F]
BSC6900
GCELLCCAMR
ULTHF2
AMR UL Coding Rate adj.th2[F]
BSC6900
GCELLCCAMR
ULTHF3
AMR UL Coding Rate adj.th3[F]
BSC6900
GCELLCCAMR
ULHYSTF1
AMR UL Coding Rate adj.hyst1[F]
BSC6900
GCELLCCAMR
ULHYSTF2
AMR UL Coding Rate adj.hyst2[F]
BSC6900
GCELLCCAMR
ULHYSTF3
AMR UL Coding Rate adj.hyst3[F]
BSC6900
GCELLCCAMR
DLTHF1
AMR DL Coding Rate adj.th1[F]
BSC6900
GCELLCCAMR
DLTHF2
AMR DL Coding Rate adj.th2[F]
BSC6900
GCELLCCAMR
DLTHF3
AMR DL Coding Rate adj.th3[F]
BSC6900
GCELLCCAMR
DLHYSTF1
AMR DL Coding Rate adj.hyst1[F]
BSC6900
GCELLCCAMR
DLHYSTF2
AMR DL Coding Rate adj.hyst2[F]
BSC6900
GCELLCCAMR
DLHYSTF3
AMR DL Coding Rate adj.hyst3[F]
BSC6900
GCELLCCAMR
INITCDMDF
AMR Starting Mode[F]
BSC6900
GCELLCCAMR
ACTCDSETH
AMR ACS[H]
BSC6900
GCELLCCAMR
AUTOADJULTHHYSTH
Auto Adjust UL TH and Hysteresis [H]
BSC6900
GCELLCCAMR
ULTHH1
AMR UL Coding Rate adj.th1[H]
BSC6900
GCELLCCAMR
ULTHH2
AMR UL Coding Rate adj.th2[H]
BSC6900
GCELLCCAMR
ULTHH3
AMR UL Coding Rate adj.th3[H]
BSC6900
GCELLCCAMR
ULHYSTH1
AMR UL Coding Rate adj.hyst1[H]
BSC6900
GCELLCCAMR
ULHYSTH2
AMR UL Coding Rate adj.hyst2[H]
BSC6900
GCELLCCAMR
ULHYSTH3
AMR UL Coding Rate adj.hyst3[H]
BSC6900
GCELLCCAMR
DLTHH1
AMR DL Coding Rate adj.th1[H]
BSC6900
GCELLCCAMR
DLTHH2
AMR DL Coding Rate adj.th2[H]
GCELLCCAMR
DLTHH3
AMR DL Coding Rate adj.th3[H]
BSC6900
DLHYSTH1
AMR DL Coding Rate adj.hyst1[H]
BSC6900
GCELLCCAMR
BSC6900
GCELLCCAMR
DLHYSTH2
AMR DL Coding Rate adj.hyst2[H]
BSC6900
GCELLCCAMR
DLHYSTH3
AMR DL Coding Rate adj.hyst3[H]
BSC6900
GCELLCCAMR
INITCDMDH
AMR Starting Mode[H]
BSC6900
GCELLCCAMR
GCELLCCAMR
GCELLCCAMR
AMRUADTHAW
AMR Uplink Adaptive Threshold Allowed BSC6900
LTFERUPTH
Uplink Long-term FER Upper Threshold
BSC6900
LTFERLOWTH
Uplink Long-term FER Lower Threshold
BSC6900
GCELLCCAMR
LTFERTGT
Uplink Long-term FER Target
BSC6900
GCELLCCAMR
GCELLCCAMR
LTTHADJFA
Uplink Threshold Adjust Factor
AMRDADTHAW
AMR Downlink Adaptive Threshold Allowed BSC6900
BSC6900
GCELLCCAMR
GCELLCCAMR
DLLTFERUPTH
Downlink Long-term FER Upper Threshold BSC6900
DLLTFERLOWTH
Downlink Long-term FER Lower Threshold BSC6900
GCELLCCAMR
DLLTFERTGT
Downlink Long-term FER Target BSC6900
GCELLCCAMR
DLLTTHADJFA
Downlink Threshold Adjust Factor BSC6900
GCELLCCAMR
ACTCDSETWB
AMR ACS[WB]
BSC6900
GCELLCCAMR
ULTHWB1
AMR UL Coding Rate adj.th1[WB]
BSC6900
GCELLCCAMR
ULTHWB2
AMR UL Coding Rate adj.th2[WB]
GCELLCCAMR
ULHYSTWB1
AMR UL Coding Rate adj.hyst1[WB] BSC6900
GCELLCCAMR
ULHYSTWB2
AMR UL Coding Rate adj.hyst2[WB] BSC6900
BSC6900
GCELLCCAMR
DLTHWB1
AMR DL Coding Rate adj.th1[WB]
GCELLCCAMR
DLTHWB2
AMR DL Coding Rate adj.th2[WB]
DLHYSTWB1
AMR DL Coding Rate adj.hyst1[WB] BSC6900
GCELLCCAMR
BSC6900
BSC6900
DLHYSTWB2
AMR DL Coding Rate adj.hyst2[WB] BSC6900
GCELLCCAMR
INITCDMDWB
AMR Starting Mode[WB]
BSC6900
GCELLCCAMR
RATSCCHENABLED
Is RATSCCH Function Enabled
BSC6900
GCELLCCBASIC
IDTYPE
Index Type
BSC6900
GCELLCCBASIC
CELLID
Cell Index
BSC6900
GCELLCCBASIC
CELLNAME
Cell Name
BSC6900
GCELLCCAMR
GCELLCCBASIC
SAMULFRM
SACCH MultiFrames
BSC6900
GCELLCCBASIC
RACHBUSYTHRED
RACH Busy Threshold
BSC6900
GCELLCCBASIC
PAGTIMES
Paging Times
BSC6900
GCELLCCBASIC
ASSLOADJUDGEEN
Assignment Cell Load Judge Enable BSC6900
GCELLCCBASIC
DTLOADTHRED
Directed Retry Load Access Threshold BSC6900
GCELLCCBASIC
AFRSAMULFRM
AFR SACCH MultiFrames BSC6900
GCELLCCBASIC
AHRSAMULFRM
AHR SACCH MultiFrames BSC6900
GCELLCCBASIC
AFRDSBLCNT
AFR Radio Link Timeout
BSC6900
GCELLCCBASIC
AHRDSBLCNT
AHR Radio Link Timeout
BSC6900
GCELLCCBASIC
MSMAXRETRAN
MS MAX Retrans
BSC6900
GCELLCCBASIC
COMMACC
Common Access Control Class
BSC6900
GCELLCCBASIC
SPECACC
Special Access Control Class
BSC6900
GCELLCCBASIC
ERGCALLDIS
Emergency Call Disable
BSC6900
GCELLCCBASIC
RLT
Radio Link Timeout BSC6900
GCELLCCBASIC
ECSC
ECSC
BSC6900
GCELLCCBASIC
MBR
Multi-band report
BSC6900
GCELLCCBASIC
REASSEN
Allow Reassign
BSC6900
GCELLCCBASIC
EMLPPEN
Allow EMLPP
GCELLCCBASIC
REPEATDLFASET
Repeated Downlink FACCH BSC6900
GCELLCCBASIC
REPEATDLFATHRED
Repeated Downlink FACCH Threshold BSC6900
GCELLCCBASIC
REPEATSASET
Repeated SACCH
BSC6900
GCELLCCBASIC
ACCCTRLEN
Access Control Allowed
BSC6900
ACCCTRLPY
Access Control Policy
BSC6900
GCELLCCBASIC
BSC6900
GCELLCCCH
IDTYPE
Index Type
BSC6900
GCELLCCCH
CELLID
Cell Index
BSC6900
GCELLCCCH
CELLNAME
Cell Name
BSC6900
GCELLCCCH
RFRESINDPRD
Radio Resource Report Period
BSC6900
GCELLCCCH
CCCHLOADINDPRD
CCCH Load Indication Period
BSC6900
GCELLCCCH
CCCHLOADTHRES
CCCH Load Threshold
BSC6900
OVERLOADINTV
Overload Indication Period BSC6900
RACHLDAVERSLOT
Average RACH Load Timeslot Number
GCELLCCCH
ABISFCEN
SDCCH Congestion Flow Control Allowed BSC6900
GCELLCCCH
CANPC
PWRC
GCELLCCCH
GCELLCCCH
BSC6900
BSC6900
GCELLCCCH
FMSMAXOPCC
MS_TXPWR_MAX _CCH BSC6900
GCELLCCCH
HRATESPT
Support Half Rate
BSC6900
GCELLCCTMR
IDTYPE
Index Type
BSC6900
GCELLCCTMR
CELLID
Cell Index
BSC6900
GCELLCCTMR
CELLNAME
Cell Name
BSC6900
GCELLCCTMR
T200SDCCH
T200 SDCCH
BSC6900
GCELLCCTMR
T200FACCHF
T200 FACCH/F
BSC6900
GCELLCCTMR
T200FACCHH
T200 FACCH/H
BSC6900
GCELLCCTMR
T200SACCT0
T200 SACCH TCH SAPI0 BSC6900
GCELLCCTMR
T200SACCH3
T200 SACCH TCH SAPI3 BSC6900
GCELLCCTMR
T200SACCHS
T200 SACCH SDCCH
BSC6900
GCELLCCTMR
T200SDCCH3
T200 SDCCH SAPI3
BSC6900
GCELLCCTMR
N200PARASWITCH
Use LAPDm N200
BSC6900
GCELLCCTMR
N200ESTAB
N200 of Establish
BSC6900
GCELLCCTMR
N200REL
N200 of Release
BSC6900
GCELLCCTMR
N200SACCH
N200 of SACCH
BSC6900
GCELLCCTMR
N200SDCCH
N200 of SDCCH
BSC6900
N200 of FACCH/Half Rate
GCELLCCTMR
N200FHALF
BSC6900
GCELLCCTMR
N200FFULL
GCELLCCTMR
IMMASSRESENDEN
N200 of FACCH/Full Rate Use IMM ASS Retransmit Parameter
GCELLCCTMR
IMMASSMAXDELAYTIME
Max Delay of IMM ASS Retransmit
GCELLCCTMR
IMMASSMAXSENDNUM
Max Transmit Times of IMM ASS BSC6900
GCELLCCUTRANSYS
IDTYPE
Index Type
BSC6900
GCELLCCUTRANSYS
CELLID
Cell Index
BSC6900
GCELLCCUTRANSYS
CELLNAME
Cell Name
BSC6900
BSC6900
BSC6900
BSC6900
GCELLCCUTRANSYS
MSCVER
MSC Version Indication
BSC6900
GCELLCCUTRANSYS
MEASURETYPE
Measurement Report Type
BSC6900
GCELLCCUTRANSYS
GSMFREQCNUM
Serving Band Reporting
BSC6900
GCELLCCUTRANSYS
QI
Qsearch I
BSC6900
GCELLCCUTRANSYS
QCI
Qsearch C Initial
BSC6900
GCELLCCUTRANSYS
FDDQOFF
FDD Q Offset
BSC6900
GCELLCCUTRANSYS
FDDRSCPMIN
FDD RSCP Min.
BSC6900
GCELLCCUTRANSYS
FDDREP
FDD REP QUANT
BSC6900
GCELLCCUTRANSYS
FDDFREQCNUM
FDD Multirate Reporting
BSC6900
GCELLCCUTRANSYS
FDDQMIN
FDD Qmin
BSC6900
GCELLCCUTRANSYS
FDDQMINOFFSET
FDD Qmin Offset
BSC6900
GCELLCCUTRANSYS
QP
Qsearch P
BSC6900
GCELLCCUTRANSYS
SEARCH3G
3G Search PRIO
BSC6900
GCELLCCUTRANSYS
INVALBSICEN
Invalid BSIC Reporting
BSC6900
GCELLCCUTRANSYS
SCALEORDER
SCALE_ORDER
BSC6900
GCELLCCUTRANSYS
QSEARCHC
Qsearch C
BSC6900
GCELLCCUTRANSYS
CELL900OFF
900 Reporting Offset
BSC6900
GCELLCCUTRANSYS
CELL900THRED
900 Reporting Threshold
BSC6900
GCELLCCUTRANSYS
CELL1800OFF
1800 Reporting Offset
BSC6900
GCELLCCUTRANSYS
CELL1800THRED
1800 Reporting Threshold
GCELLCCUTRANSYS
FDDCELLOFF
FDD Reporting Offset
BSC6900
GCELLCCUTRANSYS
FDDCELLTHRED
FDD Reporting Threshold
BSC6900
GCELLCCUTRANSYS
TDDCELLRESELDIV
TDD Cell Reselect Diversity
BSC6900
BSC6900
GCELLCCUTRANSYS
BESTTDDCELLNUM
Best TDD Cell Number
GCELLCCUTRANSYS
TDDCELLOFF
TDD Reporting Offset
BSC6900
GCELLCCUTRANSYS
TDDCELLTHRED
TDD Reporting Threshold
BSC6900
TDDSIOPTIMIZEDALLOWED
TDD System Information Optimized Allowed
BSC6900
TDDMIPROHIBIT
TDD MI System INFO Broadcasting Prohibit BSC6900
TDDMIOPTIMIZEDALLOWED
TDD MI System Information Optimized
GCELLCCUTRANSYS
GCELLCCUTRANSYS
GCELLCCUTRANSYS
BSC6900
BSC6900
GCELLCCUTRANSYS
POS2QUATER
2Quater Message Transmission Channel
GCELLCHMGAD
IDTYPE
Index Type
BSC6900
GCELLCHMGAD
CELLID
Cell Index
BSC6900
GCELLCHMGAD
CELLNAME
Cell Name
BSC6900
GCELLCHMGAD
TCHBUSYTHRES
TCH Traffic Busy Threshold
BSC6900
GCELLCHMGAD
INTERFPRIALLOW
Interf. Priority Allowed
BSC6900
GCELLCHMGAD
CHANINTERMESALLOW
Active CH Interf. Meas.Allowed
BSC6900
GCELLCHMGAD
TRXPRIALLOW
Allocation TRX Priority Allowed
BSC6900
GCELLCHMGAD
HISPRIOALLOW
History Record Priority Allowed
BSC6900
BSC6900
GCELLCHMGAD
LOADSHAREALLOW
Balance Traffic Allowed
BSC6900
GCELLCHMGAD
UPINTERLEVLIMIT
Interf.of UL Level Threshold
BSC6900
GCELLCHMGAD
UPINTERFQUALLIMIT
Interf.of UL Qual. Threshold
BSC6900
GCELLCHMGAD
DLINTERFLEVLIMIT
Interf.of DL Level Threshold
BSC6900
GCELLCHMGAD
DLINTERFQUALLIMIT
Interf.of DL Qual.Threshold
BSC6900
GCELLCHMGAD
SSLENSD
Filter Length for TCH Level
BSC6900
GCELLCHMGAD
QLENSD
Filter Length for TCH Qual.
BSC6900
GCELLCHMGAD
SSLENSI
Filter Length for SDCCH Level
BSC6900
GCELLCHMGAD
QLENSI
Filter Length for SDCCH Qual.
BSC6900
GCELLCHMGAD
AMRTCHHPRIORALLOW
AMR TCH/H Prior Allowed
BSC6900
GCELLCHMGAD
AMRTCHHPRIORLOAD
AMR TCH/H Prior Cell Load Threshold BSC6900
GCELLCHMGAD
TCHTRICBUSYOVERLAYTHR
Tch Traffic Busy Overlay Threshold
BSC6900
TCHTRIBUSYUNDERLAYTHR
Tch Traffic Busy Underlay Threshold BSC6900
HRIUOLDRATESELALLOW
Load of UL-OL Cells Rate Select Allowed
BSC6900
UPRXLEVSMOOTHPARA
Smooth Factor of Uplink Received Level
BSC6900
UPRXLEVLASTTIME
Duration of Uplink Received Level Differ
BSC6900
GCELLCHMGAD
UPRXLEVSTATICTIME
Observe Time of UL RX Level Difference
BSC6900
GCELLCHMGAD
QTRUPWRSHARE
Multi-Density TRX Power Sharing
BSC6900
GCELLCHMGAD
MCPAOPTALG
MCPA Optimization Switch BSC6900
GCELLCHMGAD
GCELLCHMGAD
GCELLCHMGAD
GCELLCHMGAD
QTRUDNPWRSTATTIME
Qtru Down Power Inadequate Stat Time
BSC6900
GCELLCHMGAD
QTRUDNPWRLASTTIME
Qtru Down Power Inadequate Last Time
BSC6900
GCELLCHMGAD
PWRPRIORALLOW
Power Priority Allowed
BSC6900
GCELLCHMGAD
Level Thresh for TIGHTBCCHASSMAINBCCHLE Assign BCCH V Under TBCCH
GCELLCHMGAD
BSC6900
GCELLCHMGAD
Quality Thresh for TIGHTBCCHASSMAINBCCHQU Assign BCCH AL Under TBCCH
Channel Assign Allow for Insuff Power
GCELLCHMGAD
CHPWRINSUFFALLOWED
GCELLCHMGAD
GSM900 Band FREQLOADSHARETRAFFTHRS Traffic Load Share H Threshold
BSC6900
BSC6900
BSC6900
GCELLCHMGAD
NAMRLFRMTRXALLOWED
Assign Non-AMR User Loose Fre. Reuse TRX
GCELLCHMGAD
IBCAALLOWED
IBCA Allowed
GCELLCHMGAD
IBCA User Dyn IBCAUSRDYNCMEASURENCEL Measure Neighbor L Cell
BSC6900
GCELLCHMGAD
IBCAUSEDIUOSUBLAY
IUO IBCA Allowed
BSC6900
GCELLCHMGAD
IBCASOFTBLKSWITCH
IBCA Soft Block Switch
BSC6900
GCELLCHMGAD
IBCAFRSOFTBLKTHRD
IBCA FR/EFR Soft Block Threshold
BSC6900
GCELLCHMGAD
IBCAHRSOFTBLKTHRD
IBCA HR Soft Block Threshold BSC6900
BSC6900
BSC6900
GCELLCHMGAD
IBCAAFRSOFTBLKTHRD
IBCA AMR FR Soft Block Threshold BSC6900
GCELLCHMGAD
IBCAAHRSOFTBLKTHRD
IBCA AMR HR Soft Block Threshold BSC6900
GCELLCHMGAD
IBCAWAFRSOFTBLKTHRD
IBCA WAMR FR Soft Block Threshold
BSC6900
GCELLCHMGAD
IBCASOFTBLKSAICOFF
IBCA Soft Block SAIC Offset
BSC6900
GCELLCHMGAD
IBCAMAXINTFSRCNUM
IBCA Max. Interference Source Num. BSC6900
GCELLCHMGAD
IBCADLPATHLOSSOFF
IBCA Downlink Path Loss Offset BSC6900
GCELLCHMGAD
IBCAIUOPATHLOSSOFF
IBCA IUO Path Loss Offset
BSC6900
GCELLCHMGAD
IBCASCELLPATHLOSS
IBCA Service Cell Pathloss
BSC6900
GCELLCHMGAD
IBCAPATHLOSSOFF
IBCA Pathloss Offset
BSC6900
GCELLCHMGAD
IBCACALLINFOFILTERLEN
IBCA Call Information Filter
BSC6900
LOOSESDCCHLOADTHRED
IBCA Loose Trx SDCCH Load Threshold
BSC6900
TIGHTSDCCHRXLEVTHRED
IBCA Tight Trx SDCCH Rxlev Threshold
BSC6900
GCELLCHMGAD
GCELLCHMGAD
GCELLCHMGAD
WAITSDCCHIDLETIMER
IBCA Wait SDCCH Idle Timer BSC6900
GCELLCHMGAD
IBCAICDMSWITCH
IBCA ICDM Switch BSC6900
GCELLCHMGAD
IBCAPLFILTFACTOR
IBCA Path Lose Filter Factor
GCELLCHMGAD
IBCANCELLPATHLOSSESTIMA IBCA Pathloss Est TE of Non. MR Ncell
BSC6900
BSC6900
GCELLCHMGAD
IBCA Non Measurement Ncell IBCANONMEANCELLSTATNUM Stat. Num BSC6900
GCELLCHMGAD
IBCAMAIOUSMTD
IBCA MAIO Using Method
BSC6900
GCELLCHMGAD
IBCATARGETCIRTHRSH
IBCA MAIO Target C/I Threshold
BSC6900
IBCAINITPCRXLEVDLOFFSET
IBCA Init. Power Control RexLevDL Offset
BSC6900
GCELLCHMGAD
IBCAINITPCRXLEVULOFFSET
IBCA Init. Power Control RexLevUL Offset
BSC6900
GCELLCHMGAD
IBCA Init. Pwr Ctrl IBCAINITPCRXQUALDLOFFSET Rx Qual DL Offset
BSC6900
GCELLCHMGAD
IBCA Init. Pwr Ctrl IBCAINITPCRXQUALULOFFSET Rx Qual UL Offset
BSC6900
GCELLCHMGAD
Allocate OL Channel Based on LOWRXLEVOLFORBIDSWITCH RX Level
BSC6900
GCELLCHMGAD
GCELLCHMGAD
GCELLCHMGAD
ASSOLRXLEVOFFSET
Assign to Overlayer RxLev Offset BSC6900
HOOLRXLEVOFFSET
Handover to Overlayer RxLev Offset
BSC6900
GCELLCHMGAD
IBCASUBCHNHANDOVERALLO IBCA Sub-Channel WED Handover Allowed BSC6900
GCELLCHMGAD
IBCA Forced BTS IBCAFORCEDBTSSYNCALLOW Synchronization ED Allowed
GCELLCHMGAD
IBCAFLEXTSCALLOWED
GCELLCHMGAD
IBCAASSWAITMEASURERPTTI IBCA Assign ME Waiting Mr Time
IBCA Flexible TSC Allowed
BSC6900
BSC6900
BSC6900
GCELLCHMGAD
IBCANHOASSWAITMEASURER IBCA Natural HO PTTIME Waiting Mr Time
BSC6900
GCELLCHMGAD
IBCAEHOASSWAITMEASURER IBCA Urgent HO PTTIME Waiting Mr Time
BSC6900
GCELLCHMGAD
IBCAHOASSWAITMEASURERP IBCA HO Waiting TTIME Effective Mr Time
BSC6900
GCELLCHMGAD
CIRESTVALUE
C/I Estimate Value
BSC6900
GCELLCHMGAD
IBCANEWCALLCIROFFSET
Target CIR Offset of IBCA New Call
BSC6900
GCELLCHMGAD
IBCAOPRREVISEFACTOR
Corrected Factor of IBCA Priority BSC6900
GCELLCHMGAD
Target CIR Offset IBCACALLTARGETCIROFFSET of IBCA Set-up Call BSC6900
GCELLCHMGAD
IBCA Set-up Call IBCACALLSOFTBLOCKTHOFFS Soft Block ET Threshold Offset
BSC6900
GCELLCHMGAD
IBCAICDMRELEVOFFSET
IBCA ICDM Initial Level Offset
BSC6900
GCELLCHMGAD
CELLOPPWRGRP
Cell Operator Power Group
BSC6900
GCELLCHMGAD
IBCAFREEBCCHCHANTHRSHO Idle TCH Threshold LD on BCCH TRX BSC6900
GCELLCHMGAD
IBCA Handover Soft Block IBCAHOSOFTBLKTHRESHOLD Threshold Offset
GCELLCHMGAD
LOADSTATYPE
Type of Cell Load Calculation
BSC6900
BSC6900
GCELLCHMGBASIC
IDTYPE
Index Type
BSC6900
GCELLCHMGBASIC
CELLID
Cell Index
BSC6900
GCELLCHMGBASIC
CELLNAME
Cell Name
BSC6900
GCELLCHMGBASIC
IDLESDTHRES
Idle SDCCH Threshold N1
BSC6900
GCELLCHMGBASIC
CELLMAXSD
Cell SDCCH Channel Maximum
BSC6900
GCELLCHMGBASIC
MINRESTIMETCH
TCH Minimum Recovery Time
GCELLCHMGBASIC
GRADEACCALLOW
Grade Access Allow BSC6900
GCELLCHMGBASIC
HPRIOR
Highest Priority
BSC6900
GCELLCHMGBASIC
REVCHANNUM
Reserved Channel Number
BSC6900
GCELLCHMGBASIC
ENTCHADJALLOW
Enhanced TCH Adjust Allowed
BSC6900
BSC6900
TIGHTBCCHSWITCH
TIGHT BCCH Switch
BSC6900
GCELLCHMGBASIC
DYNPBTSUPPORTED
Dynamic Transmission Div Supported
BSC6900
GCELLCHMGBASIC
CHALLOCSTRATEGY
Channel Allocate Strategy
BSC6900
GCELLCHMGBASIC
HIGHPRIUSERQUALFIRST
Highest Priority User Quality First
BSC6900
HIGHESTPRIORITQUALFIRST
Highest Priority for Quality First
BSC6900
GCELLCHMGBASIC
GCELLCHMGBASIC
GCELLCHMGBASIC
ALLOWHALFRATEUSERPERC
Ratio of TCHH
GCELLCHMGBASIC
ALLOWAMRHALFRATEUSERP ERC Ratio of AMR-HR
GCELLCHMGBASIC
RSVCHMFORECNUM
GCELLCHMGBASIC
Different Band DIFFBANDSDCCHUSINGOPTIM SDCCH Using IZE Optimize
BSC6900
GCELLCHMGBASIC
FACTORYMODE
BSC6900
Max Channel Num Reserved for EC
Factory Mode
BSC6900
BSC6900
BSC6900
GCELLDYNTURNOFF
IDTYPE
Index Type
BSC6900
GCELLDYNTURNOFF
CELLID
Cell Index
BSC6900
GCELLDYNTURNOFF
CELLNAME
Cell Name
BSC6900
GCELLDYNTURNOFF
TURNOFFENABLE
Enable Turning Off Cell BSC6900
GCELLDYNTURNOFF
SAMECVGCELLIDTYPE
Same Coverage Cell Index Type
BSC6900
GCELLDYNTURNOFF
SAMECVGCELLID
Same Coverage Cell No
BSC6900
GCELLDYNTURNOFF
SAMECVGCELLNAME
Same Coverage Cell Name
BSC6900
GCELLDYNTURNOFF
SAMECVGCELLLOADTHRD
Same Coverage Cell Load Threshold BSC6900
GCELLDYNTURNOFF
TURNONCELLLOADTHRD
Dyn. Turning On Cell Load Threshold BSC6900
TURNOFFCELLCHANNUM
Dyn. Turning Off Cell Busy Channel Num.
BSC6900
PROTECTTIME
Dyn. Turning Off Cell Protection Time
BSC6900
SAMECVGCELLLOADSTATTM
Same Coverage Cell Load Stat. Time
BSC6900
GCELLDYNTURNOFF
GCELLDYNTURNOFF
GCELLDYNTURNOFF
GCELLDYNTURNOFF
TURNOFFCELLSTRTIME
Dyn. Turning Off Cell Start Time
BSC6900
GCELLDYNTURNOFF
TURNOFFCELLSTPTIME
Dyn. Turning Off Cell Stop Time
BSC6900
GCELLEGPRSPARA
IDTYPE
Index Type
BSC6900
GCELLEGPRSPARA
CELLID
Cell Index
BSC6900
GCELLEGPRSPARA
CELLNAME
Cell Name
BSC6900
GCELLEGPRSPARA
LQCMODE
Link Quality Control Mode BSC6900
GCELLEGPRSPARA
BEPPERIOD
Bep Period
BSC6900
GCELLEGPRSPARA
UPFIXMCS
Uplink Fixed MCS Type
BSC6900
GCELLEGPRSPARA
UPDEFAULTMCS
Uplink Default MCS Type BSC6900
GCELLEGPRSPARA
DNFIXMCS
Downlink Fixed MCS Type
BSC6900
GCELLEGPRSPARA
DNDEFAULTMCS
Downlink Default MCS Type
BSC6900
GCELLEGPRSPARA
UPE2AFIXMCS
Uplink EGPRS2-A Fixed MCS Type
BSC6900
GCELLEGPRSPARA
UPE2ADEFAULTMCS
Uplink EGPRS2-A Default MCS Type
BSC6900
DNE2AFIXMCS
Downlink EGPRS2A Fixed MCS Type BSC6900
DNE2ADEFAULTMCS
Downlink EGPRS2A Default MCS Type BSC6900
GCELLEGPRSPARA
ADJUSTULMCSTYPE
Support EGPRS Uplink MCS Dynamic Adjust
BSC6900
GCELLEXTMSRPARA
IDTYPE
Index Type
BSC6900
GCELLEXTMSRPARA
CELLID
Cell Index
BSC6900
GCELLEGPRSPARA
GCELLEGPRSPARA
GCELLEXTMSRPARA
CELLNAME
Cell Name
BSC6900
GCELLEXTMSRPARA
EXTMEASORD
Extension Measurement Command
BSC6900
GCELLEXTMSRPARA
NCCPERMITED
NCC Permitted
BSC6900
GCELLEXTMSRPARA
INTFREQUENCY
Interference Frequency
BSC6900
GCELLEXTMSRPARA
EXTRPTTYPE
Extension MR Type BSC6900
GCELLEXTMSRPARA
EXTRPTPERIOD
Extension MR Period
BSC6900
GCELLFREQ
IDTYPE
Index Type
BSC6900
GCELLFREQ
CELLID
Cell Index
BSC6900
GCELLFREQ
CELLNAME
Cell Name
BSC6900
GCELLFREQ
FREQ1
Frequency 1
BSC6900
GCELLFREQ
FREQ2
Frequency 2
BSC6900
GCELLFREQ
FREQ3
Frequency 3
BSC6900
GCELLFREQ
FREQ4
Frequency 4
BSC6900
GCELLFREQ
FREQ5
Frequency 5
BSC6900
GCELLFREQ
FREQ6
Frequency 6
BSC6900
GCELLFREQ
FREQ7
Frequency 7
BSC6900
GCELLFREQ
FREQ8
Frequency 8
BSC6900
GCELLFREQ
FREQ9
Frequency 9
BSC6900
GCELLFREQ
FREQ10
Frequency 10
BSC6900
GCELLFREQ
FREQ11
Frequency 11
BSC6900
GCELLFREQ
FREQ12
Frequency 12
BSC6900
GCELLFREQ
FREQ13
Frequency 13
BSC6900
GCELLFREQ
FREQ14
Frequency 14
BSC6900
GCELLFREQ
FREQ15
Frequency 15
BSC6900
GCELLFREQ
FREQ16
Frequency 16
BSC6900
GCELLFREQ
FREQ17
Frequency 17
BSC6900
GCELLFREQ
FREQ18
Frequency 18
BSC6900
GCELLFREQ
FREQ19
Frequency 19
BSC6900
GCELLFREQ
FREQ20
Frequency 20
BSC6900
GCELLFREQ
FREQ21
Frequency 21
BSC6900
GCELLFREQ
FREQ22
Frequency 22
BSC6900
GCELLFREQ
FREQ23
Frequency 23
BSC6900
GCELLFREQ
FREQ24
Frequency 24
BSC6900
GCELLFREQ
FREQ25
Frequency 25
BSC6900
GCELLFREQ
FREQ26
Frequency 26
BSC6900
GCELLFREQ
FREQ27
Frequency 27
BSC6900
GCELLFREQ
FREQ28
Frequency 28
BSC6900
GCELLFREQ
FREQ29
Frequency 29
BSC6900
GCELLFREQ
FREQ30
Frequency 30
BSC6900
GCELLFREQ
FREQ31
Frequency 31
BSC6900
GCELLFREQ
FREQ32
Frequency 32
BSC6900
GCELLFREQ
FREQ33
Frequency 33
BSC6900
GCELLFREQ
FREQ34
Frequency 34
BSC6900
GCELLFREQ
FREQ35
Frequency 35
BSC6900
GCELLFREQ
FREQ36
Frequency 36
BSC6900
GCELLFREQ
FREQ37
Frequency 37
BSC6900
GCELLFREQ
FREQ38
Frequency 38
BSC6900
GCELLFREQ
FREQ39
Frequency 39
BSC6900
GCELLFREQ
FREQ40
Frequency 40
BSC6900
GCELLFREQ
FREQ41
Frequency 41
BSC6900
GCELLFREQ
FREQ42
Frequency 42
BSC6900
GCELLFREQ
FREQ43
Frequency 43
BSC6900
GCELLFREQ
FREQ44
Frequency 44
BSC6900
GCELLFREQ
FREQ45
Frequency 45
BSC6900
GCELLFREQ
FREQ46
Frequency 46
BSC6900
GCELLFREQ
FREQ47
Frequency 47
BSC6900
GCELLFREQ
FREQ48
Frequency 48
BSC6900
GCELLFREQ
FREQ49
Frequency 49
BSC6900
GCELLFREQ
FREQ50
Frequency 50
BSC6900
GCELLFREQ
FREQ51
Frequency 51
BSC6900
GCELLFREQ
FREQ52
Frequency 52
BSC6900
GCELLFREQ
FREQ53
Frequency 53
BSC6900
GCELLFREQ
FREQ54
Frequency 54
BSC6900
GCELLFREQ
FREQ55
Frequency 55
BSC6900
GCELLFREQ
FREQ56
Frequency 56
BSC6900
GCELLFREQ
FREQ57
Frequency 57
BSC6900
GCELLFREQ
FREQ58
Frequency 58
BSC6900
GCELLFREQ
FREQ59
Frequency 59
BSC6900
GCELLFREQ
FREQ60
Frequency 60
BSC6900
GCELLFREQ
FREQ61
Frequency 61
BSC6900
GCELLFREQ
FREQ62
Frequency 62
BSC6900
GCELLFREQ
FREQ63
Frequency 63
BSC6900
GCELLFREQ
FREQ64
Frequency 64
BSC6900
GCELLFREQSCAN
IDTYPE
Index Type
BSC6900
GCELLFREQSCAN
CELLID
Cell Index
BSC6900
GCELLFREQSCAN
CELLNAME
Cell Name
BSC6900
GCELLFREQSCAN
STRTM
Start Time
BSC6900
GCELLFREQSCAN
TIME
Duration
BSC6900
GCELLFREQSCAN
FREQLST
Freq Band List
BSC6900
GCELLGPRS
IDTYPE
Index Type
BSC6900
GCELLGPRS
CELLID
Cell Index
BSC6900
GCELLGPRS
CELLNAME
Cell Name
BSC6900
GCELLGPRS
GPRS
GPRS
BSC6900
GCELLGPRS
EDGE
EDGE
BSC6900
GCELLGPRS
EGPRS2A
EGPRS2-A
BSC6900
GCELLGPRS
PCUNO
PCU No.
BSC6900
GCELLGPRS
NACCSPT
Support NACC
BSC6900
GCELLGPRS
PKTSI
PACKET SI
BSC6900
GCELLGPRS
NC2SPT
Support NC2
BSC6900
GCELLGPRS
NBRSPT64
Support 64 Neighbour Cells
BSC6900
GCELLGPRS
RA
Routing Area
BSC6900
GCELLGPRS
SUPPORTDTM
Support DTM
BSC6900
GCELLGPRS
SUPPORTENDTM
Support Enhanced DTM
BSC6900
GCELLGPRS
CLASS11DTM
Support Class11 DTM
BSC6900
GCELLGPRS
HMCDTM
Support HMC DTM BSC6900
GCELLGPRS
DLDCSPT
Support Downlink Dual-Carrier
BSC6900
GCELLGPRS
SPTREDUCELATENCY
Support Reduced Latency Capability
BSC6900
GCELLGPRS
GCELLGPRS
GCELLGPRS
SPTINTERRATOUTBSCPSHO
Support Out InterRAT Inter-Cell PS Handover
BSC6900
SPTINTERRATINBSCPSHO
Support In InterRAT Inter-cell PS Handover
BSC6900
SPTLTEINBSCPSHO
Support In LTE Inter-cell PS Handover
BSC6900
GCELLGPRS
SPTLTEOUTBSCPSHO
Support Out LTE Inter-cell PS Handover
GCELLGPRS
SPTDPI
Support DPI
BSC6900
GCELLGSMR
IDTYPE
Index Type
BSC6900
GCELLGSMR
CELLID
Cell Index
BSC6900
GCELLGSMR
CELLNAME
Cell Name
BSC6900
GCELLGSMR
NCHOCBLOCKNUM
NCH Occupy Block Number BSC6900
BSC6900
GCELLGSMR
NCHSTARTBLOCK
NCH Start Block
BSC6900
FACCHSENDNOTMSGIND
FACCH Send Notification Msg Indication
BSC6900
GCELLGSMR
FACCHSENDPGMSGIND
FACCH Send Paging Msg Indication
BSC6900
GCELLGSMR
SENDFACCHNOTPRI
Send FACCH Notification Priority
BSC6900
GCELLGSMR
SENDFACCHPAGPRI
Send FACCH Paging Priority
BSC6900
GCELLGSMR
DLTESTRESENDNUM
Download Test Resend Number
BSC6900
GCELLGSMR
DLTESTRESENDINT
Download Test Resend Interval
BSC6900
GCELLGSMR
GCELLGSMR
DTRTYPE
DRX Type
BSC6900
GCELLGSMR
FACCHRESENDINT
FACCH Msg Resend Interval
BSC6900
GCELLGSMR
CRMSGRESENDNUM
Channel Release Resend Number
BSC6900
GCELLGSMR
CRMSGRESENDINT
Channel Release Resend Interval
BSC6900
GCELLGSMR
TALKERINFINT
Talker Info Interval
BSC6900
GCELLGSMR
T3115
T3115
BSC6900
GCELLGSMR
NY2
Ny2
BSC6900
GCELLGSMR
GCSIMPREEMPTIONEN
VGCS IM Preemption Enable BSC6900
GCELLGSMR
GCSCHNASSULCHNEN
VGCS Channel Assign in Channel Enable
GCELLGSMR
UIC
UIC
BSC6900
GCELLGSMR
EMLPPPRIORITY
eMLPP Priority
BSC6900
VGCSRSRVNUM
Reserved Number of Channels for VGCS
BSC6900
GCELLGSMR
VGCSMAXNUM
Maximum Number of Channels for VGCS
BSC6900
GCELLGSMR
VGCSPREEMPT
Channel Allocation Strategy for VGCS
BSC6900
GCELLHO2GBA2
IDTYPE
Index Type
BSC6900
GCELLHO2GBA2
CELLID
Cell Index
BSC6900
GCELLGSMR
BSC6900
GCELLHO2GBA2
CELLNAME
Cell Name
BSC6900
GCELLHO2GBA2
CELL2GBA2TAG
2GBA2 Input Tag
BSC6900
GCELLHO2GBA2
ITEM
NCCELL No.
BSC6900
GCELLHO2GBA2
ITEMVALID
Item Valid
BSC6900
GCELLHO2GBA2
CELL2GBA2BCCH
2G NCELL BCCH
BSC6900
GCELLHOAD
IDTYPE
Index Type
BSC6900
GCELLHOAD
CELLID
Cell Index
BSC6900
GCELLHOAD
CELLNAME
Cell Name
BSC6900
GCELLHOAD
SYSFLOWLEV
System Flux Threshold for Load HO BSC6900
GCELLHOAD
TRIGTHRES
Load HO Threshold BSC6900
GCELLHOAD
LoadAccThres
Load handover Load Accept Threshold
BSC6900
GCELLHOAD
LOADOFFSET
Load HO Bandwidth BSC6900
GCELLHOAD
LOADHOPERIOD
Load HO Step Period
BSC6900
GCELLHOAD
LOADHOSTEP
Load HO Step Level BSC6900
GCELLHOAD
QCKSTATCNT
MS Fast-moving Watch Cells
BSC6900
GCELLHOAD
QCKTRUECNT
MS Fast-moving Valid Cells
BSC6900
GCELLHOAD
QCKTIMETH
MS Fast-moving Time Threshold
BSC6900
GCELLHOAD
MAXCNTNUM
MAX Consecutive HO Times
BSC6900
BANTIME
Forbidden time after MAX Times BSC6900
GCELLHOAD
CONTINTV
Interval for Consecutive HO Jud.
GCELLHOAD
SPEEDPUNISH
Penalty on MS Fast Moving HO BSC6900
GCELLHOAD
SPEEDPUNISHT
Penalty Time on Fast Moving HO
BSC6900
GCELLHOAD
KBIAS
K Bias
BSC6900
GCELLHOAD
TIGHTBCCHRXQUALTHRES
RX_QUAL Threshold for TIGHT BCCH HO
BSC6900
GCELLHOAD
TIGHTBCCHHOLOADTHRES
Load Threshold for TIGHT BCCH HO BSC6900
GCELLHOAD
BSC6900
GCELLHOAD
MAXRESEND
Max Resend Times of Phy.Info. BSC6900
GCELLHOAD
T3105
T3105
BSC6900
GCELLHOAD
OutBscLoadHoEn
Inter BSC Load Information Allowed BSC6900
GCELLHOAD
SDCCHWaitMREn
Waiting for MR on SDCCH Switch
GCELLHOAD
SDCCHWaitMRTimeLen
Duration for Waiting MR on SDCCH BSC6900
BSC6900
GCELLHOAD
AssignBetterCellEn
Assigning Better Cell Allowed
BSC6900
ABCWaitMaxTime
Maximum Better Cell Assigning Duration
BSC6900
ABCUpQuality
Uplink Quality Threshold in Assigning Better Cell
BSC6900
GCELLHOAD
ABCDownQuality
Downlink Quality Threshold in Assigning Better Cell
BSC6900
GCELLHOAD
LOADHOAD
Enhanced Load HO Allowed BSC6900
GCELLHOAD
GCELLHOAD
LAYHOLOADTH
Inter-Layer HO Load Threshold
GCELLHOAD
LOADHOUSRRATIO
HO Ratio of Enhanced Load HO Algorithm BSC6900
GCELLHOBASIC
IDTYPE
Index Type
BSC6900
GCELLHOBASIC
CELLID
Cell Index
BSC6900
GCELLHOBASIC
CELLNAME
Cell Name
BSC6900
GCELLHOBASIC
HOCTRLSWITCH
Current HO Control Algorithm BSC6900
GCELLHOBASIC
COBSCMSCADJEN
Co-BSC/MSC Adj
BSC6900
GCELLHOBASIC
SIGCHANHOEN
SDCCH HO Allowed
BSC6900
GCELLHOAD
BSC6900
INTRACELLHOEN
Intracell HO Allowed
BSC6900
GCELLHOBASIC
INTRACELLFHHOEN
Intracell F-H HO Allowed
BSC6900
GCELLHOBASIC
LoadHoEn
Load Handover Support
BSC6900
GCELLHOBASIC
QCKMVHOEN
MS Fast Moving HO Allowed
BSC6900
GCELLHOBASIC
RXQCKFALLHOEN
Rx_Level_Drop HO Allowed BSC6900
GCELLHOBASIC
GCELLHOBASIC
PBGTHOEN
PBGT HO Allowed
BSC6900
GCELLHOBASIC
LEVHOEN
Level HO Allowed
BSC6900
GCELLHOBASIC
FRINGEHOEN
Edge HO Allowed
BSC6900
GCELLHOBASIC
BQHOEN
BQ HO Allowed
BSC6900
GCELLHOBASIC
TAHOEN
TA HO Allowed
BSC6900
GCELLHOBASIC
CONHOEN
Concentric Circles HO Allowed
BSC6900
GCELLHOBASIC
INTERFHOEN
Interference HO Allowed
BSC6900
GCELLHOBASIC
ULEDGETHRES
Edge HO UL RX_LEV Threshold BSC6900
GCELLHOBASIC
DLEDGETHRES
Edge HO DL RX_LEV Threshold BSC6900
EDGESTAT
Handover Algorithm II Edge HO Watch Time BSC6900
EDGELAST
Handover Algorithm II Edge HO Valid Time BSC6900
GCELLHOBASIC
GCELLHOBASIC
GCELLHOBASIC
INFHHOSTAT
Intracell F-H HO Stat Time
BSC6900
GCELLHOBASIC
INFHHOLAST
Intracell F-H HO Last Time
BSC6900
GCELLHOBASIC
INHOF2HTH
F2H HO Threshold BSC6900
GCELLHOBASIC
INHOH2FTH
H2F HO Threshold BSC6900
GCELLHOBASIC
HOTHRES
Inter-layer HO Threshold
BSC6900
GCELLHOBASIC
LEVHOHYST
Inter-layer HO Hysteresis
BSC6900
GCELLHOBASIC
HOCDCMINUPPWR
Min UL Level on Candidate Cell
BSC6900
GCELLHOBASIC
HOCDCMINDWPWR
Min DL Level on Candidate Cell
BSC6900
GCELLHOBASIC
TIGHTBCCHHOSTATTIME
TIGHT BCCH HO Watch Time
BSC6900
GCELLHOBASIC
TIGHTBCCHHOLASTTIME
TIGHT BCCH HO Valid Time
BSC6900
GCELLHOBASIC
QUICKHOEN
Quick Handover Enable
BSC6900
GCELLHOBASIC
ATCBHOEN
Concentric Circles ATCB HO Allowed
BSC6900
GCELLHOBASIC
INTERFERESTATTIME
Interfere HO Static Time
BSC6900
GCELLHOBASIC
INTERFERELASTTIME
Interfere HO Valid Time
BSC6900
GCELLHOBASIC
BETTERCELLHOEN
Better Cell Handover Enable
BSC6900
GCELLHOBASIC
AMRFULLTOHALFHOALLOW
AMR F-H Ho Allowed
BSC6900
GCELLHOBASIC
AMRFULLTOHALFHOTHRESH
AMR F-H Traffic Threshold
BSC6900
GCELLHOBASIC
FULLTOHALFHODURATION
F-H Ho Duration
BSC6900
GCELLHOBASIC
FULLTOHALFHOPERIOD
F-H Ho Period
BSC6900
GCELLHOBASIC
AMR F-H Ho AMRFULLTOHALFHOPATHADJ Pathloss Adjust STEP Step
GCELLHOBASIC
AMRFULLTOHALFHOATCBADJ AMR F-H Ho ATCB STEP Adjust Step BSC6900
GCELLHOBASIC
AMRFULLTOHALFHOPATHTHR AMR F-H Ho ESH Pathloss Threshold BSC6900
GCELLHOBASIC
F-H Pathloss Offset FULLTOHALFHOPATHOFFSET Overlay BSC6900
GCELLHOBASIC
AMRFULLTOHALFHOATCBTHR AMR F-H Ho ATCB ESH Threshold BSC6900
GCELLHOBASIC
F-H ATCB Offset FULLTOHALFHOATCBOFFSET Overlay
BSC6900
BSC6900
GCELLHOBASIC
AMRFULLTOHALFHOQUALTHR AMR F-H Ho Qual. ESH Threshold BSC6900
GCELLHOBASIC
FULLTOHALFHOSTATTIME
F-H Ho Stat. Time
BSC6900
GCELLHOBASIC
FULLTOHALFHOLASTTIME
F-H Ho Last Time
BSC6900
GCELLHOBASIC
AMRHALFTOFULLHOTHRESH
AMR H-F Traffic Threshold
BSC6900
GCELLHOBASIC
AMRHALFTOFULLHOQUALALL Allow AMR H-F OW Quality-based HO
BSC6900
GCELLHOBASIC
HALFTOFULLHODURATION
BSC6900
GCELLHOBASIC
AMRHALFTOFULLHOATCBTHR AMR H-F Ho ATCB ESH Threshold BSC6900
H-F Ho Duration
H-F ATCB Offset Overlay
GCELLHOBASIC
HALFTOFULLATCBOFFSET
GCELLHOBASIC
AMRHALFTOFULLHOPATHTHR AMR H-F Ho ESH Pathloss Threshold BSC6900
GCELLHOBASIC
H-F Pathloss Offset HALFTOFULLHOPATHOFFSET Overlay BSC6900
GCELLHOBASIC
AMRHALFTOFULLHOQUALTHR AMR H-F Ho Qual. ESH Threshold BSC6900
GCELLHOBASIC
HALFTOFULLHOSTATTIME
H-F Ho Stat. Time
BSC6900
BSC6900
GCELLHOBASIC
HALFTOFULLHOLASTTIME
H-F Ho Last Time
BSC6900
GCELLHOBASIC
NOAMRFULLTOHALFHOALLO W
Non-AMR F-H Ho Allowed
BSC6900
GCELLHOBASIC
NOAMRFULLTOHALFTHRESH
Non-AMR F-H Traffic Threshold
BSC6900
GCELLHOBASIC
Non-AMR F-H Ho NOAMRFULLTOHALFHOPATHA Pathloss Adjust DJSTEP Step
BSC6900
GCELLHOBASIC
NOAMRFULLTOHALFHOATCBA Non-AMR F-H Ho DJSTEP ATCB Adjust Step
BSC6900
GCELLHOBASIC
NOAMRFULLTOHALFHOPATHT Non-AMR F-H Ho HRESH Pathloss Threshold BSC6900
GCELLHOBASIC
NOAMRFULLTOHALFHOATCBT Non-AMR F-H Ho HRESH ATCB Threshold
BSC6900
GCELLHOBASIC
NOAMRFULLTOHALFHOQUALT Non-AMR F-H Ho HRESH Qual. Threshold
BSC6900
GCELLHOBASIC
NOAMRHALFTOFULLTHRESH
Non-AMR H-F Traffic Threshold
GCELLHOBASIC
NOAMRHALFTOFULLHOQUAL ALLOW
Allow Non-AMR H-F Quality-based HO BSC6900
GCELLHOBASIC
NOAMRHALFTOFULLHOATCBT Non-AMR H-F Ho HRESH ATCB Threshold
BSC6900
BSC6900
GCELLHOBASIC
NOAMRHALFTOFULLHOPATHT Non-AMR H-F Ho HRESH Pathloss Threshold BSC6900
GCELLHOBASIC
NOAMRHALFTOFULLHOQUALT Non-AMR H-F Ho HRESH Qual. Threshold
GCELLHOBASIC
INTERRATOUTBSCHOEN
Inter-RAT Out BSC Handover Enable BSC6900
INTERRATINBSCHOEN
Inter-RAT In BSC Handover Enable
BSC6900
GCELLHOBASIC
InterRatIurgInBscHoEn
Allow Incoming BSC Handover at Iur-g
BSC6900
GCELLHOBASIC
InterRatIurgVoiceCarryEn
Carry Speech Data at Iur-g BSC6900
GCELLHOBASIC
INTERRATCELLRESELEN
Inter-RAT Cell Reselection Enable BSC6900
GCELLHOBASIC
PATHLOSSHOEN
Pathloss Ho. Enable
EDGESTAT1
Handover Algorithm I Edge HO Watch Time BSC6900
GCELLHOBASIC
GCELLHOBASIC
BSC6900
BSC6900
GCELLHOBASIC
EDGELAST1
Handover Algorithm I Edge HO Valid Time BSC6900
GCELLHOBASIC
LTECELLRESELEN
LTE Cell Reselection Allowed BSC6900
GCELLHOBASIC
SRVCCHOEN
SRVCC Handover Allowed
BSC6900
GCELLHOBASIC
LTESAIMCC
LTE SAI MCC
BSC6900
GCELLHOBASIC
LTESAIMNC
LTE SAI MNC
BSC6900
GCELLHOBASIC
LTESAILAC
LTE SAI LAC
BSC6900
GCELLHOBASIC
LTESAISAC
LTE SAI SAC
BSC6900
GCELLHOCTRL
IDTYPE
Index Type
BSC6900
GCELLHOCTRL
CELLID
Cell Index
BSC6900
GCELLHOCTRL
CELLNAME
Cell Name
BSC6900
GCELLHOCTRL
TCHHOMININTV
Min Interval for TCH Hos BSC6900
GCELLHOCTRL
SDHOMININTV
Min Interval for SDCCH Hos
BSC6900
GCELLHOCTRL
CONTHOMININTV
Min Interval for Consecutive HOs
BSC6900
GCELLHOCTRL
NEWURGHOMININTV
Min Interval for Emerg. HO
BSC6900
GCELLHOCTRL
INRBSCSDHOEN
Inter-BSC SDCCH HO ALLowed
BSC6900
GCELLHOCTRL
PENALTYEN
Penalty Allowed
BSC6900
GCELLHOCTRL
BTSMESRPTPREPROC
MR.Preprocessing
BSC6900
GCELLHOCTRL
PRIMMESPPT
Transfer Original MR
BSC6900
GCELLHOCTRL
BSMSPWRLEV
Transfer BTS/MS Power Class
BSC6900
GCELLHOCTRL
MRPREPROCFREQ
Sent Freq.of preprocessed MR
BSC6900
GCELLHOCTRL
MINPWRLEVDIRTRY
Min Power Level For Directed Retry
BSC6900
GCELLHOEDBPARA
IDTYPE
Index Type
BSC6900
GCELLHOEDBPARA
CELLID
Cell Index
BSC6900
GCELLHOEDBPARA
CELLNAME
Cell Name
BSC6900
GCELLHOEDBPARA
OUTLOWLOADTHRED
UL Subcell Lower Load Threshold
BSC6900
OUTASSOPTEN
UL Subcell Assignment Optimization
BSC6900
GCELLHOEDBPARA
INNASSOPTEN
OL Subcell Assignment Optimization
BSC6900
GCELLHOEDBPARA
OUTGENOVERLDTHRED
UL Subcell General Overload Threshold BSC6900
GCELLHOEDBPARA
OUTSERIOVERLDTHRED
UL Subcell Serious Overload Threshold BSC6900
GCELLHOEDBPARA
GCELLHOEDBPARA
EDBSYSFLOWLEV
Subcell HO Allowed Flow Control Level BSC6900
ATCBTHRED
Distance Between Boundaries of Subcells
GCELLHOEDBPARA
ATCBHYST
Distance Hysteresis Between Boundaries BSC6900
GCELLHOEDBPARA
OUTLOADHOENABLE
Load HO Allowed
GCELLHOEDBPARA
BSC6900
BSC6900
GCELLHOEDBPARA
OUTLOADHOPERIOD
UL Subcell Load Hierarchical HO Periods
GCELLHOEDBPARA
OUTLOADHOSTEP
Step Length of UL Subcell Load HO
GCELLHOEDBPARA
OUTLOADHOMODPERI
GCELLHOEDBPARA
INNLOADHOEN
MOD Step LEN of UL Load HO Period BSC6900 Load HO of OL Subcell to UL Subcell BSC6900
GCELLHOEDBPARA
INNLOADHOPERI
OL Subcell Load Diversity HO Period BSC6900
GCELLHOEDBPARA
INNLOADHOSTEP
Step Length of OL Subcell Load HO
BSC6900
INTOINNREXLEVTHRED
Incoming OL Subcell HO Level TH
BSC6900
OUTINNREXLEVTHRED
Outgoing OL Subcell HO Level TH
BSC6900
HOPENALTYTIME
Inter UL/OL Subcells HO Penalty Time
BSC6900
GCELLHOEDBPARA
GCELLHOEDBPARA
GCELLHOEDBPARA
BSC6900
BSC6900
EDBSTATTIME
Total Number of Measurements
BSC6900
GCELLHOEDBPARA
EDBLASTTIME
Number of Satisfactory Measurements
BSC6900
GCELLHOEDBPARA
INNCELLEDGEHOEN
Inner Cell EDGE HO Enable
BSC6900
GCELLHOEDBPARA
INNSERIOVERLDTHRED
Inner Cell Serious OverLoad Thred
BSC6900
GCELLHOEMG
IDTYPE
Index Type
BSC6900
GCELLHOEMG
CELLID
Cell Index
BSC6900
GCELLHOEMG
CELLNAME
Cell Name
BSC6900
GCELLHOEMG
HOCTRLSWITCH
Current HO Control Algorithm BSC6900
GCELLHOEMG
TALIMIT
TA Threshold
GCELLHOEDBPARA
BSC6900
GCELLHOEMG
DLQUALIMIT
DL Qual. Threshold BSC6900
GCELLHOEMG
ULQUALIMIT
UL Qual. Threshold BSC6900
GCELLHOEMG
FLTPARAA1
Filter Parameter A1 BSC6900
GCELLHOEMG
FLTPARAA2
Filter Parameter A2 BSC6900
GCELLHOEMG
FLTPARAA3
Filter Parameter A3 BSC6900
GCELLHOEMG
FLTPARAA4
Filter Parameter A4 BSC6900
GCELLHOEMG
FLTPARAA5
Filter Parameter A5 BSC6900
GCELLHOEMG
FLTPARAA6
Filter Parameter A6 BSC6900
GCELLHOEMG
FLTPARAA7
Filter Parameter A7 BSC6900
GCELLHOEMG
FLTPARAA8
Filter Parameter A8 BSC6900
GCELLHOEMG
FLTPARAB
Filter Parameter B
BSC6900
GCELLHOEMG
NODLMRHOEN
No Dl Mr.HO Allowed
BSC6900
GCELLHOEMG
NODLMRHOQUALLIMIT
No Dl Mr.Ul Qual HO Limit
BSC6900
GCELLHOEMG
NODLMRHOALLOWLIMIT
Cons.No Dl Mr.HO Allowed Limit
BSC6900
GCELLHOFAST
IDTYPE
Index Type
BSC6900
GCELLHOFAST
CELLID
Cell Index
BSC6900
GCELLHOFAST
CELLNAME
Cell Name
BSC6900
GCELLHOFAST
HOUPTRIGE
Quick Handover Up Trigger Level BSC6900
GCELLHOFAST
HODOWNTRIGE
Quick Handover Down Trigger Level BSC6900
GCELLHOFAST
MOVESPEEDTHRES
Quick Move Speed Threshold BSC6900
SCELLFILTER
Serving Cell Filter Length MR Number BSC6900
NCELLFILTER
Neighbor Cell Filter Length MR Number BSC6900
GCELLHOFAST
IGNOREMRNUM
Ignore Measurement Report Number
BSC6900
GCELLHOFAST
TIMEPUNISH
Quick Handover Punish Time
BSC6900
GCELLHOFAST
HOPUNISHVALUE
Quick Handover Punish Value
BSC6900
GCELLHOFAST
HOOFFSET
Quick Handover Offset
BSC6900
MSLEVSTRQPBGT
EN Quick PBGT HO ALG When MS Leaves BTS BSC6900
GCELLHOFAST
GCELLHOFAST
GCELLHOFAST
HODIRFORECASTEN
Handover Direction Forecast Enable BSC6900
HODIRSTATIME
Handover Direction Forecast Statistic Times BSC6900
HODIRLASTTIME
Handover Direction Forecast Last Times BSC6900
GCELLHOFAST
AFCHOSTATTIME
Frequency Shift Handover Statistic Time
GCELLHOFAST
AFCHOLASTTIME
Frequency Shift Handover Duration BSC6900
GCELLHOFDDBA2
IDTYPE
Index Type
BSC6900
GCELLHOFDDBA2
CELLID
Cell Index
BSC6900
GCELLHOFAST
GCELLHOFAST
GCELLHOFAST
BSC6900
GCELLHOFDDBA2
CELLNAME
Cell Name
BSC6900
GCELLHOFDDBA2
FDDBA2TAG
FDDBA2 Input Tag BSC6900
GCELLHOFDDBA2
ITEM
NCCELL No.
BSC6900
GCELLHOFDDBA2
ITEMVALID
Item Valid
BSC6900
GCELLHOFDDBA2
DF
DL UARFCN
BSC6900
GCELLHOFDDBA2
SCRAMBLE
Scrambling Code or Cell Parameter Id BSC6900
GCELLHOFDDBA2
DIVERSITY
Diversity
BSC6900
GCELLHOFITPEN
IDTYPE
Index Type
BSC6900
GCELLHOFITPEN
CELLID
Cell Index
BSC6900
GCELLHOFITPEN
CELLNAME
Cell Name
BSC6900
GCELLHOFITPEN
HOCTRLSWITCH
Current HO Control Algorithm BSC6900
GCELLHOFITPEN
MRMISSCOUNT
Allowed MR Number Lost
BSC6900
DATASTRFLTLEN
Filter Length for TCH Level
BSC6900
GCELLHOFITPEN
DATAQUAFLTLEN
Filter Length for TCH Qual
BSC6900
GCELLHOFITPEN
SIGSTRFLTLEN
Filter Length for SDCCH Level
BSC6900
GCELLHOFITPEN
SIGQUAFLTLEN
Filter Length for SDCCH Qual
BSC6900
GCELLHOFITPEN
NCELLFLTLEN
Filter Length for Ncell RX_LEV
BSC6900
GCELLHOFITPEN
TAFLTLEN
Filter Length for TA BSC6900
GCELLHOFITPEN
FAILSIGSTRPUNISH
Penalty Level after HO Fail
BSC6900
GCELLHOFITPEN
SSBQPUNISH
Penalty Level after BQ HO
BSC6900
GCELLHOFITPEN
TIMEBQPUNISH
Penalty Time after BQ HO
BSC6900
GCELLHOFITPEN
SSTAPUNISH
Penalty Level after TA HO
BSC6900
GCELLHOFITPEN
TIMETAPUNISH
Penalty Time after TA HO
BSC6900
GCELLHOFITPEN
TIMEAMRFHPUNISH
Penalty Time after AMR TCHF-H HO Fail
BSC6900
GCELLHOFITPEN
RSCPENALTYTIMER
RscPenaltyTimer
BSC6900
GCELLHOFITPEN
UMPENALTYTIMER
UmPenaltyTimer
BSC6900
GCELLHOFITPEN
PENALTYTIMER
CfgPenaltyTimer
BSC6900
GCELLHOFITPEN
MBSIGNLEN
Filter Length for SDCCH MEAN_BEP
BSC6900
GCELLHOFITPEN
MBTRAFFLEN
Filter Length for TCH MEAN_BEP
BSC6900
GCELLHOFITPEN
CBSIGNLEN
Filter Length for SDCCH CV_BEP
BSC6900
GCELLHOFITPEN
CBTRAFFLEN
Filter Length for TCH CV_BEP
BSC6900
GCELLHOFITPEN
RQSIGNLEN
Filter Length for SDCCH REP_QUANT
BSC6900
GCELLHOFITPEN
RQTRAFFLEN
Filter Length for TCH REP_QUANT BSC6900
NRBSDCCHFFLEN
Filter Length for SDCCH NBR_RCVD_BLOC K BSC6900
GCELLHOFITPEN
GCELLHOFITPEN
GCELLHOFITPEN
NRBTCHFFLEN
Filter Length for TCH NBR_RCVD_BLOC K BSC6900
GCELLHOFITPEN
LOADHOPENTIME
Penalty Time on Load HO
BSC6900
GCELLHOFITPEN
LOADHOPENVALUE
Penalty Value on Load HO
BSC6900
GCELLHOFITPEN
INTERFEREHOPENTIME
Penalty Time on Interfere HO
BSC6900
GCELLHOFITPEN
NSIGSTRFLTLEN
NCell Filter Length for SDCCH Level
BSC6900
GCELLHOFITPEN
TASIGSTRFLTLEN
TA Filter Length for SDCCH Level BSC6900
GCELLHOINTERRATLDB IDTYPE
Index Type
BSC6900
GCELLHOINTERRATLDB CELLID
Cell Index
BSC6900
GCELLHOINTERRATLDB CELLNAME
GCELLHOINTERRATLDB OutSysLoadHoEn
Cell Name Allow Inter-RAT Load HO in Connect State
GCELLHOINTERRATLDB InterRatServiceLoadHoSwitch
Allow Inter-RAT Load HO in Access State BSC6900
GCELLHOINTERRATLDB UlLdrThrd2GCell
GCELLHOINTERRATLDB UlOlcThrd2GCell
GCELLHOINTERRATLDB DlLdrThrd2GCell
GCELLHOINTERRATLDB DlOlcThrd2GCell
GCELLHOINTERRATLDB InterRatCsServiceLoadHoThrd
2G Cell UL Basic Congest Thred 2G Cell UL Overload Congest Thred
2G Cell DL Basic Congest Thred 2G Cell DL Overload Congest Thred Inter-RAT CS Service HO Load Threshold
BSC6900
BSC6900
BSC6900
BSC6900
BSC6900
BSC6900
BSC6900
GCELLHOINTERRATLDB G2GLoadAdjustCoeff
2G Load Adjustment Coefficient
GCELLHOINTERRATLDB IntRATLoadHORSCPThr
Inter-RAT Load HO RSCP Threshold BSC6900
GCELLHOINTERRATLDB IntRATLoadHOEcNoThr
Inter-RAT Load HO EcNo Threshold BSC6900
BSC6900
GCELLHOINTERRATLDB InterRATLoadHoRSCPStep
Inter-RAT Hierarchical Load HO Period BSC6900 Inter-RAT Hierarchy Load HO Step [RSCP] BSC6900
GCELLHOINTERRATLDB InterRATLoadHoEcNoStep
Inter-RAT Hierarchy Load HO Step [EcNo] BSC6900
GCELLHOINTERRATLDB IntRATLoadHoPeriod
InterRATLoadHoRSCPBandWidt Inter-RAT Load HO GCELLHOINTERRATLDB h Bandwidth [RSCP] BSC6900 Inter-RAT Load HO GCELLHOINTERRATLDB InterRATLoadHoEcNoBandWidth Bandwidth [EcNo] BSC6900
GCELLHOINTERRATLDB InterRATLoadHoRSCPStart
Inter-RAT Load HO RSCP at Start Point BSC6900
GCELLHOINTERRATLDB InterRATLoadHoEcNoStart
Inter-RAT Load HO EcNo at Start Point BSC6900
GCELLHOIUO
IDTYPE
Index Type
BSC6900
GCELLHOIUO
CELLID
Cell Index
BSC6900
GCELLHOIUO
CELLNAME
Cell Name
BSC6900
GCELLHOIUO
HOCTRLSWITCH
Current HO Control Algorithm BSC6900
GCELLHOIUO
ULTOOLHOALLOW
UL to OL HO Allowed
BSC6900
GCELLHOIUO
OLTOULHOALLOW
OL to UL HO Allowed
BSC6900
GCELLHOIUO
RECLEVUOHOALLOW
RX_LEV for UO HO Allowed BSC6900
GCELLHOIUO
RECQUALUOHOALLOW
RX_QUAL for UO HO Allowed
BSC6900
GCELLHOIUO
TAFORUOHOALLOW
TA for UO HO Allowed
BSC6900
GCELLHOIUO
RECLEVTHRES
RX_LEV Threshold BSC6900
GCELLHOIUO
RECLEVHYST
RX_LEV Hysteresis BSC6900
GCELLHOIUO
RECQUALTH
RX_QUAL Threshold
BSC6900
GCELLHOIUO
TATHRES
TA Threshold
BSC6900
GCELLHOIUO
TAHYST
TA Hysteresis
BSC6900
GCELLHOIUO
IUOHOSTATIME
UO HO Watch Time
BSC6900
GCELLHOIUO
IUOHODURATIME
UO HO Valid Time
BSC6900
GCELLHOIUO
OPTILAYER
Assign Optimum Layer
BSC6900
GCELLHOIUO
OPTILEVTHRES
Assign-optimumlevel Threshold
BSC6900
GCELLHOIUO
OPTITATHRES
TA Threshold of Assignment Pref
BSC6900
GCELLHOIUO
IMMASSTAALLOW
TA Pref. of ImmeAssign Allowed
BSC6900
GCELLHOIUO
IMMASSTATHRES
TA Threshold of Imme-Assign Pref
BSC6900
GCELLHOIUO
HOALGOPERMLAY
Pref. Subcell in HO of Intra-BSC BSC6900
GCELLHOIUO
ACCESSOPTILAY
Incoming-to-BSC HO Optimum Layer BSC6900
GCELLHOIUO
OTOURECEIVETH
OtoU HO Received Level Threshold BSC6900
UTOORECTH
UtoO HO Received Level Threshold BSC6900
GCELLHOIUO
GCELLHOIUO
UTOOTRAFHOALLOW
UtoO Traffic HO Allowed
BSC6900
GCELLHOIUO
UTRAFHOPERIOD
Underlay HO Step Period
BSC6900
GCELLHOIUO
UTOOHOPENTIME
Penalty Time of UtoO HO
BSC6900
GCELLHOIUO
TIMEUTOOFAILPUN
Penalty Time after UtoO HO Fail
BSC6900
GCELLHOIUO
TIMEOTOUFAILPUN
Penalty Time after OtoU HO Fail
BSC6900
GCELLHOIUO
UTOOFAILMAXTIME
MaxRetry Time after UtoO Fail
BSC6900
GCELLHOIUO
ENLOWLDTHRSH
En Iuo Out Cell Low Load Thred BSC6900
ENGOVERLDTHRSH
En Iuo Out Cell General OverLoad Thred
BSC6900
ENSOVERLDTHRSH
En Iuo Out Cell Serious OverLoad Thred
BSC6900
GCELLHOIUO
GCELLHOIUO
GCELLHOIUO
ENLDHOPRD
Load Classification HO Period BSC6900
GCELLHOIUO
ENLDHOSTP
Load Classification HO Step BSC6900
GCELLHOIUO
RECEIVEQUALTHRSHAMRFR
ReceiveQualThrshA MRFR BSC6900
GCELLHOIUO
RECEIVEQUALTHRSHAMRHR
ReceiveQualThrshA MRHR BSC6900
GCELLHOIUO
UTRAFHOSTEP
Underlay HO Step Level
GCELLHOIUO
ENUTOOLOADINILEV
GCELLHOIUO
PSOTOURECEIVETHRSH
GCELLHOIUO
PSUTOORECEIVETHRSH
IniLev for EnUtoO Load HO PS OtoU HO Receive Level Threshold PS UtoO HO Receive Level Threshold
GCELLHOPANT
IDTYPE
Index Type
BSC6900
BSC6900
BSC6900
BSC6900
BSC6900
GCELLHOPANT
CELLID
Cell Index
BSC6900
GCELLHOPANT
CELLNAME
Cell Name
BSC6900
GCELLHOPANT
HPANTMODE
Cell Antenna Hopping
BSC6900
GCELLHOPANTGRP
IDTYPE
Index Type
BSC6900
GCELLHOPANTGRP
CELLID
Cell Index
BSC6900
GCELLHOPANTGRP
CELLNAME
Cell Name
BSC6900
GCELLHOPANTGRP
HOPTRXINDEX
Hop TRX Group Index
BSC6900
GCELLHOPANTGRP
HOPTRXHSN
Hop TRX Group HSN
BSC6900
GCELLHOPANTGRP
TRXID1
No.1 TRX ID
BSC6900
GCELLHOPANTGRP
TRXID2
No.2 TRX ID
BSC6900
GCELLHOPANTGRP
TRXID3
No.3 TRX ID
BSC6900
GCELLHOPANTGRP
TRXID4
No.4 TRX ID
BSC6900
GCELLHOPANTGRP
TRXID5
No.5 TRX ID
BSC6900
GCELLHOPANTGRP
TRXID6
No.6 TRX ID
BSC6900
GCELLHOPANTGRP
TRXID7
No.7 TRX ID
BSC6900
GCELLHOPANTGRP
TRXID8
No.8 TRX ID
BSC6900
GCELLHOPANTGRP
TRXID9
No.9 TRX ID
BSC6900
GCELLHOPANTGRP
TRXID10
No.10 TRX ID
BSC6900
GCELLHOPANTGRP
TRXID11
No.11 TRX ID
BSC6900
GCELLHOPANTGRP
TRXID12
No.12 TRX ID
BSC6900
GCELLHOPANTGRP
TRXID13
No.13 TRX ID
BSC6900
GCELLHOPANTGRP
TRXID14
No.14 TRX ID
BSC6900
GCELLHOPANTGRP
TRXID15
No.15 TRX ID
BSC6900
GCELLHOPANTGRP
TRXID16
No.16 TRX ID
BSC6900
GCELLHOPANTGRP
TRXID17
No.17 TRX ID
BSC6900
GCELLHOPANTGRP
TRXID18
No.18 TRX ID
BSC6900
GCELLHOPANTGRP
TRXID19
No.19 TRX ID
BSC6900
GCELLHOPANTGRP
TRXID20
No.20 TRX ID
BSC6900
GCELLHOPANTGRP
TRXID21
No.21 TRX ID
BSC6900
GCELLHOPANTGRP
TRXID22
No.22 TRX ID
BSC6900
GCELLHOPANTGRP
TRXID23
No.23 TRX ID
BSC6900
GCELLHOPANTGRP
TRXID24
No.24 TRX ID
BSC6900
GCELLHOPANTQUICKS ETUP IDTYPE
Index Type
BSC6900
GCELLHOPANTQUICKS ETUP CELLID
Cell Index
BSC6900
GCELLHOPANTQUICKS ETUP CELLNAME
Cell Name
BSC6900
GCELLHOPANTQUICKS ETUP HPANTMODE
Cell Antenna Hopping
BSC6900
GCELLHOPANTQUICKS ETUP TRXIDLST
TRXID LST
BSC6900
GCELLHOPQUICKSETU P IDTYPE
Index Type
BSC6900
GCELLHOPQUICKSETU P CELLID
Cell Index
BSC6900
GCELLHOPQUICKSETU P CELLNAME
Cell Name
BSC6900
GCELLHOPQUICKSETU P FHMODE
Frequency Hopping Mode BSC6900
GCELLHOPQUICKSETU P BCCHTRXHP
Frequency Hopping Mode of BCCH TRX BSC6900
GCELLHOPQUICKSETU P TRXIDLST
TRXID LST
BSC6900
GCELLHOPTP
IDTYPE
Index Type
BSC6900
GCELLHOPTP
CELLID
Cell Index
BSC6900
GCELLHOPTP
CELLNAME
Cell Name
BSC6900
GCELLHOPTP
FHMODE
Frequency Hopping Mode BSC6900
GCELLHOTDDBA2
IDTYPE
Index Type
BSC6900
GCELLHOTDDBA2
CELLID
Cell Index
BSC6900
GCELLHOTDDBA2
CELLNAME
Cell Name
BSC6900
GCELLHOTDDBA2
TDDBA2TAG
TDDBA2 Input Tag BSC6900
GCELLHOTDDBA2
ITEM
NCCELL No.
BSC6900
GCELLHOTDDBA2
ITEMVALID
Item Valid
BSC6900
GCELLHOTDDBA2
DF
DL UARFCN
BSC6900
GCELLHOTDDBA2
TDDSCRAMBLE
Cell Parameter ID
BSC6900
GCELLHOTDDBA2
TDDSYNCCASE
Sync Case
BSC6900
GCELLHOTDDBA2
DIVERSITY
Diversity
BSC6900
GCELLHOUTRANFDD
IDTYPE
Index Type
BSC6900
GCELLHOUTRANFDD
CELLID
Cell Index
BSC6900
GCELLHOUTRANFDD
CELLNAME
Cell Name
BSC6900
BET3GHOEN
Better 3G Cell HO Allowed
BSC6900
GCELLHOUTRANFDD
HOOPTSEL
Inter-rat HO Preference
BSC6900
GCELLHOUTRANFDD
HOPRETH2G
HO Preference Threshold for 2G Cell
BSC6900
GCELLHOUTRANFDD
HORSCPTH3G
RSCP Threshold for Better 3G Cell HO BSC6900
GCELLHOUTRANFDD
GCELLHOUTRANFDD
HOECNOTH3G
Ec/No Threshold for Better 3G Cell HO BSC6900
GCELLHOUTRANTDD
IDTYPE
Index Type
BSC6900
GCELLHOUTRANTDD
CELLID
Cell Index
BSC6900
GCELLHOUTRANTDD
CELLNAME
Cell Name
BSC6900
GCELLHOUTRANTDD
HOOPTSEL
Inter-rat HO Preference
BSC6900
GCELLHOUTRANTDD
HOPRETH2G
HO Preference Threshold for 2G Cell
GCELLHOUTRANTDD
HORSCPTH3G
RSCP Threshold for Better 3G Cell HO BSC6900
GCELLHOUTRANTDD
BET3GHOEN
Better 3G Cell HO Allowed
BSC6900
GCELLIDLEAD
IDTYPE
Index Type
BSC6900
GCELLIDLEAD
CELLID
Cell Index
BSC6900
GCELLIDLEAD
CELLNAME
Cell Name
BSC6900
BSC6900
GCELLIDLEAD
ACS
Additional Reselect Parameter Indication BSC6900
GCELLIDLEAD
TO
Cell Reselect Temporary Offset
BSC6900
GCELLIDLEAD
PT
Cell Reselect Penalty Time
BSC6900
GCELLIDLEBASIC
IDTYPE
Index Type
BSC6900
GCELLIDLEBASIC
CELLID
Cell Index
BSC6900
GCELLIDLEBASIC
CELLNAME
Cell Name
BSC6900
GCELLIDLEBASIC
ATT
Attach-detach Allowed
BSC6900
GCELLIDLEBASIC
TX
TX-integer
BSC6900
GCELLIDLEBASIC
CBA
Cell Bar Access
BSC6900
GCELLIDLEBASIC
CBQ
Cell Bar Qualify
BSC6900
GCELLIDLEBASIC
BSAGBLKSRES
CCCH Blocks Reserved for AGCH BSC6900
GCELLIDLEBASIC
BSPAMFRAMS
Multi-Frames in a Cycle on the Paging CH BSC6900
GCELLIDLEBASIC
GCELLIDLEBASIC
T3212
T3212
BSC6900
CRH
Cell Reselect Hysteresis Parameters
BSC6900
GCELLIDLEBASIC
PI
Cell Reselect Parameters Indication
BSC6900
GCELLIDLEBASIC
NCCPERMIT
NCC Permitted
BSC6900
GCELLIDLEBASIC
CRO
Cell Reselect Offset BSC6900
GCELLIDLEFDDBA1
IDTYPE
Index Type
BSC6900
GCELLIDLEFDDBA1
CELLID
Cell Index
BSC6900
GCELLIDLEFDDBA1
CELLNAME
Cell Name
BSC6900
GCELLIDLEFDDBA1
FDDBA1TAG
FDDBA1 Input Tag BSC6900
GCELLIDLEFDDBA1
ITEM
NCCELL No.
BSC6900
GCELLIDLEFDDBA1
ITEMVALID
Item Valid
BSC6900
GCELLIDLEFDDBA1
FDDDLUARFAN
Downlink Frequency
BSC6900
GCELLIDLEFDDBA1
FDDSCRAMBLE
Scrambling Code
BSC6900
GCELLIDLEFDDBA1
FDDDIVERSITY
Diversity Indication
BSC6900
GCELLIDLETDDBA1
IDTYPE
Index Type
BSC6900
GCELLIDLETDDBA1
CELLID
Cell Index
BSC6900
GCELLIDLETDDBA1
CELLNAME
Cell Name
BSC6900
GCELLIDLETDDBA1
TDDBA1TAG
TDD BA1 Input Tag BSC6900
GCELLIDLETDDBA1
ITEM
NCCELL No.
BSC6900
GCELLIDLETDDBA1
ITEMVALID
Item Valid
BSC6900
GCELLIDLETDDBA1
TDDDLUARFAN
DL UARFAN
BSC6900
GCELLIDLETDDBA1
TDDSCRAMBLE
Cell Parameter ID
BSC6900
GCELLIDLETDDBA1
TDDSYNCCASE
Sync Case
BSC6900
GCELLIDLETDDBA1
TDDDIVERSITY
Diversity
BSC6900
GCELLLCS
IDTYPE
Index Type
BSC6900
GCELLLCS
CELLID
Cell Index
BSC6900
GCELLLCS
CELLNAME
BSC6900
GCELLLCS
INPUTMD
Cell Name Latitude and Longitude Input Mode
GCELLLCS
NSLATI
NS Latitude
BSC6900
GCELLLCS
LATIINT
Latitude Int Part
BSC6900
GCELLLCS
LATIDECI
Latitude Decimal Part
BSC6900
GCELLLCS
WELONGI
WE Longitude
BSC6900
GCELLLCS
LONGIINT
Longitude Int Part
BSC6900
GCELLLCS
LONGIDECI
Longitude Decimal Part
BSC6900
LATIDEGREE
Latitude Degree Part
BSC6900
GCELLLCS
BSC6900
GCELLLCS
LATIMINUTE
Latitude Minute Part BSC6900
GCELLLCS
LATISECONDINT
Latitude Second Int Part BSC6900
GCELLLCS
LATISECONDDECI
Latitude Second Decimal Part
BSC6900
GCELLLCS
LONGIDEGREE
Longitude Degree Part
BSC6900
GCELLLCS
LONGIMINUTE
Longitude Minute Part
BSC6900
GCELLLCS
LONGISECONDINT
Longitude Second Int Part
BSC6900
GCELLLCS
LONGISECONDDECI
Longitude Second Decimal Part
BSC6900
GCELLLCS
ANTAANGLE
Antenna Azimuth Angle
BSC6900
GCELLLCS
INCLUDEANG
Included Angle
BSC6900
GCELLLCS
ALTITUDE
Antenna Altitude Int Part BSC6900
GCELLLCS
ALTIDECI
Antenna Altitude Decimal Part
BSC6900
GCELLMAGRP
IDTYPE
Index Type
BSC6900
GCELLMAGRP
CELLID
Cell Index
BSC6900
GCELLMAGRP
CELLNAME
Cell Name
BSC6900
GCELLMAGRP
HOPINDEX
Hop Index
BSC6900
GCELLMAGRP
HSN
HSN
BSC6900
GCELLMAGRP
TSC
TSC
BSC6900
GCELLMAGRP
HOPMODE
Hop Mode
BSC6900
GCELLMAGRP
FREQ1
Frequency 1
BSC6900
GCELLMAGRP
FREQ2
Frequency 2
BSC6900
GCELLMAGRP
FREQ3
Frequency 3
BSC6900
GCELLMAGRP
FREQ4
Frequency 4
BSC6900
GCELLMAGRP
FREQ5
Frequency 5
BSC6900
GCELLMAGRP
FREQ6
Frequency 6
BSC6900
GCELLMAGRP
FREQ7
Frequency 7
BSC6900
GCELLMAGRP
FREQ8
Frequency 8
BSC6900
GCELLMAGRP
FREQ9
Frequency 9
BSC6900
GCELLMAGRP
FREQ10
Frequency 10
BSC6900
GCELLMAGRP
FREQ11
Frequency 11
BSC6900
GCELLMAGRP
FREQ12
Frequency 12
BSC6900
GCELLMAGRP
FREQ13
Frequency 13
BSC6900
GCELLMAGRP
FREQ14
Frequency 14
BSC6900
GCELLMAGRP
FREQ15
Frequency 15
BSC6900
GCELLMAGRP
FREQ16
Frequency 16
BSC6900
GCELLMAGRP
FREQ17
Frequency 17
BSC6900
GCELLMAGRP
FREQ18
Frequency 18
BSC6900
GCELLMAGRP
FREQ19
Frequency 19
BSC6900
GCELLMAGRP
FREQ20
Frequency 20
BSC6900
GCELLMAGRP
FREQ21
Frequency 21
BSC6900
GCELLMAGRP
FREQ22
Frequency 22
BSC6900
GCELLMAGRP
FREQ23
Frequency 23
BSC6900
GCELLMAGRP
FREQ24
Frequency 24
BSC6900
GCELLMAGRP
FREQ25
Frequency 25
BSC6900
GCELLMAGRP
FREQ26
Frequency 26
BSC6900
GCELLMAGRP
FREQ27
Frequency 27
BSC6900
GCELLMAGRP
FREQ28
Frequency 28
BSC6900
GCELLMAGRP
FREQ29
Frequency 29
BSC6900
GCELLMAGRP
FREQ30
Frequency 30
BSC6900
GCELLMAGRP
FREQ31
Frequency 31
BSC6900
GCELLMAGRP
FREQ32
Frequency 32
BSC6900
GCELLMAGRP
FREQ33
Frequency 33
BSC6900
GCELLMAGRP
FREQ34
Frequency 34
BSC6900
GCELLMAGRP
FREQ35
Frequency 35
BSC6900
GCELLMAGRP
FREQ36
Frequency 36
BSC6900
GCELLMAGRP
FREQ37
Frequency 37
BSC6900
GCELLMAGRP
FREQ38
Frequency 38
BSC6900
GCELLMAGRP
FREQ39
Frequency 39
BSC6900
GCELLMAGRP
FREQ40
Frequency 40
BSC6900
GCELLMAGRP
FREQ41
Frequency 41
BSC6900
GCELLMAGRP
FREQ42
Frequency 42
BSC6900
GCELLMAGRP
FREQ43
Frequency 43
BSC6900
GCELLMAGRP
FREQ44
Frequency 44
BSC6900
GCELLMAGRP
FREQ45
Frequency 45
BSC6900
GCELLMAGRP
FREQ46
Frequency 46
BSC6900
GCELLMAGRP
FREQ47
Frequency 47
BSC6900
GCELLMAGRP
FREQ48
Frequency 48
BSC6900
GCELLMAGRP
FREQ49
Frequency 49
BSC6900
GCELLMAGRP
FREQ50
Frequency 50
BSC6900
GCELLMAGRP
FREQ51
Frequency 51
BSC6900
GCELLMAGRP
FREQ52
Frequency 52
BSC6900
GCELLMAGRP
FREQ53
Frequency 53
BSC6900
GCELLMAGRP
FREQ54
Frequency 54
BSC6900
GCELLMAGRP
FREQ55
Frequency 55
BSC6900
GCELLMAGRP
FREQ56
Frequency 56
BSC6900
GCELLMAGRP
FREQ57
Frequency 57
BSC6900
GCELLMAGRP
FREQ58
Frequency 58
BSC6900
GCELLMAGRP
FREQ59
Frequency 59
BSC6900
GCELLMAGRP
FREQ60
Frequency 60
BSC6900
GCELLMAGRP
FREQ61
Frequency 61
BSC6900
GCELLMAGRP
FREQ62
Frequency 62
BSC6900
GCELLMAGRP
FREQ63
Frequency 63
BSC6900
GCELLMAGRP
FREQ64
Frequency 64
BSC6900
GCELLMAIOPLAN
IDTYPE
Index Type
BSC6900
GCELLMAIOPLAN
CELLID
Cell Index
BSC6900
GCELLMAIOPLAN
CELLNAME
Cell Name
BSC6900
GCELLMAIOPLAN
HOPINDEX
Hop Index
BSC6900
GCELLMAIOPLAN
MAIO1
MAIO 1
BSC6900
GCELLMAIOPLAN
MAIO2
MAIO 2
BSC6900
GCELLMAIOPLAN
MAIO3
MAIO 3
BSC6900
GCELLMAIOPLAN
MAIO4
MAIO 4
BSC6900
GCELLMAIOPLAN
MAIO5
MAIO 5
BSC6900
GCELLMAIOPLAN
MAIO6
MAIO 6
BSC6900
GCELLMAIOPLAN
MAIO7
MAIO 7
BSC6900
GCELLMAIOPLAN
MAIO8
MAIO 8
BSC6900
GCELLMAIOPLAN
MAIO9
MAIO 9
BSC6900
GCELLMAIOPLAN
MAIO10
MAIO 10
BSC6900
GCELLMAIOPLAN
MAIO11
MAIO 11
BSC6900
GCELLMAIOPLAN
MAIO12
MAIO 12
BSC6900
GCELLMAIOPLAN
MAIO13
MAIO 13
BSC6900
GCELLMAIOPLAN
MAIO14
MAIO 14
BSC6900
GCELLMAIOPLAN
MAIO15
MAIO 15
BSC6900
GCELLMAIOPLAN
MAIO16
MAIO 16
BSC6900
GCELLMAIOPLAN
MAIO17
MAIO 17
BSC6900
GCELLMAIOPLAN
MAIO18
MAIO 18
BSC6900
GCELLMAIOPLAN
MAIO19
MAIO 19
BSC6900
GCELLMAIOPLAN
MAIO20
MAIO 20
BSC6900
GCELLMAIOPLAN
MAIO21
MAIO 21
BSC6900
GCELLMAIOPLAN
MAIO22
MAIO 22
BSC6900
GCELLMAIOPLAN
MAIO23
MAIO 23
BSC6900
GCELLMAIOPLAN
MAIO24
MAIO 24
BSC6900
GCELLNC2PARA
IDTYPE
Index Type
BSC6900
GCELLNC2PARA
CELLID
Cell Index
BSC6900
GCELLNC2PARA
CELLNAME
Cell Name
BSC6900
GCELLNC2PARA
MINACCRXLEV
Cell Reselection Level Threshold
BSC6900
GCELLNC2PARA
RESELHYST
Cell Reselection Hysteresis
BSC6900
GCELLNC2PARA
PENALTYRXLEV
Cell Penalty Level
BSC6900
GCELLNC2PARA
PENALTYLASTTM
Cell Penalty Duration
BSC6900
GCELLNC2PARA
ALLOWEDMEASRPTMISSEDN UM
Allowed Measure Report Missed Number
BSC6900
GCELLNC2PARA
FILTERWNDSIZE
Filter Window Size
BSC6900
GCELLNC2PARA
MSRXQUALSTATTHRSH
MS Rx Quality Statistic Threshold
BSC6900
GCELLNC2PARA
Cell Rx Quality CELLRXQUALWORSENRATIOT Worsen Ratio HRSH Threshold
BSC6900
GCELLNC2PARA
LOADRESELSTARTTHRSH
Load Reselection Start Threshold
BSC6900
GCELLNC2PARA
LOADRESELRXTHRSH
Load Reselection Receive Threshold
BSC6900
GCELLNC2PARA
URGENTRESELALLOW
Cell Urgent Reselection Allowed BSC6900
GCELLNC2PARA
LOADRESELALLOW
Cell Load Reselection Allowed BSC6900
GCELLNC2PARA
NORMALRESELALLOW
Cell Normal Reselection Allowed BSC6900
RESELWATCHPERIOD
Normal Cell Reselection Watch Period BSC6900
GCELLNC2PARA
RESELWORSENLEVTHRSH
Normal Cell Reselection Worsen Level Threshold
BSC6900
GCELLNC2PARA
RESELINTERVAL
Cell Reselect Interval
BSC6900
GCELLNC2PARA
GCELLNC2PARA
EGPRSBEPLIMITGMSK
EDGE GMSK Quality Threshold
BSC6900
GCELLNC2PARA
EGPRSBEPLIMIT8PSK
EDGE 8PSK Quality Threshold
BSC6900
GCELLNC2PARA
GPRSRXQUALLIMIT
GPRS Quality Threshold
BSC6900
GCELLNC2PARA
LOADRESELMAXRXLEV
Load Reselect Level Threshold
BSC6900
GCELLNCRESELECTPA RA IDTYPE
Index Type
BSC6900
GCELLNCRESELECTPA RA CELLID
Cell Index
BSC6900
GCELLNCRESELECTPA RA CELLNAME
Cell Name
BSC6900
GCELLNCRESELECTPA RA GPRSTEMPOFFSET
GPRS Temporary Offset
GCELLNCRESELECTPA RA GPRSPENALTYTIME
GPRS Penalty Time BSC6900
BSC6900
GCELLNCRESELECTPA RA RSLCTOFFER
GPRS Reselection Offset
BSC6900
GCELLNWCTRLMSRPA RA IDTYPE
Index Type
BSC6900
GCELLNWCTRLMSRPA RA CELLID
Cell Index
BSC6900
GCELLNWCTRLMSRPA RA CELLNAME
Cell Name
BSC6900
GCELLNWCTRLMSRPA RA NONDRXPERIOD
Non-DRX Period
BSC6900
GCELLNWCTRLMSRPA RA RPTPERIODI
Cell Reselection MR Period in Packet Idle Mode
BSC6900
GCELLNWCTRLMSRPA RA RPTPERIODT
Cell Reselection MR Period in Packet Transfer Mode
BSC6900
GCELLOSPMAP
IDTYPE
Index Type
BSC6900
GCELLOSPMAP
CELLID
Cell Index
BSC6900
GCELLOSPMAP
CELLNAME
Cell Name
BSC6900
GCELLOSPMAP
OPC
OSP Code
BSC6900
GCELLOTHBASIC
IDTYPE
Index Type
BSC6900
GCELLOTHBASIC
CELLID
Cell Index
BSC6900
GCELLOTHBASIC
CELLNAME
Cell Name
BSC6900
GCELLOTHBASIC
LOWNOISESWH
Diversity LNA Bypass Permitted
BSC6900
GCELLOTHBASIC
RPTVOICE
Report Speech Quality
BSC6900
GCELLOTHBASIC
HOPOWERBOOST
Power Boost before HO Enabled or Not BSC6900
GCELLOTHEXT
IDTYPE
Index Type
BSC6900
GCELLOTHEXT
CELLID
Cell Index
BSC6900
GCELLOTHEXT
CELLNAME
Cell Name
BSC6900
GCELLOTHEXT
DATATRAFFSET
Data Service Allowed
BSC6900
GCELLOTHEXT
GCELLOTHEXT
GCELLOTHEXT
DRXEN
SMCBC DRX
BSC6900
CDRTTRYFBDTHRES
Cell Directed Retry Forbidden Threshold BSC6900
INTERFTHRES0
Interference Band Threshold 0
BSC6900
GCELLOTHEXT
INTERFTHRES1
Interference Band Threshold 1
BSC6900
GCELLOTHEXT
INTERFTHRES2
Interference Band Threshold 2
BSC6900
GCELLOTHEXT
INTERFTHRES3
Interference Band Threshold 3
BSC6900
GCELLOTHEXT
INTERFTHRES4
Interference Band Threshold 4
BSC6900
GCELLOTHEXT
INTERFTHRES5
Interference Band Threshold 5
BSC6900
GCELLOTHEXT
INTERPERIOD
Interference Calculation Period
BSC6900
GCELLOTHEXT
RFMAXPWRDEC
Max RC Power Reduction
BSC6900
GCELLOTHEXT
TFRMSTARTTIME
Frame Start Time
BSC6900
GCELLOTHEXT
POERRTHRES
Power Output Error Threshold BSC6900
PODECTHRES
Power Output Reduction Threshold
BSC6900
GCELLOTHEXT
VSWRERRTHRES
VSWR TRX Unadjusted Threshold
BSC6900
GCELLOTHEXT
VSWRUNJUSTTHRES
VSWR TRX Error Threshold
BSC6900
GCELLOTHEXT
FRAMEOFFSET
Frame Offset
BSC6900
GCELLOTHEXT
FREQADJ
UL Frequency Adjust Switch
BSC6900
GCELLOTHEXT
GCELLOTHEXT
DLFREQADJ
DL Frequency Adjust Switch
BSC6900
GCELLOTHEXT
FREQADJVALUE
UL Frequency Adjust Value
BSC6900
ReservedIdleCh
Reserved TCH Number for PA Turning On
BSC6900
GCELLOTHEXT
GCELLOTHEXT
GCELLOTHEXT
GCELLOTHEXT
SDDROPSTATULLEV
UL Level Threshold for SDCCH Call Drop BSC6900
SDDROPSTATDLLEV
DL Level Threshold for SDCCH Call Drop BSC6900
SDDROPSTATULQUAL
UL Quality Threshold for SDCCH Call Drop
BSC6900
GCELLOTHEXT
SDDROPSTATDLQUAL
DL Quality Threshold for SDCCH Call Drop
GCELLOTHEXT
MAINBCCHPWRDTEN
Power Derating Enabled
BSC6900
GCELLOTHEXT
MAINBCCHPWRDTSTIME
Power Derating Start Time
BSC6900
GCELLOTHEXT
MAINBCCHPWRDTETIME
Power Derating End Time BSC6900
MAINBCCHPWRDTRANGE
Power Derating Range
BSC6900
MAINBCCHPWDTACTCHEN
Power Derating Active Channel Enabled
BSC6900
CELLWEAKCVGRXLEVDLTH
Cell Weak Coverage DL RxLev Threshold
BSC6900
GCELLOTHEXT
GCELLOTHEXT
GCELLOTHEXT
BSC6900
CELLWEAKCVGTALTH
Cell Weak Coverage TA Threshold
GCELLOTHEXT
CELLOVERCVGRXLEVDLTH
Cell Over Coverage DL RxLev Threshold BSC6900
GCELLOTHEXT
CELLOVERCVGTALTH
Cell Over Coverage TA Threshold BSC6900
GCELLOTHEXT
CELLCOVERAGETYPE
Cell Coverage Type BSC6900
GCELLOTHEXT
TCHDROPSTATULLEV
UL Level Threshold for TCH Call Drop BSC6900
GCELLOTHEXT
TCHDROPSTATDLLEV
DL Level Threshold for TCH Call Drop BSC6900
GCELLOTHEXT
BSC6900
TCHDROPSTATULQUAL
UL Quality Threshold for TCH Call Drop
BSC6900
GCELLOTHEXT
TCHDROPSTATDLQUAL
DL Quality Threshold for TCH Call Drop
BSC6900
GCELLOTHEXT
TCHDROPSTATULFER
UL FER Threshold for TCH Call Drop
BSC6900
GCELLOTHEXT
TCHDROPSTATDLFER
DL FER Threshold for TCH Call Drop
BSC6900
GCELLOTHEXT
FERSTATTH1
FER Threshold 1
BSC6900
GCELLOTHEXT
FERSTATTH2
FER Threshold 2
BSC6900
GCELLOTHEXT
GCELLOTHEXT
FERSTATTH3
FER Threshold 3
BSC6900
GCELLOTHEXT
FERSTATTH4
FER Threshold 4
BSC6900
GCELLOTHEXT
FERSTATTH5
FER Threshold 5
BSC6900
GCELLOTHEXT
FERSTATTH6
FER Threshold 6
BSC6900
GCELLOTHEXT
FERSTATTH7
FER Threshold 7
BSC6900
GCELLOTHEXT
IURGINFOCTRL
Information Exchange Switch at Iur-g BSC6900
GCELLOTHEXT
VQILOWTHRD
Low VQI Threshold BSC6900
GCELLPRACH
IDTYPE
Index Type
BSC6900
GCELLPRACH
CELLID
Cell Index
BSC6900
GCELLPRACH
CELLNAME
Cell Name
BSC6900
GCELLPRACH
ACCCONTROLCLASS
Access Control Class
BSC6900
MAXRETRANS1
Max Retransmissions for Radio Priority 1 BSC6900
MAXRETRANS2
Max Retransmissions for Radio Priority 2 BSC6900
MAXRETRANS3
Max Retransmissions for Radio Priority 3 BSC6900
GCELLPRACH
MAXRETRANS4
Max Retransmissions for Radio Priority 4 BSC6900
GCELLPRACH
SVALUE
S Value
GCELLPRACH
GCELLPRACH
GCELLPRACH
BSC6900
GCELLPRACH
TXINT
TX_INT
BSC6900
GCELLPRACH
PL1
Persistence Level 1 BSC6900
GCELLPRACH
PL2
Persistence Level 2 BSC6900
GCELLPRACH
PL3
Persistence Level 3 BSC6900
GCELLPRACH
PL4
Persistence Level 4 BSC6900
GCELLPRIEUTRANSYS
IDTYPE
Index Type
BSC6900
GCELLPRIEUTRANSYS
CELLID
Cell Index
BSC6900
GCELLPRIEUTRANSYS
CELLNAME
Cell Name
BSC6900
GCELLPRIEUTRANSYS
GERANPRI
GERAN Priority
BSC6900
GCELLPRIEUTRANSYS
UTRANPRI
UTRAN Priority
BSC6900
GCELLPRIEUTRANSYS
EUTRANPRI
EUTRAN Priority
BSC6900
THRPRISEARCH
Inter-RAT Search THD Based on Priority
BSC6900
THRGSMLOW
Low GSM Threshold Based on Priority BSC6900
GCELLPRIEUTRANSYS
GCELLPRIEUTRANSYS
GCELLPRIEUTRANSYS
GCELLPRIEUTRANSYS
GCELLPRIEUTRANSYS
THRUTRANHIGH
UTRAN Cell Resel High THD Based on PRI BSC6900
THRUTRANLOW
UTRAN Cell Resel Low THD Based on PRI BSC6900
UTRANQRXLEVMIN
Min RX Level of UTRAN Cell Based on PRI BSC6900
GCELLPRIEUTRANSYS
GCELLPRIEUTRANSYS
GCELLPRIEUTRANSYS
THREUTRANHIGH
EUTRAN Cell Resel High THD Based on PRI BSC6900
THREUTRANLOW
EUTRAN Cell Resel Low THD Based on PRI BSC6900
EUTRANQRXLEVMIN
Min RX Level of EUTRAN Cell Based on PRI
BSC6900
Cell Resel Level Hyst Based on PRI BSC6900
GCELLPRIEUTRANSYS
HPRIO
GCELLPRIEUTRANSYS
TRESEL
GCELLPRIEUTRANSYS
BESTEUTRANCELLNUM
Cell Resel Time Hyst Based on PRI BSC6900 Number EUTRAN Cells in Best Cell List BSC6900
THREUTRANRPT
EUTRAN Cell Reporting Threshold
GCELLPRIEUTRANSYS
BSC6900
GCELLPRIVATEOPTPAR A IDTYPE
Index Type
BSC6900
GCELLPRIVATEOPTPAR A CELLID
Cell Index
BSC6900
GCELLPRIVATEOPTPAR A CELLNAME
Cell Name
BSC6900
GCELLPRIVATEOPTPAR A UPTBFRELDELAY
Release Delay of Non-extended Uplink TBF
BSC6900
GCELLPRIVATEOPTPAR A UPEXTTBFINACTDELAY
Inactive Period of Extended Uplink TBF
BSC6900
GCELLPRIVATEOPTPAR A DNTBFRELDELAY
Release Delay of Downlink TBF
BSC6900
GCELLPRIVATEOPTPAR A DLTBFESTDELAY
Downlink TBF Establishment Delay
BSC6900
GCELLPRIVATEOPTPAR A CellPSReservePara1
PS DTX
BSC6900
GCELLPSBASE
IDTYPE
Index Type
BSC6900
GCELLPSBASE
CELLID
Cell Index
BSC6900
GCELLPSBASE
CELLNAME
Cell Name
BSC6900
GCELLPSBASE
NMO
Network Operation Mode
BSC6900
GCELLPSBASE
T3168
T3168
BSC6900
GCELLPSBASE
T3192
T3192
BSC6900
GCELLPSBASE
DRXTIMERMAX
Max. Duration of DRX
BSC6900
GCELLPSBASE
ACCBURST
Access Burst Type
BSC6900
GCELLPSBASE
CTRLACKTYPE
Control Acknowledge Type BSC6900
GCELLPSBASE
BSCVMAX
BS_CV_MAX
BSC6900
GCELLPSBASE
PANDEC
PAN_DEC
BSC6900
GCELLPSBASE
PANINC
PAN_INC
BSC6900
GCELLPSBASE
PANMAX
PAN_MAX
BSC6900
NCO
Network Control Mode
SPGCCCCHSUP
Support SPLIT_PG_CYCLE on CCCH BSC6900
GCELLPSBASE
PRIACCTHR
Packet Access Priority
GCELLPSBASE
RACOLOR
Routing Area Color Code BSC6900
GCELLPSBASE
EGPRS11BITCHANREQ
Support 11BIT EGPRS Access
BSC6900
GCELLPSBASE
BSSPAGINGCOORDINATION
BSS Paging Coordination
BSC6900
GCELLPSBASE
GCELLPSBASE
BSC6900
BSC6900
GCELLPSBASE
EXTUTBFNODATA
GCELLPSBASE
SGSNR
Not Send Dummy Message with Extended Uplink TBF Protocol Version Supported by SGSN
GCELLPSCHM
IDTYPE
Index Type
BSC6900
GCELLPSCHM
CELLID
Cell Index
BSC6900
GCELLPSCHM
CELLNAME
Cell Name
BSC6900
MAXPDCHRATE
Maximum Rate Threshold of PDCHs in a Cell
BSC6900
GCELLPSCHM
BSC6900
BSC6900
GCELLPSCHM
UPDYNCHNTRANLEV
Uplink Multiplex Threshold of Dynamic Channel Conversion
BSC6900
GCELLPSCHM
DWNDYNCHNTRANLEV
Downlink Multiplex Threshold of Dynamic Channel Conversion
GCELLPSCHM
PDCHUPLEV
PDCH Uplink Multiplex Threshold BSC6900
BSC6900
PDCHDWNLEV
PDCH Downlink Multiplex Threshold BSC6900
IUOCHNTRAN
Dynamic Channel Conversion Parameter of Concentric Cell
GCELLPSCHM
DYNCHFREETM
Timer of Releasing Idle Dynamic Channel BSC6900
GCELLPSCHM
DYNCHNPREEMPTLEV
Level of Preempting Dynamic Channel BSC6900
DYNCHTRANRESLEV
Reservation Threshold of Dynamic Channel Conversion
GCELLPSCHM
GCELLPSCHM
GCELLPSCHM
BSC6900
BSC6900
GCELLPSCHM
ABISTSFREETM
Timer of Releasing Abis Timeslot BSC6900
GCELLPSCHM
THP1ARP1PRIWEIGHT
THP1-ARP1 Priority Weight BSC6900
GCELLPSCHM
THP1ARP2PRIWEIGHT
THP1-ARP2 Priority Weight BSC6900
GCELLPSCHM
THP1ARP3PRIWEIGHT
THP1-ARP3 Priority Weight BSC6900
GCELLPSCHM
THP2ARP1PRIWEIGHT
THP2-ARP1 Priority Weight BSC6900
THP2ARP2PRIWEIGHT
THP2-ARP2 Priority Weight BSC6900
GCELLPSCHM
THP2ARP3PRIWEIGHT
THP2-ARP3 Priority Weight BSC6900
GCELLPSCHM
THP3ARP1PRIWEIGHT
THP3-ARP1 Priority Weight BSC6900
GCELLPSCHM
THP3ARP2PRIWEIGHT
THP3-ARP2 Priority Weight BSC6900
GCELLPSCHM
THP3ARP3PRIWEIGHT
THP3-ARP3 Priority Weight BSC6900
GCELLPSCHM
BKGARP1PRIWEIGHT
Background-ARP1 Priority Weight
BSC6900
GCELLPSCHM
BKGARP2PRIWEIGHT
Background-ARP2 Priority Weight
BSC6900
GCELLPSCHM
BKGARP3PRIWEIGHT
Background-ARP3 Priority Weight
BSC6900
GCELLPSCHM
BEARP1PRIWEIGHT
BestEffort-ARP1 Priority Weight
BSC6900
GCELLPSCHM
BEARP2PRIWEIGHT
BestEffort-ARP2 Priority Weight
BSC6900
GCELLPSCHM
BEARP3PRIWEIGHT
BestEffort-ARP3 Priority Weight
BSC6900
GCELLPSCHM
PDCHREFORMING
PDCH Reforming
BSC6900
GCELLPSCHM
GCELLPSCHM
MSRDPDCHLEV
MSRD PDCH Multiplex Threshold BSC6900
GCELLPSCHM
MSRDMCSLEV
MSRD MCS Threshold
GCELLPSCHM
RTTI PDCH RTTIPDCHMULTIPLEXTHRESH Multiplex Threshold BSC6900
GCELLPSCHM
DefaultDynPdchPreTranNum
Number of Dynamic Channel PreConverted BSC6900
ReservedDynPdchPreTranNum
Number of Reserved Dynamic Channel BSC6900
GCELLPSCHM
BSC6900
GCELLPSCHM
ALLOCSINGLEPDCHFORSIGNA Allocate One PDCH LLING for Signaling Data BSC6900
GCELLPSCHM
Upper Threshold for CS Idle Channel Rate BSC6900
CHIDLHIGHTHR
GCELLPSCHM
CHIDLLOWTHR
GCELLPSCHM
PSRESPREEMPT
GCELLPSCHM
PSRESPREEMPTED
Lower Threshold for CS Idle Channel Rate BSC6900 Inter_Cell PS Resource Preempt Allowed BSC6900 Inter_Cell PS Resource Preempted Allowed BSC6900
GCELLPSCHM
PSServiceBusyThreshold
PS Service Busy Threshold
BSC6900
GCELLPSCS
IDTYPE
Index Type
BSC6900
GCELLPSCS
CELLID
Cell Index
BSC6900
GCELLPSCS
CELLNAME
Cell Name
BSC6900
GCELLPSCS
UPFIXCS
Uplink Fixed CS Type
BSC6900
GCELLPSCS
UPDEFAULTCS
Uplink Default CS Type
BSC6900
GCELLPSCS
GCELLPSCS
GCELLPSCS
GCELLPSCS
GCELLPSCS
UPTHDCSUPGRADE1
Uplink TBF Threshold from CS1 to CS2
BSC6900
UPTHDCSUPGRADE2
Uplink TBF Threshold from CS2 to CS3
BSC6900
UPTHDCSUPGRADE3
Uplink TBF Threshold from CS3 to CS4
BSC6900
UPTHDCSDEGRADE1
Uplink TBF Threshold from CS2 to CS1
BSC6900
UPTHDCSDEGRADE2
Uplink TBF Threshold from CS3 to CS2
BSC6900
GCELLPSCS
UPTHDCSDEGRADE3
Uplink TBF Threshold from CS4 to CS3
GCELLPSCS
DNFIXCS
Downlink Fixed CS Type BSC6900
GCELLPSCS
DNDEFAULTCS
Downlink Default CS Type
BSC6900
DNTHDCSUPGRADE1
Downlink TBF Threshold from CS1 to CS2
BSC6900
DNTHDCSUPGRADE2
Downlink TBF Threshold from CS2 to CS3
BSC6900
GCELLPSCS
GCELLPSCS
BSC6900
DNTHDCSUPGRADE3
Downlink TBF Threshold from CS3 to CS4
BSC6900
DNTHDCSDEGRADE1
Downlink TBF Threshold from CS2 to CS1
BSC6900
DNTHDCSDEGRADE2
Downlink TBF Threshold from CS3 to CS2
BSC6900
GCELLPSCS
DNTHDCSDEGRADE3
Downlink TBF Threshold from CS4 to CS3
BSC6900
GCELLPSI1
IDTYPE
Index Type
BSC6900
GCELLPSI1
CELLID
Cell Index
BSC6900
GCELLPSCS
GCELLPSCS
GCELLPSCS
GCELLPSI1
CELLNAME
Cell Name
BSC6900
GCELLPSI1
PSI1RPT
PSI1 Repetition Period
BSC6900
GCELLPSI1
MEASORDER
Allow MR Command or not
BSC6900
GCELLPSI1
PSISTATUSIND
Support PSI Status Message BSC6900
GCELLPSOTHERPARA
IDTYPE
Index Type
BSC6900
GCELLPSOTHERPARA
CELLID
Cell Index
BSC6900
GCELLPSOTHERPARA
CELLNAME
Cell Name
BSC6900
GCELLPSOTHERPARA
GBRQOS
Support GBR QoS
BSC6900
IMMASSDLSHIFT
Move Immediate Assignment Down to BTS
BSC6900
GCELLPSOTHERPARA
PACKASSDLSHIFT
Move Packet Assignment Down to BTS
BSC6900
GCELLPSOTHERPARA
POCGBRMIN
Min. GBR for POC Service
BSC6900
GCELLPSOTHERPARA
GCELLPSOTHERPARA
POCGBRMAX
Max. GBR for POC Service BSC6900
GCELLPSOTHERPARA
POCDELAY
Transmission Delay of POC Service BSC6900
GCELLPSOTHERPARA
QOSOPT
Support QoS Optimize
BSC6900
EXTCELLTHRENH
Extended Cell Throughput Enhancement
BSC6900
GSMTOTDALLOWED
GSM-to-TD Cell Reselection Allowed BSC6900
GCELLPSOTHERPARA
GCELLPSOTHERPARA
GCELLPSOTHERPARA
PocSup
POC Support
BSC6900
OccupyStreamingSwitch
Preempt Switch of Streaming Resource
BSC6900
GCELLPSOTHERPARA
ENGSMPSDLMACFLOWCTRL
User Plane DL Flow Ctrl Switch BSC6900
GCELLPSOTHERPARA
AccStaServiceType
PS Initial Access Service Type
BSC6900
DlGprsTbfExpandOp
Downlink GPRS TBF Window Expansion Optimization
BSC6900
GCELLPSOTHERPARA
GCELLPSOTHERPARA
GCELLPSOTHERPARA
PSDIFSERVICESUP
Support PS Service in Priority BSC6900
GCELLPSOTHERPARA
MACSCHEDULETYPE
MAC Scheduling Type
GCELLPSOTHERPARA
DLMINGUARANTEERATE
Downlink Minimum Guaranteed Rate BSC6900
GCELLPSOTHERPARA
RATEFILTERTIMEWIN
Rate Filter Time Window
BSC6900
BSC6900
GCELLPSOTHERPARA
MINTIMEDIFF
Time to Wait Coding in BTS
BSC6900
GCELLPSPWPARA
IDTYPE
Index Type
BSC6900
GCELLPSPWPARA
CELLID
Cell Index
BSC6900
GCELLPSPWPARA
CELLNAME
Cell Name
BSC6900
GCELLPSPWPARA
ALPHA
ALPHA
BSC6900
GCELLPSPWPARA
GAMMA
GAMMA
BSC6900
GCELLPSPWPARA
TAVGW
T_AVG_W
BSC6900
GCELLPSPWPARA
TAVGT
T_AVG_T
BSC6900
GCELLPSPWPARA
PB
Pb
BSC6900
GCELLPSPWPARA
PCMEASCHAN
PC_MEAS_CHAN
BSC6900
GCELLPSPWPARA
NAVGI
N_AVG_I
BSC6900
GCELLPSPWPARA
SUPPSDLPC
Support PS Downlink Power Control
GCELLPSPWPARA
MCSSTATTHR
Code Scheme Statistics Threshold BSC6900
GCELLPSPWPARA
MCSSTABTHR
Code Scheme Stable Threshold
BSC6900
GCELLPSPWPARA
DLPCINITPR
P0
BSC6900
BSC6900
GCELLPSPWPARA
TGTCIRPOS
Target CIR Position BSC6900
GCELLPSPWPARA
TGTCIROFFSET
Target CIR Offset
GCELLPSPWPARA
MAXPCSTEP
Max Power Control Fall Step BSC6900
GCELLPSPWPARA
PSPCPRES
Power Control Precision
BSC6900
GCELLPWR2
IDTYPE
Index Type
BSC6900
GCELLPWR2
CELLID
Cell Index
BSC6900
GCELLPWR2
CELLNAME
Cell Name
BSC6900
GCELLPWR2
ULLEVFILTLEN
Filter Length for UL RX_LEV BSC6900
BSC6900
DLLEVFILTLEN
Filter Length for DL RX_LEV BSC6900
GCELLPWR2
ULQUAFILTLEN
Filter Length for UL Qual. BSC6900
GCELLPWR2
DLQUAFILTLEN
Filter Length for DL Qual. BSC6900
GCELLPWR2
MRCOMPREG
MR. Compensation Allowed BSC6900
GCELLPWR2
GCELLPWR2
ULPREDLEND
UL MR. Number Predicted
BSC6900
GCELLPWR2
DLPREDLEND
DL MR. Number Predicted
BSC6900
MAXSTEP0
MAX Down Adj.Value Qual.Zone 0
BSC6900
GCELLPWR2
MAXSTEP1
MAX Down Adj.Value Qual.Zone 1
BSC6900
GCELLPWR2
MAXSTEP2
MAX Down Adj.Value Qual.Zone 2
BSC6900
GCELLPWR2
QUALSTEP
MAX Down Adj. PC Value by Qual. BSC6900
GCELLPWR2
MAXVALADJRX
MAX Up Adj. PC Value by RX_LEV
BSC6900
GCELLPWR2
MAXADJPCVAL
MAX Up Adj. PC Value by Qual.
BSC6900
GCELLPWR2
ULQUALBADTRIG
UL Qual. Bad Trig Threshold
BSC6900
GCELLPWR2
ULQUALBADUPLEV
UL Qual. Bad UpLEVDiff
BSC6900
GCELLPWR2
GCELLPWR2
DLQUALBADTRIG
DL Qual. Bad Trig Threshold
BSC6900
GCELLPWR2
DLQUALBADUPLEV
DL Qual. Bad UpLEVDiff
BSC6900
GCELLPWR2
BTSPWRNUM
BTS PC Class
BSC6900
GCELLPWR2
AMRPCADJPERIOD
AMR PC Interval
BSC6900
GCELLPWR2
AMRULLEVFTLEN
AMR Filter Length for UL RX_LEV
BSC6900
GCELLPWR2
AMRDLLEVFTLEN
AMR Filter Length for DL RX_LEV
BSC6900
GCELLPWR2
AMRULQUAFTLEN
AMR Filter Length for UL Qual
BSC6900
GCELLPWR2
AMRDLQUAFTLEN
AMR Filter Length for DL Qual.
BSC6900
GCELLPWR2
AMRMRCOMPREG
AMR MR. Compensation Allowed
GCELLPWR2
AMRULPREDLEND
AMR UL MR. Number Predicted
BSC6900
BSC6900
GCELLPWR2
AMRDLPREDLEND
AMR DL MR. Number Predicted
BSC6900
GCELLPWR2
AMRULSSHTHRED
AMR UL RX_LEV Upper Threshold
BSC6900
GCELLPWR2
AMRULSSLTHRED
AMR UL RX_LEV Lower Threshold
BSC6900
GCELLPWR2
AMRULQHTHRED
AMR UL Qual. Upper Threshold
BSC6900
GCELLPWR2
AMRULQLOWTHRED
AMR UL Qual. Lower Threshold
BSC6900
GCELLPWR2
AMRDLSSHTHRED
AMR DL RX_LEV Upper Threshold
BSC6900
GCELLPWR2
AMRDLSSLTHRED
AMR DL RX_LEV Lower Threshold
BSC6900
GCELLPWR2
AMRDLQHTHRED
AMR DL Qual. Upper Threshold
BSC6900
GCELLPWR2
AMRDLQLTHRED
AMR DL Qual. Lower Threshold
BSC6900
AMRMAXSTEP0
AMR MAX Down Adj. Value Qual. Zone 0
BSC6900
AMRMAXSTEP1
AMR MAX Down Adj. Value Qual. Zone 1
BSC6900
AMRMAXSTEP2
AMR MAX Down Adj. Value Qual. Zone 2
BSC6900
AMRQUALSTEP
AMR MAX Down Adj. PC Value by Qual.
BSC6900
AMRMAXVALADJRX
AMR MAX Up Adj. PC Value by RX_LEV
BSC6900
GCELLPWR2
GCELLPWR2
GCELLPWR2
GCELLPWR2
GCELLPWR2
GCELLPWR2
AMRMAXADJPCVAL
AMR MAX Up Adj. PC Value by Qual.
GCELLPWR2
AMRULQUALBADTRIG
AMR UL Qual. Bad Trig Threshold BSC6900
GCELLPWR2
AMRULQUALBADUPLEV
AMR UL Qual. Bad UpLEVDiff BSC6900
GCELLPWR2
AMRDLQUALBADTRIG
AMR DL Qual Bad Trig Threshold
BSC6900
GCELLPWR2
AMRDLQUALBADUPLEV
AMR DL Qual Bad UpLEVDiff
BSC6900
GCELLPWR2
AMRBTSPWRNUM
AMR BTS PC Class BSC6900
GCELLPWR2
SAICTHREDAPDTVALUE
Power Control Threshold Adjust for SAIC BSC6900
GCELLPWR3
IDTYPE
Index Type
BSC6900
GCELLPWR3
CELLID
Cell Index
BSC6900
BSC6900
GCELLPWR3
CELLNAME
Cell Name
BSC6900
GCELLPWR3
MRMISSNUM
MRMissNumber
BSC6900
GCELLPWR3
ULADJPRD
PwrCtrlULAdjPeriod BSC6900
GCELLPWR3
DLADJPRD
PwrCtrlDLAdjPeriod BSC6900
GCELLPWR3
SDMRCUTNUM
SdMrCutNum
BSC6900
GCELLPWR3
TCHMRCUTNUM
TchMrCutNum
BSC6900
GCELLPWR3
DLREXLEVEXPFLTLEN
DLRexLevExponent FilterLen BSC6900
GCELLPWR3
DLREXQUALEXPFLTLEN
DLRexQualExpone ntFilterLen BSC6900
GCELLPWR3
DLREXLEVSLDWINDOW
DLRexLevSlideWin dow BSC6900
DLREXQUALSLDWINDOW
DLRexQualSlideWi ndow BSC6900
GCELLPWR3
DLREXLEVADJFCTR
DLRexLevAdjustFa ctor BSC6900
GCELLPWR3
DLREXQUALADJFCTR
DLRexQualAdjustF actor BSC6900
GCELLPWR3
DLREXLEVHIGHTHRED
DLRexLevHighThre d BSC6900
GCELLPWR3
DLREXLEVLOWTHRED
DLRexLevLowthred BSC6900
GCELLPWR3
DLFSREXQUALHIGHTHRED
DLFSRexQualHigh Thred BSC6900
GCELLPWR3
GCELLPWR3
DLFSREXQUALLOWTHRED
DLFSRexQualLowT hred BSC6900
GCELLPWR3
DLHSREXQUALHIGHTHRED
DLHSRexQualHigh Thred BSC6900
GCELLPWR3
DLHSREXQUALLOWTHRED
DLHSRexQualLow Thred BSC6900
GCELLPWR3
DLAFSREXQUALHIGHTHRED
DLAFSRexQualHig hThred BSC6900
GCELLPWR3
DLAFSREXQUALLOWTHRED
DLAFSRexQualLow Thred BSC6900
GCELLPWR3
DLAHSREXQUALHIGHTHRED
DLAHSRexQualHig hThred BSC6900
GCELLPWR3
DLAHSREXQUALLOWTHRED
DLAHSRexQualLo wThred
BSC6900
GCELLPWR3
DLMAXDOWNSTEP
DLMAXDownStep
BSC6900
GCELLPWR3
DLMAXUPSTEP
DLMAXUpStep
BSC6900
GCELLPWR3
ULREXLEVEXPFLTLEN
ULRexLevExponent FilterLen BSC6900
GCELLPWR3
ULREXQUALEXPFLTLEN
ULRexQualExpone ntFilterLen BSC6900
GCELLPWR3
ULREXLEVSLDWINDOW
ULRexLevSlideWin dow BSC6900
GCELLPWR3
ULREXQUALSLDWINDOW
ULRexQualSlideWi ndow BSC6900
GCELLPWR3
ULREXLEVADJFCTR
ULRexLevAdjustFa ctor BSC6900
GCELLPWR3
ULREXQUALADJFCTR
ULRexQualAdjustF actor BSC6900
GCELLPWR3
ULREXLEVHIGHTHRED
ULRexLevHighThre d BSC6900
GCELLPWR3
ULREXLEVLOWTHRED
ULRexLevLowThre d BSC6900
GCELLPWR3
ULFSREXQUALHIGHTHRED
ULFSRexQualHigh Thred BSC6900
GCELLPWR3
ULFSREXQUALLOWTHRED
ULFSRexQualLowT hred BSC6900
GCELLPWR3
ULHSREXQUALHIGHTHRED
ULHSRexQualHigh Thred BSC6900
GCELLPWR3
ULHSREXQUALLOWTHRED
ULHSRexQualLow Thred BSC6900
GCELLPWR3
ULAFSREXQUALHIGHTHRED
ULAFSRexQualHig hThred BSC6900
GCELLPWR3
ULAFSREXQUALLOWTHRED
ULAFSRexQualLow Thred BSC6900
GCELLPWR3
ULAHSREXQUALHIGHTHRED
ULAHSRexQualHig hThred BSC6900
GCELLPWR3
ULAHSREXQUALLOWTHRED
ULAHSRexQualLo wThred
BSC6900
GCELLPWR3
ULMAXDOWNSTEP
ULMAXDownStep
BSC6900
GCELLPWR3
ULMAXUPSTEP
ULMAXUpStep
BSC6900
SAICTHREDAPDTVALUE
Power Control threshold Adjust for SAIC BSC6900
GCELLPWR3
GCELLPWR3
FINESTEPPCALLOWED
0.2dB Power Control Enable
BSC6900
GCELLPWR3
PWRCTRLOPTIMIZEDEN
III Power Control Optimized Enable
BSC6900
GCELLPWR3
ULFILTADJFACTOR
III UL Filter Adjust Factor
BSC6900
GCELLPWR3
DLFILTADJFACTOR
III DL Filter Adjust Factor
BSC6900
GCELLPWR3
ULRXLEVPROTECTFACTOR
III UL RexLev Protect Factor
BSC6900
GCELLPWR3
ULRXQUALPROTECTFACTOR
III UL RexQual Protect Factor
BSC6900
GCELLPWR3
DLRXLEVPROTECTFACTOR
III DL RexLev Protect Factor
BSC6900
GCELLPWR3
DLRXQUALPROTECTFACTOR
III DL RexQual Protect Factor
BSC6900
AMRCALLPCALLOWED
Allow III Power Control For AMR
BSC6900
GCELLPWR3
GCELLPWR3
NONAMRCALLPCALLOWED
Allow III Power Control For NonAMR
GCELLPWRBASIC
IDTYPE
Index Type
BSC6900
GCELLPWRBASIC
CELLID
Cell Index
BSC6900
GCELLPWRBASIC
CELLNAME
Cell Name
BSC6900
GCELLPWRBASIC
PCADJPERIOD
PC Interval
BSC6900
GCELLPWRBASIC
ULSSHIGHTHRED
UL RX_LEV Upper Threshold BSC6900
GCELLPWRBASIC
ULSSLOWTHRED
UL RX_LEV Lower Threshold BSC6900
GCELLPWRBASIC
ULQHIGHTHRED
UL Qual. Upper Threshold
BSC6900
BSC6900
GCELLPWRBASIC
ULQLOWTHRED
UL Qual. Lower Threshold
GCELLPWRBASIC
DLSSHIGHTHRED
DL RX_LEV Upper Threshold BSC6900
GCELLPWRBASIC
DLSSLOWTHRED
DL RX_LEV Lower Threshold BSC6900
GCELLPWRBASIC
DLQHIGHTHRED
DL Qual. Upper Threshold
BSC6900
BSC6900
GCELLPWRBASIC
DLQLOWTHRED
DL Qual. Lower Threshold
BSC6900
GCELLPWRBASIC
PWRCTRLSW
Power Control Switch
BSC6900
GCELLPWRBASIC
AMRSADLUPGRADE
AMR SACCH Downlink Power Upgrade
BSC6900
GCELLPWRBASIC
PWRBCDALLOWD
Power Forecast Allowed
BSC6900
GCELLPWRBASIC
COMBINERLOSS
Combiner Loss
BSC6900
GCELLPWRBASIC
DOUBLEANTENNAGAIN
GCELLPWRBASIC
PATHLOSS
Double Antenna Gain BSC6900 Path Loss of Different Frequency Band BSC6900
GCELLPWRBASIC
EXPDLRXLEV
Expected DL RX_LEV
BSC6900
GCELLPWRBASIC
EXPULRXLEV
Expected UL RX_LEV
BSC6900
GCELLPWRBASIC
SAICALLOWED
SAIC Allowed
BSC6900
GCELLQUICKSETUP
CELLID
Cell Index
BSC6900
GCELLQUICKSETUP
CELLNAME
Cell Name
BSC6900
GCELLQUICKSETUP
TYPE
Cell Type
BSC6900
GCELLQUICKSETUP
MCC
MCC
BSC6900
GCELLQUICKSETUP
MNC
MNC
BSC6900
GCELLQUICKSETUP
LAC
Cell LAC
BSC6900
GCELLQUICKSETUP
CI
Cell CI
BSC6900
GCELLQUICKSETUP
NCC
NCC
BSC6900
GCELLQUICKSETUP
BCC
BCC
BSC6900
GCELLQUICKSETUP
OPC
OSP Code
BSC6900
GCELLQUICKSETUP
BCCHFREQ
Main BCCH Frequency
BSC6900
GCELLQUICKSETUP
OTHERFREQ
Other Frequency
BSC6900
GCELLQUICKSETUP
SDCCHNUM
SDCCHChannelNu mber BSC6900
GCELLQUICKSETUP
GPRS
Support GPRS
BSC6900
GCELLQUICKSETUP
RA
Route Area
BSC6900
GCELLQUICKSETUP
NSEI
NSE Identifier
BSC6900
GCELLQUICKSETUP
BVCI
PTPBVC Identifier
BSC6900
GCELLQUICKSETUP
TEMPLATENAME
Cell Template Name
BSC6900
GCELLRESELECTPARA IDTYPE
Index Type
BSC6900
GCELLRESELECTPARA CELLID
Cell Index
BSC6900
GCELLRESELECTPARA CELLNAME
Cell Name
BSC6900
GPRSCELLRESELECTHYESTE GPRS Cell GCELLRESELECTPARA RESIS Reselect Hysteresis BSC6900
GCELLRESELECTPARA C31HYST
GPRS Cell Reselect Hysteresis Applied to C31 Criterion BSC6900
GCELLRESELECTPARA C32QUAL
Exceptional Rule for GPRS Reselect Offset BSC6900
GCELLRESELECTPARA RANDACCESSRETRY
Allow MS to Access to Another Cell BSC6900
GCELLRESELECTPARA TRESEL
Cell Reselection Forbidden Time
BSC6900
GCELLRESELECTPARA RARESELECTHYST
Accessorial Hysteresis of Cell Selection
BSC6900
GCELLREV
IDTYPE
Index Type
BSC6900
GCELLREV
CELLID
Cell Index
BSC6900
GCELLREV
CELLNAME
Cell Name
BSC6900
GCELLREV
ITEMINDEX
Item Index
BSC6900
GCELLREV
ITEMVALUE
Value
BSC6900
GCELLSBC
IDTYPE
Index Type
BSC6900
GCELLSBC
CELLID
Cell Index
BSC6900
GCELLSBC
CELLNAME
Cell Name
BSC6900
GCELLSBC
SUPPORTCELLBROADCAST
Support Cell Broadcast Name
BSC6900
GCELLSBC
GS
Geography Scope
BSC6900
GCELLSBC
CHANID
Chan ID
BSC6900
GCELLSBC
SCHEME
Coding Scheme
BSC6900
GCELLSBC
BROADCASTCONTENT
Broadcast Content
BSC6900
GCELLSBC
BROADCASTINTERVAL
Broadcast Interval
BSC6900
GCELLSERVPARA
IDTYPE
Index Type
BSC6900
GCELLSERVPARA
CELLID
Cell Index
BSC6900
GCELLSERVPARA
CELLNAME
Cell Name
BSC6900
GCELLSERVPARA
CELLBARACCESS2
Cell Access Bar Switch
BSC6900
GCELLSERVPARA
EXCACC
Exclusive Access
BSC6900
RXLEVACCMIN
Minimum Receiving level for Access BSC6900
GCELLSERVPARA
MSTXPWRMAX
Maximum TX Power for Access PCH
BSC6900
GCELLSERVPARA
PRIORCLASS
Cell HCS Prior Class
BSC6900
GCELLSERVPARA
GCELLSERVPARA
GPRSHCSTHR
Threshold of HCS Signal Strength
BSC6900
GCELLSERVPARA
MULTIBANDREP
Multi-Band Report
BSC6900
GCELLSOFT
IDTYPE
Index Type
BSC6900
GCELLSOFT
CELLID
Cell Index
BSC6900
GCELLSOFT
CELLNAME
Cell Name
BSC6900
GCELLSOFT
AIDDELAYPROTECTTIME
Aiding Delay Protect Time
BSC6900
GCELLSOFT
DIRMAGANSITEFLAG
Directly Magnifier BTS Flag
BSC6900
DROPCTRLERRINDT200
Drop Optimize Err Ind[T200 timeout]
GCELLSOFT
DROPCTRLERRINDDMRSP
Drop Optimize Err Ind[unsolicited DM response] BSC6900
GCELLSOFT
DROPCTRLERRINDSEQERR
Drop Optimize Err Ind[sequence error] BSC6900
GCELLSOFT
DROPCTRLCONNFAILRLFAIL
Drop Optimize Conn Fail[radio link fail] BSC6900
GCELLSOFT
Drop Optimize DROPCTRLCONNFAILHOACCF Conn Fail[HO AIL access fail]
BSC6900
GCELLSOFT
DROPCTRLCONNFAILOM
Drop Optimize Conn Fail[OM intervention]
BSC6900
GCELLSOFT
Drop Optimize DROPCTRLCONNFAILRRNOTA Conn Fail[resource VL not available] BSC6900
GCELLSOFT
BSC6900
DROPCTRLCONNFAILOTHER
Drop Optimize Conn Fail[other]
BSC6900
GCELLSOFT
DROPCTRLRELIND
Drop Optimize Release Indication
BSC6900
GCELLSOFT
DROPCTRLABISCONNFAIL
Drop Optimize ABIS Link Failure BSC6900
GCELLSOFT
DROPCTRLEQUIPFAIL
Drop Optimize Equipment Failure
BSC6900
GCELLSOFT
DROPCTRLFORCHOFAIL
Drop Optimize Forced Handover Failure
BSC6900
GCELLSOFT
DROPCTRLNOMR
Drop Optimize No MR for Long Time
BSC6900
GCELLSOFT
DROPCTRLRESCHK
Drop Optimize Resource Check
BSC6900
GCELLSOFT
DROPCTRLINBSCHO
Drop Optimize IntoBSC Handover Timeout BSC6900
DROPCTRLOUTBSCHOT8
Drop Optimize OutBSC Handover Timeout BSC6900
DROPCTRLINTRABSCOUTHO
Drop Optimize IntraBSC Handover Timeout BSC6900
GCELLSOFT
DROPCTRLINTRACELLHO
Drop Optimize IntraCell Handover Timeout BSC6900
GCELLSOFT
FREQSCANRLSTTYPE
Frequency Scan Result Type
BSC6900
ADAPTASSIGNMENTFLOW
Assignment Procedure in IntraCell HO Allowed
BSC6900
GCELLSOFT
FORCEMSACCESS
Force MS to Send Ho Access SWITCH
BSC6900
GCELLSOFT
SUBRESPREEMPTFLG
Sublink Resources Preemption Switch BSC6900
GCELLSOFT
GCELLSOFT
GCELLSOFT
GCELLSOFT
GCELLSOFT
LOWLEVSUBRESPREEMPTFL G
Low-level Sublink Resource Preempt Switch BSC6900
GCELLSOFT
OUTSERVICEALM
Cell Out-of-Service Alarm Switch BSC6900
GCELLSOFT
INTERBANDSTATALGO
Interfere Band Stat Algorithm Type BSC6900
GCELLSOFT
PMOAFLAG
GCELLSOFT
PMI
GCELLSOFT
PMNUM
Cell Paging Package Switch BSC6900 Interval for Sending Cell Paging Package BSC6900 Number of Cell Pagings in One Package BSC6900
GCELLSOFT
MSCAPABLESTATSWITCH
MS Capability Statistic Switch
BSC6900
GCELLSOFT
SDFASTHOSWITCH
SD Quick HO
BSC6900
GCELLSOFT
FORCEDCELLEFRSWITCH
Allow Forced EFR in Cell
BSC6900
GCELLSOFT
PAGINGAVGCAPACITYINPERI OD
Average Paging Message Number In Period
BSC6900
GCELLSOFT
MAX Paging PAGINGMAXCAPACITYINPERI Message Number OD In Period
BSC6900
GCELLSOFT
STIRCALLOWED
BSC6900
EICC Allowed
QUERYCMAFTERINBSCHO
Query Classmark after In-BSC HO Enabled
GCELLSOFT
SENDCMAFTERINBSCHO
Send Classmark ENQ Result to MSC Enabled BSC6900
GCELLSOFT
TCHTIMEHOSWITCH
TCH Time Handover Switch
BSC6900
GCELLSOFT
TCHTIMEHOPERIOD
TCH Time Handover Period
BSC6900
GCELLSOFT
FLEXTSCSWITCH
Flex TSC Switch
BSC6900
DUMMYBITRANDSWITCH
Dummy Bit Randomization Switch
BSC6900
GCELLSOFT
STOPSI5SWITCH
Stop Send SI 5/5bis/5ter after Encrypt
BSC6900
GCELLSOFT
ACTL2REEST
Activate L2 Reestablishment
BSC6900
BADQUALDISCTHRES
Bad Quality Disconnection Threshold
BSC6900
GCELLSOFT
GCELLSOFT
GCELLSOFT
BSC6900
TMRBADQUALDISCSTAT
Timer for Bad Quality DISC Statistic
BSC6900
GCELLSOFT
RPTDLVQIALLOWED
Report Downlink VQI Allowed
BSC6900
GCELLSOFT
PWRLOCATION
Location Group Power Switch
BSC6900
GCELLSOFT
FERRPTEN
FER Report Enable BSC6900
GCELLSOFT
PDCHPWRSAVEN
PDCH Power Saving Enable
BSC6900
BTSSAICPCADJSWITCH
Switch for BTS Supporting SAIC PC Adjust
BSC6900
GCELLSOFT
GCELLSOFT
GCELLSOFT
TSCPLANEN
TSC Plan Enable
BSC6900
GCELLSOFT
MACODINGMOD
ARFCN Coding Scheme
BSC6900
GCELLSOFT
BANDINDICATOR1900
High Band Indicator of Cell 1900 BSC6900
GCELLSOFT
BANDINDICATOR900
High Band Indicator of Cell 900 BSC6900
GCELLSOFT
BANDINDICATOR850
High Band Indicator of Cell 850 BSC6900
GCELLSOFT
CELLPAGINGOVERLOADCOUN Cell Paging TER Overload Threshold BSC6900
GCELLSOFT
Um Interface Crosstalk Optimization UMCROSSTALKOPTALLOWED Allowed
GCELLSOFT
QTRUCHANMANGSWITCH
BSC6900
QTRU Signal Merge Avoid Switch BSC6900
GCELLSOFT
PAGINGLIFETIME
BTS Paging Lifetime
GCELLSOFT
TCMUTEDETECTFLAG
Mute Detect Class1 Switch BSC6900
GCELLSOFT
MUTECHECKCLASS1PERIOD
Period of Mute Detect Class1
GCELLSOFT
EXCEPFRAMETHRES
Exceptional Frame Threshold of Mute Detect Class1 BSC6900
GCELLSOFT
MUTECHECKCLASS2SWITCH
Mute Detect Class2 Switch BSC6900
BSC6900
BSC6900
GCELLSOFT
DETECTFRAMEPERIOD
Period of Mute Detect Class2 TRAU Frame
GCELLSOFT
MUTECHECKPEIROD
Period of Mute Detect Class2
BSC6900
GCELLSOFT
MUTEFORBITCALLTMINTVAL
Access Prohibited Upon One-Way Audio
BSC6900
GCELLSOFT
Forced Call Release Upon Failed Handover in MUTERELCALLEN One-Way Audio BSC6900 Call Drop Statistic Switch after Hang CALLDISCSTATOPTALLOWED up BSC6900
GCELLSOFT
BSC6900
CHANFAULTALMSWITCH
Monitoring Alarm Switch for Channel Failure BSC6900
CHANFAULTALMTCHTH
TCH Available Threshold of Channel Failure
BSC6900
CHANFAULTALMPDCHTH
PDCH Available Threshold of Channel Failure
BSC6900
GCELLSOFT
CHANPDOUTTIME
PDCH Out-ofSynchronization Period
BSC6900
GCELLSOFT
BANDINDICATOR810
High Band Indicator of Cell 810 BSC6900
GCELLSOFT
CSFBPAGRSPBCSWITCH
Unknown Paging Response Support
GCELLSOFT
GCELLSOFT
GCELLSOFT
BSC6900
GCELLSOFT
DLDTXPOLICY
DL DTX Strategy
BSC6900
ENTSWITCH
Real-Time Event Report Switch
BSC6900
GCELLSTANDARDOPTP ARA IDTYPE
Index Type
BSC6900
GCELLSTANDARDOPTP ARA CELLID
Cell Index
BSC6900
GCELLSTANDARDOPTP ARA CELLNAME
Cell Name
BSC6900
GCELLSTANDARDOPTP ARA N3101
Maximum Value of N3101
BSC6900
GCELLSOFT
GCELLSTANDARDOPTP ARA N3103
Maximum Value of N3103
BSC6900
GCELLSTANDARDOPTP ARA N3105
Maximum Value of N3105
BSC6900
GCELLSYSMSG
IDTYPE
Index Type
BSC6900
GCELLSYSMSG
CELLNAME
Cell Name
BSC6900
GCELLSYSMSG
CELLID
Cell Index
BSC6900
GCELLTEMPLATE
IDTYPE
Index Type
BSC6900
GCELLTEMPLATE
TEMPLATEID
Cell Template Index BSC6900
GCELLTEMPLATE
TEMPLATENAME
Cell Template Name
BSC6900
GCELLTEMPLATE
NEWNAME
New Name
BSC6900
GCELLTEMPLATE
TEMPLATEDESC
Cell Template Description
BSC6900
GCELLTEMPLATE
CELLID
Cell Index
BSC6900
GCELLTEMPLATE
CELLNAME
Cell Name
BSC6900
GCELLTEMPLATEPARA IDTYPE
Index Type
BSC6900
GCELLTEMPLATEPARA TEMPLATEID
Cell Template Index BSC6900
GCELLTEMPLATEPARA TEMPLATENAME
Cell Template Name
BSC6900
GCELLTEMPLATEPARA MOCNAME
Management Object Name
BSC6900
GCELLTEMPLATEPARA MOCATTRNAME
MOC Attribute Name
BSC6900
GCELLTEMPLATEPARA MOCATTRVALUE
MOC Attribute Value
BSC6900
GCELLTMR
IDTYPE
Index Type
BSC6900
GCELLTMR
CELLID
Cell Index
BSC6900
GCELLTMR
CELLNAME
Cell Name
BSC6900
GCELLTMR
ESTABINDTIMER
T3101
BSC6900
GCELLTMR
IMMASSAINTERFTIMER
IMM ASS A IF Creation Timer
BSC6900
GCELLTMR
INTRABSCHOTIMER
T3103A
BSC6900
GCELLTMR
INTRACELLHOTIMER
T3103C
BSC6900
GCELLTMR
OUTBSCHOCMDTIMER
T7
BSC6900
GCELLTMR
ASSTIMER
T3107
BSC6900
GCELLTMR
INBSCHOTIMER
T3121
BSC6900
GCELLTMR
OUTBSCHOCLEARTIMER
T8
BSC6900
GCELLTMR
WAITFORRELIND
T3109
BSC6900
GCELLTMR
DELAYSENDRFCHREL
T3111
BSC6900
GCELLTMR
MSIPFAILINDDELAY
TREESTABLISH
BSC6900
GCELLTMR
IMMREJWAITINDTIMER
T3122
BSC6900
GCELLTMR
WAITFORRELINDAMRFR
Wait for REL Indication AMR FR BSC6900
GCELLTMR
WAITFORRELINDAMRHR
T3109 for AMR HR BSC6900
GCELLTMR
TIQUEUINGTIMER
T11
BSC6900
TQHO
Into-BSC HO REQ Queue Timer
BSC6900
GCELLTMR
GCELLTMR
WAITRESVCHANREFRESHTIM Timer of Reserved ER TCH for EMC
BSC6900
GCELLTMR
ULDATAFWDTMR
Timer for UL Data Forward
BSC6900
GCELLTMR
INTRABSCCODECHOCMDTIME R T25
BSC6900
GCNNODE
CNNODEIDX
CN Node Index
BSC6900
GCNNODE
DPX
DSP index
BSC6900
GCNNODE
DPCGIDX
DPC Group Index
BSC6900
GCNNODE
OPNAME
Operator Name
BSC6900
GCNNODE
MSCCAP
MSC Available Capability
BSC6900
GCNNODE
CNID
MSC ID
BSC6900
GCNNODE
MSCSTATUE
MSC Administrable State BSC6900
GCNNODE
BSSLSMSCCOOP
MSC-Collaborated BSS Local Switching
GCNNODE
DFDPC
Default DPC
BSC6900
FORBIDNO7FLASHDISC
Anti DPC Intermittent Disconnect Timer
BSC6900
GCNNODE
BSC6900
GCNNODE
RTCPSWITCH
Enable RTCP
BSC6900
GCNNODE
RTCPBWRATIO
RTCP Bandwidth Usage
BSC6900
GCNNODE
SaGsmrMsc
Trunking MSC
BSC6900
SptPaging
Support Paging Message from Trunking MSC
BSC6900
ATransMode
Bearer for A Interface User Plane
BSC6900
GCNNODE
CodecRptFlg
Report BSS Transmission Capability
BSC6900
GCNOPERATOR
OPINDEX
Operator Index
BSC6900
GCNNODE
GCNNODE
GCNOPERATOR
OPNAME
Operator Name
BSC6900
GCNOPERATOR
MCC
MCC
BSC6900
GCNOPERATOR
MNC
MNC
BSC6900
GCNOPERATOR
SpprtCB
Support Cell Broadcast
BSC6900
GCNOPERATOR
HOBTWNOTHOPALLOW
Handover Between Operators Allow BSC6900
GCNOPERATOR
MSCPOOLALLOW
MSC Pool Function Enabled BSC6900
GCNOPERATOR
MSCNRILEN
Length of NRI in TMSI
LOADBALANCEALG
MSC Pool Load Balancing Algorithm Select BSC6900
GCNOPERATOR
BSC6900
GCNOPERATOR
TIIMSIPAGING
IMSI Paging Timer
BSC6900
GCNOPERATOR
TIWAITMSCMSG
Receive MSC Configuration Message Timer
BSC6900
GCNOPERATOR
MSCNULLNRI
MSC NULL-NRI Value
BSC6900
GCNOPERATOR
SGSNPOOLALLOW
Allow SGSN Pool
BSC6900
GCNOPERATOR
SGSNNRILEN
SGSN NRI Length
BSC6900
GCNOPERATOR
SGSNNULLNRI
SGSN NullNRI Value
BSC6900
GCNOPERATOR
OperatorType
Operator Type
BSC6900
CSRCDSW
CHR Function Switch
BSC6900
GCSCHRCTRL
GCSCHRCTRL
CSOUTMODE
CHR Output Mode
BSC6900
GCSCHRCTRL
CSTRAFTYPE
Service Type of CHR Output
BSC6900
GCSCHRCTRL
CSOUTRANGE
CHR Output Range BSC6900
GCSCHRCTRL
CSHOINFO
CHR Handover Information Output
BSC6900
GCSCHRCTRL
CSSIGINFO
CHR Signaling Output
BSC6900
GCSCHRCTRL
CSADDTINFO
CHR Supplementary Info Output Control BSC6900
GCSCHRCTRL
CSCLTERMABNORM
Abnormal Call End Output Control
BSC6900
GCSCHRCTRL
CSBQTHR
Bad Speech Quality Rate Threshold BSC6900
GCSCHRCTRL
CSMRBFCLR
Output MR Before Call Release
BSC6900
GCSCHRCTRL
CSMRBFHO
Output MR Before Handover
BSC6900
GCSCHRCTRL
CSCHRMR
CHR MR Output
BSC6900
GCSCHRCTRL
CSVOICEINFO
CHR Speech Information
BSC6900
GCSCHRSCOPE
IDTYPE
Index Type
BSC6900
GCSCHRSCOPE
BTSID
BTS Index
BSC6900
GCSCHRSCOPE
BTSNAME
BTS Name
BSC6900
GCSCHRSCOPE
CELLID
Cell Index
BSC6900
GCSCHRSCOPE
CELLNAME
Cell Name
BSC6900
GCSCHRSCOPE
CHRCOLLECTSWITCH
CHR Collection Switch
GCSCHRUSER
OBJIDX
User Index
BSC6900
GCSCHRUSER
USERIDTYPE
User Identity Type
BSC6900
GCSCHRUSER
TMSI
TMSI
BSC6900
GCSCHRUSER
IMSI
IMSI
BSC6900
GCSCHRUSER
MSISDN
MSISDN
BSC6900
GCSCHRUSER
IMEI
IMEI
BSC6900
GCSFILE
MODE
BSC6900
GCSFILE
CYCLE
File Output Mode Period of New File Generation[min]
GEXT2GCELL
EXT2GCELLID
Cell Index
BSC6900
GEXT2GCELL
EXT2GCELLNAME
Cell Name
BSC6900
GEXT2GCELL
MCC
MCC
BSC6900
BSC6900
BSC6900
GEXT2GCELL
MNC
MNC
BSC6900
GEXT2GCELL
LAC
Cell LAC
BSC6900
GEXT2GCELL
CI
Cell CI
BSC6900
GEXT2GCELL
BCCH
BCCH FD
BSC6900
GEXT2GCELL
NCC
NCC
BSC6900
GEXT2GCELL
BCC
BCC
BSC6900
GEXT2GCELL
COMSC
Co-MSC
BSC6900
GEXT2GCELL
LAYER
Layer of the cell
BSC6900
GEXT2GCELL
PRIOR
Cell Priority
BSC6900
GEXT2GCELL
HOTHRES
Inter-layer HO Threshold
BSC6900
GEXT2GCELL
SDPUNVAL
Penalty on Fast Moving HO
BSC6900
GEXT2GCELL
SDPUNTIME
Penalty Time on Fast Moving HO
BSC6900
GEXT2GCELL
MSRXMIN
Min DL level on candidate Cell
BSC6900
GEXT2GCELL
TIMEPUNISH
Quick Handover Punish Time
BSC6900
GEXT2GCELL
HOPUNISHVALUE
Quick Handover Punish Value
BSC6900
GEXT2GCELL
HOOFFSET
Quick Handover Offset
BSC6900
GEXT2GCELL
LoadHoEnExt2G
Load Handover Support
BSC6900
GEXT2GCELL
LoadAccThres
Load handover Load Accept Threshold
BSC6900
GEXT2GCELL
ISNC2SUPPORT
GEXT2GCELL
ISGPRSSUPPORT
GEXT2GCELL
ISEDGESUPPORT
NC2 Support in External Neighbour Cell BSC6900 GPRS Support in External Neighbour Cell BSC6900 EDGE Support in External Neighbour Cell BSC6900
GEXT2GCELL
RA
RAC
BSC6900
GEXT2GCELL
BSCIDX
BSC Index
BSC6900
GEXT2GCELL
OPNAME
Operator Name
BSC6900
GEXT2GCELL
IDTYPE
Index Type
BSC6900
GEXT2GCELL
SRCMCC
Source Cell MCC
BSC6900
GEXT2GCELL
SRCMNC
Source Cell MNC
BSC6900
GEXT2GCELL
SRCLAC
Source Cell LAC
BSC6900
GEXT2GCELL
SRCCI
Source Cell CI
BSC6900
GEXT2GCELL
BSCN2GCELLNAME
New Cell Name
BSC6900
GEXT3GCELL
EXT3GCELLID
Cell Index
BSC6900
GEXT3GCELL
EXT3GCELLNAME
Cell Name
BSC6900
GEXT3GCELL
MCC
MCC
BSC6900
GEXT3GCELL
MNC
MNC
BSC6900
GEXT3GCELL
LAC
Cell LAC
BSC6900
GEXT3GCELL
CI
Cell CI
BSC6900
GEXT3GCELL
RNCID
RNC ID
BSC6900
GEXT3GCELL
RNCINDEX
Neighboring RNC Index
BSC6900
GEXT3GCELL
CELLLAYER
Layer of the cell
BSC6900
GEXT3GCELL
DF
DL UARFCN
BSC6900
GEXT3GCELL
SCRAMBLE
Scrambling Code or Cell Parameter Id BSC6900
GEXT3GCELL
DIVERSITY
Diversity
BSC6900
GEXT3GCELL
UTRANCELLTYPE
Utran Cell Type
BSC6900
GEXT3GCELL
SYNCCASE
Sync case
BSC6900
GEXT3GCELL
ECNOTHRES
Ec/No Threshold for Layer Of 3G Cell BSC6900
GEXT3GCELL
MINECNOTHRES
Min Ec/No threshold
BSC6900
GEXT3GCELL
FDDECQUALTHRSH
PS FDD Ec/No Quality Threshold
BSC6900
GEXT3GCELL
FDDRSCPQUALTHRSH
PS FDD RSCP Quality Threshold
BSC6900
GEXT3GCELL
TDDRSCPQUALTHRSH
PS TDD RSCP Quality Threshold
BSC6900
GEXT3GCELL
RSCPTHRES
RSCP Threshold for Layer of 3G Cell BSC6900
MINRSCPTHRES
Min RSCP threshold
GEXT3GCELL
BSC6900
LoadHoEnExt3G
Load Handover Support
BSC6900
GEXT3GCELL
LoadAccThres
Load handover Load Accept Threshold
BSC6900
GEXT3GCELL
OPNAME
Operator Name
BSC6900
GEXT3GCELL
RA
Route Area
BSC6900
GEXT3GCELL
IDTYPE
Index Type
BSC6900
GEXT3GCELL
BSCN3GCELLNAME
New Cell Name
BSC6900
GEXT3GCELL
GEXTLTECELL
EXTLTECELLID
Cell Index
BSC6900
GEXTLTECELL
EXTLTECELLNAME
Cell Name
BSC6900
GEXTLTECELL
MCC
MCC
BSC6900
GEXTLTECELL
MNC
MNC
BSC6900
GEXTLTECELL
ENODEBTYPE
eNodoB Type
BSC6900
GEXTLTECELL
CI
Cell CI
BSC6900
GEXTLTECELL
TAC
Cell TAC
BSC6900
GEXTLTECELL
FREQ
EARFCN
BSC6900
GEXTLTECELL
PCID
Physical Cell ID
BSC6900
GEXTLTECELL
EUTRANTYPE
EUTRAN Cell Type BSC6900
GEXTLTECELL
OPNAME
Operator Name
BSC6900
GEXTLTECELL
IDTYPE
Index Type
BSC6900
GEXTLTECELL
BSCNLTECELLNAME
New Cell Name
BSC6900
GEXTSMLC
SMLCIDX
SMLC Index
BSC6900
GEXTSMLC
OPNAME
Operator Name
BSC6900
GEXTSMLC
SMLCMode
SMLC Mode
BSC6900
GEXTSMLC
DPX
DSP index
BSC6900
WaitSMLCLocationResponse
Timer of MS Location Response from SMLC BSC6900
GEXTSMLC
WaitMSLocationResponse
Timer of MS Location Response from MS BSC6900
GEXTSMLC
LBCongestProtect1
Lb Congestion Protection Timer 1
BSC6900
GEXTSMLC
LBCongestProtect2
Lb Congestion Protection Timer 2
BSC6900
GEXTSMLC
GIBCAPNCGRP
IDTYPE
Index Type
BSC6900
GIBCAPNCGRP
SRC2GNCELLID
Source Cell Index
BSC6900
GIBCAPNCGRP
SRC2GNCELLNAME
Source Cell Name
BSC6900
GIBCAPNCGRP
NBR2GNCELL1ID
Neighbor 2G Cell 1 Index BSC6900
GIBCAPNCGRP
NBR2GNCELL1NAME
Neighbor 2G Cell 1 Name BSC6900
GIBCAPNCGRP
NBR2GNCELL2ID
Neighbor 2G Cell 2 Index BSC6900
GIBCAPNCGRP
NBR2GNCELL2NAME
Neighbor 2G Cell 2 Name BSC6900
GIURGCONN
RNCINDEX
Neighboring RNC Index
BSC6900
GIURGCONN
CONNTYPE
Connection Type
BSC6900
GIURGCONN
SRN
Subrack No.
BSC6900
GIURGCONN
SN
Slot No.
BSC6900
GIURGCONN
SSN
Subsystem No.
BSC6900
GIURGCONN
DESTSRN
Peer Subrack No.
BSC6900
GIURGCONN
DESTSN
Peer Slot No.
BSC6900
GIURGCONN
DESTSSN
Peer Subsystem No.
BSC6900
GLOBALROUTESW
GLOBALROUTESW
Global route management switch BSC6900
GLTENCELL
IDTYPE
Index Type
BSC6900
GLTENCELL
SRCLTENCELLID
Source Cell Index
BSC6900
GLTENCELL
SRCLTENCELLNAME
Source Cell Name
BSC6900
GLTENCELL
NBRLTENCELLID
Neighbor Cell Index BSC6900
GLTENCELL
NBRLTENCELLNAME
Neighbor Cell Name
BSC6900
GLTENCELL
SPTRESEL
Support Cell Reselection
BSC6900
GLTENCELL
SPTBLINDHO
Support Blind Handover
BSC6900
GLTENCELL
SPTRAPIDSEL
Support Rapid Reselection
BSC6900
GLTENCELL
NCELLPRI
Neighboring Cell Priority
BSC6900
GMRCTRL
MRSWITCH
MR Collection Control Switch
BSC6900
GMRCTRL
RAWMRSAMPLE
Raw MR Sample Ratio
BSC6900
GMRCTRL
PREMRSAMPLE
Preprocess MR Sample Ratio
BSC6900
GMRSCOPE
SCOPETYPE
Scope Type
BSC6900
GMRSCOPE
BTSID
BTS Index
BSC6900
GMRSCOPE
CELLID
Cell Index
BSC6900
GMRSCOPE
MRSCOPESWITCH
MR Collection Scope Switch
BSC6900
GNRNC
RNCINDEX
Neighboring RNC Index
BSC6900
GNRNC
RNCNAME
Neighboring RNC Name
BSC6900
GNRNC
INTRAMBSC
Co-MBSC
BSC6900
GNRNC
DPX
DSP index
BSC6900
GNRNC
OPX
GNRNC
SPTCOMMMEAS
OPX BSC6900 Allow Common Measurement at Iurg BSC6900
GNRNC
MEASPERIOD
Measurement Period
BSC6900
GNRNC
SupptCellList
SupptCellList
BSC6900
GNRNC
SPTINFOEXCHG
Allow Info Exchange at Iur-g
BSC6900
GNRNC
INFOEXCHGLIST
Info Exchange Content
BSC6900
GNRNC
RESUMETIMER
Resume Timer
BSC6900
GNRNC
OUTTIMER
Load Info Timeout Timer
BSC6900
GPS
AGPSRECEIVERID
GPS ID
BSC6900
GPS
AGPSRECEIVERTYPE
GPS type
BSC6900
GPS
GPSPERIOD
GPS data report period
BSC6900
GPS
DGPSPERIOD
DGPS data report period[min]
BSC6900
GPS
GCDF
GCDF
BSC6900
GPS
MTRLGY
Metrology
BSC6900
GPS antenna latitude
GPS
LATITUDE
BSC6900
GPS
LONGITUDE
GPS
ALTITUDE
GPS antenna longitude GPS antenna altitude
GPS
LATITUDESEC
GPS antenna latitude
GPS
LONGITUDESEC
GPS
ALTITUDEIMP
GPS antenna longitude GPS antenna altitude
GPS
GPSPERIOD
GPS data report period
BSC6900
GPS
DGPSPERIOD
DGPS data report period[min]
BSC6900
GPSCHRCTRL
PSRCDSW
PS CHR Switch
BSC6900
GPSCHRCTRL
PSOUTMODE
Mode Control
BSC6900
GPSCHRCTRL
PSCHRUM
PS CHR Um
BSC6900
GPSCHRCTRL
PSCHRABIS
PS CHR Abis
BSC6900
BSC6900 BSC6900
BSC6900
BSC6900 BSC6900
GPSCHRCTRL
PSCHRGB
PS CHR Gb
BSC6900
GPSCHRCTRL
PSCHRINNINFO
PS CHR Inner Information
BSC6900
GPSCHRCTRL
PSCHRINNMSG
PS CHR Inner Message
BSC6900
GPSCHRSCOPE
IDTYPE
Index Type
BSC6900
GPSCHRSCOPE
CELLID
Cell Index
BSC6900
GPSCHRSCOPE
CELLNAME
Cell Name
BSC6900
GPSCHRSCOPE
CHRCOLLECTSWITCH
PS CHR Collect Switch
BSC6900
GPSCHRUSER
OBJIDX
Object Index
BSC6900
GPSCHRUSER
IMSI
IMSI
BSC6900
GREDGRPPRIMHOSTP OLICY
REHOSTTYPE
ReHost Type
BSC6900
GREDGRPPRIMHOSTP OLICY
REHOSTDELAYTIME
ReHostDelayTime
BSC6900
GREDGRPPRIMHOSTP OLICY
REHOSTABSTIME
ReHost Absolute Time
BSC6900
GSMSCB
IDTYPE
Index Type
BSC6900
GSMSCB
CELLLIST
Cell Index List
BSC6900
GSMSCB
CELLNAMELIST
Cell Name List
BSC6900
GSMSCB
GS
Geography Scope
BSC6900
GSMSCB
CODE
Code
BSC6900
GSMSCB
UPDATE
Update
BSC6900
GSMSCB
CHANID
Chan ID
BSC6900
GSMSCB
SCHEME
Coding Scheme
BSC6900
GSMSCB
TEXT
Content of Message BSC6900
GSMSCB
REP
Repeat
BSC6900
GSMSCB
INT
Broadcast Interval
BSC6900
GSMSCB
ST
Start Time
BSC6900
GSMSCB
ET
End Time
BSC6900
GTRX
TRXID
TRX ID
BSC6900
GTRX
FREQ
Frequency
BSC6900
GTRX
IDTYPE
Index Type
BSC6900
GTRX
CELLID
Cell Index
BSC6900
GTRX
CELLNAME
Cell Name
BSC6900
GTRX
ISMAINBCCH
Is Main BCCH TRX BSC6900
GTRX
TRXNO
TRX No.
BSC6900
GTRXADMSTAT
TRXID
TRX ID
BSC6900
GTRXADMSTAT
ADMSTAT
Administrative State BSC6900
GTRXBASE
TRXID
TRX ID
BSC6900
GTRXBASE
MAXPDCHNUM
Maximum Number of PDCH
BSC6900
MAXTSOCP
Maximum Number of Occupied Abis Timeslots
BSC6900
TRX ID
BSC6900
GTRXBASE
GTRXBIND2HDLCPATH TRXID
GTRXBIND2HDLCPATH PTUID
HDLC Path Index In BTS BSC6900
GTRXCHAN
TRXID
TRX ID
BSC6900
GTRXCHAN
CHNO
Channel No.
BSC6900
GTRXCHAN
CHTYPE
Channel Type
BSC6900
GTRXCHAN
GPRSCHPRI
PDCH Channel Priority Type
BSC6900
GTRXCHAN
TSPRIORITY
Timeslot Priority
BSC6900
GTRXCHANADMSTAT
TRXID
TRX ID
BSC6900
GTRXCHANADMSTAT
CHNO
Channel No.
BSC6900
GTRXCHANADMSTAT
ADMSTAT
Administrative State BSC6900
GTRXCHANHOP
TRXID
TRX ID
BSC6900
GTRXCHANHOP
CHNO
Channel No.
BSC6900
GTRXCHANHOP
TRXHOPINDEX
Channel Hop Index BSC6900
GTRXCHANHOP
TRXMAIO
Channel MAIO
BSC6900
GTRXDEV
TRXID
TRX ID
BSC6900
GTRXDEV
POWL
Power Level
BSC6900
GTRXDEV
POWT
Power Type
BSC6900
GTRXDEV
OPTL
TRX Priority
BSC6900
GTRXDEV
SDFLAG
Shut Down Enabled BSC6900
GTRXDEV
TCHAJFLAG
TCH Rate Adjust Allow
BSC6900
GTRXDEV
PL8PSK
TRX 8PSK Level
BSC6900
GTRXDEV
PWRSPNR
Power Finetune
BSC6900
GTRXDEV
RCVMD
Receive Mode
BSC6900
GTRXDEV
SNDMD
Send Mode
BSC6900
GTRXDEV
CPS
Allow Dynamic Shutdown of TRX
BSC6900
GTRXDEV
TSPWRRESERVE
Timeslot Power Reserve
BSC6900
FREQREUSEMODE
Frequency Reuse Mode
BSC6900
GTRXDEV
PAOPTILEVEL
Priority of Shut Down TRX
BSC6900
GTRXDEV
Power Overload OUTHOPWROVERLOADTHRES Threshold In Ho. HOLD Out
GTRXDEV
INHOPWROVERLOADTHRESH Power Overload OLD Threshold In Ho. In BSC6900
GTRXDEV
PL16QAM
16QAM Transmitter Power Reduce Level BSC6900
PL32QAM
32QAM Transmitter Power Reduce Level BSC6900
GTRXDEV
GTRXDEV
BSC6900
GTRXFC
TRXID
TRX ID
BSC6900
GTRXFC
CSTARTTHD
Congestion Start Threshold
BSC6900
GTRXFC
CENDTHD
Congestion End Threshold
BSC6900
GTRXFC
FCSTHD
Flow Control Start Threshold
BSC6900
GTRXFC
FCETHD
Flow Control End Threshold
BSC6900
GTRXHOP
TRXID
TRX ID
BSC6900
GTRXHOP
HOPTYPE
Hop Type
BSC6900
GTRXIUO
TRXID
TRX ID
BSC6900
GTRXIUO
IUO
Concentric Attribute BSC6900
GTRXRLALM
TRXID
TRX ID
GTRXRLALM
WLNKALMFLAG
Wireless Link Alarm Flag BSC6900
BSC6900
GTRXRLALM
ARELBASE
Abnormal Release Statistic Base
BSC6900
GTRXRLALM
ARELWTHD
Abnormal Warn Threshold
BSC6900
GTRXRLALM
AREDISTHD
Abnormal Release Threshold
BSC6900
GTRXRLALM
NOTRASP
Statistical Period of No-traffic BSC6900
GTRXRLALM
WLAFLAG
Wireless Link Alarm Critical Permit BSC6900
GTRXRLALM
WLARP
WLA Prompting Recover Period
GTRXRLALM
WLASTIME
Begin Time of WLA Detection BSC6900
BSC6900
GTRXRLALM
WLAETIME
End Time of WLA Detection
BSC6900
GTRXRLALM
BBDIF
Up Down Balance Basic Difference
BSC6900
GTRXRLALM
BFRANGE
Up Down Balance Floating Range
BSC6900
GTRXRLALM
BWTHD
Up Down Balance Alarm Threshold
BSC6900
GVNPADDR
VNPIP
VNP IP Address
BSC6900
GVNPADDR
CATEGORY
Category Version
BSC6900
ICMPGUARD
SRN
Subrack No.
BSC6900
ICMPGUARD
SN
Slot No.
BSC6900
ICMPGUARD
IPADDR
Packet source IP address
BSC6900
ICMPGUARD
MASK
Packet source mask
BSC6900
ICMPGUARD
GUARDTYPE
ICMP type which will be guarded
BSC6900
IMSIGRP
ImsiGrpIndex
IMSI Segment Index
BSC6900
IMSIGRP
ImsiGrpDscrpt
Description of the IMSI segment
BSC6900
IMSIGRP
ImsiMin
Start IMSI value
BSC6900
IMSIGRP
ImsiMax
End IMSI value
BSC6900
IMSISHAMAP
ImsiShaMapIndex
IMSI Index of Handover Sharing Area Record
BSC6900
IMSISHAMAP
SHAC
Handover Sharing Area
BSC6900
IMSISHAMAP
ImsiGrpIndex
IMSI Segment Index
BSC6900
IMSISRAMAP
ImsiMapIndex
IMSI Category Index
BSC6900
IMSISRAMAP
Srac
Routing Sharing Area Code
BSC6900
IMSISRAMAP
ImsiGrpIndex
IMSI Segment Index
BSC6900
IMSISRAMAP
UsrCatIndex
Subscriber Category Index
BSC6900
IPLOGICPORT
SRN
Subrack No.
BSC6900
IPLOGICPORT
SN
Slot No.
BSC6900
IPLOGICPORT
BT
Board Type
BSC6900
IPLOGICPORT
LPNTYPE
Type of the logic port
BSC6900
IPLOGICPORT
LPN
Logic port No.
BSC6900
IPLOGICPORT
CARRYT
The bearing type of the logic port BSC6900
IPLOGICPORT
PN
Physical port No.
BSC6900
IPLOGICPORT
UPPERLP
The Upper logic port number
BSC6900
IPLOGICPORT
TRUNKN
The Trunk group No.
BSC6900
IPLOGICPORT
PPPLNKN
PPP link No.
BSC6900
IPLOGICPORT
MPGRPN
MP Group No.
BSC6900
RSCMNGMODE
Resource management mode BSC6900
IPLOGICPORT
BWADJ
Auto adjust bandwidth switch
BSC6900
IPLOGICPORT
MAXBW
Max bandwidth [64kbps]
BSC6900
IPLOGICPORT
MINBW
Min bandwidth [64kbps]
BSC6900
IPLOGICPORT
BWRTPTH
Load Control algorithm BandWidth THD[%] BSC6900
IPLOGICPORT
CIR
Bandwidth [64kbps] BSC6900
IPLOGICPORT
CBS
Consent burst size [Byte]
BSC6900
IPLOGICPORT
OAMFLOWBW
OAM flow min bandwidth[%]
BSC6900
IPLOGICPORT
RDC
Rate down coefficient [%]
BSC6900
IPLOGICPORT
IPLOGICPORT
RUS
Rate up step [kbps] BSC6900
IPLOGICPORT
PLPRD
Packet lost measure period [100ms]
IPLOGICPORT
RUSPRD
Rate up step adjust period [PLPRD] BSC6900
IPLOGICPORT
BWMAXRATIO
Max bandwidth estimate ratio [%]
BSC6900
IPLOGICPORT
PLTH
Packet discard threshold[0.001]
BSC6900
IPLOGICPORT
LATPRD
Delay measure period [100ms]
BSC6900
IPLOGICPORT
LATTH
Rate down threshold for delay [ms]
BSC6900
IPLOGICPORT
LOSTSUSTM
Suspend times after bandwidth adjusted BSC6900
BSC6900
IPLOGICPORT
LATSUSTM
Delay adjust suspend period [LATTH]
IPLOGICPORT
LATUPK
Average delay up filter mantissa
IPLOGICPORT
LATUDK
Average delay down filter mantissa BSC6900
IPLOGICPORT
FLOWCTRLSWITCH
Flow control switch BSC6900
IPLOGICPORT
FCINDEX
Flow control parameter index
BSC6900
RPTTHD
Decrease rate alarm report threshold
BSC6900
RECOVERTHD
Decrease rate alarm recover threshold
BSC6900
IPLOGICPORT
IPLOGICPORT
BSC6900
BSC6900
IPLOGICPORT
TRMLOADTHINDEX
TRM load threshold index BSC6900
IPLOGICPORT
LPN
Logic port No.
BSC6900
IPLOGICPORT
LPN
Logic port No.
BSC6900
IPMUX
MUXTYPE
IP MUX Type
BSC6900
IPMUX
ANI
Adjacent node ID
BSC6900
IPMUX
PATHID
IP path ID
BSC6900
IPMUX
ISQOSPATH
IS QOSPATH
BSC6900
IPMUX
PHB
PHB
BSC6900
IPMUX
SUBFRAMELEN
Max subframe length[byte]
BSC6900
IPMUX
MAXFRAMELEN
Maximum Frame Length[byte]
BSC6900
IPMUX
FPTIMER
Maximum Delay Time[ms]
BSC6900
IPMUX
UDPMUXMODSEND
Sender UDP MUX Mode
BSC6900
IPMUX
UDPMUXMODRECV
Receive UDP MUX Mode BSC6900
IPMUX
IPMUXINDEX
IP MUX Index
BSC6900
IPMUX
MUXTYPE
IP MUX Type
BSC6900
IPPATH
ANI
Adjacent Node ID
BSC6900
IPPATH
PATHID
IP path ID
BSC6900
IPPATH
ITFT
Interface Type
BSC6900
IPPATH
TRANST
Transport Type
BSC6900
IPPATH
PATHT
IP path type
BSC6900
IPPATH
IPADDR
Local IP address
BSC6900
IPPATH
PEERIPADDR
Peer IP address
BSC6900
IPPATH
PEERMASK
Peer subnet mask
BSC6900
IPPATH
TXBW
Forward Bandwidth BSC6900
IPPATH
RXBW
Backward Bandwidth
BSC6900
IPPATH
CARRYFLAG
Carry Flag
BSC6900
IPPATH
LPNSN
IP Logic Port Slot No.
BSC6900
IPPATH
LPN
IP Logic Port No.
BSC6900
IPPATH
RSCGRPN
Rscgrp No.
BSC6900
IPPATH
TRMLOADTHINDEX
TRM load threshold index BSC6900
IPPATH
VLANFlAG
VLANID Flag
BSC6900
IPPATH
VLANID
VLAN ID.
BSC6900
IPPATH
PATHCHK
IP path check flag
BSC6900
IPPATH
ECHOIP
Check IP address
BSC6900
IPPATH
PERIOD
Ping Check Period
BSC6900
IPPATH
CHECKCOUNT
Ping Check Timeout Counts
BSC6900
IPPATH
ICMPPKGLEN
ICMP packet Length
BSC6900
IPPATHBIND
ANI
Adjacent node ID
BSC6900
IPPATHBIND
PATHID
IP path ID
BSC6900
IPPATHBIND
SRN
Subrack No.
BSC6900
IPPATHBIND
SN
Slot No.
BSC6900
IPPATHBIND
CHKN
Check Index
BSC6900
IPRT
SRN
Subrack No.
BSC6900
IPRT
SN
Slot No.
BSC6900
IPRT
DSTIP
Destination IP address
BSC6900
IPRT
DSTMASK
Destination address mask BSC6900
IPRT
NEXTHOP
Forward route address
BSC6900
IPRT
PRIORITY
Priority
BSC6900
IPRT
REMARK
Purpose description BSC6900
IPRTBIND
SRN
Subrack No.
BSC6900
IPRTBIND
SN
Slot No.
BSC6900
IPRTBIND
DESTIP
Destination IP address
BSC6900
IPRTBIND
MASK
Subnet mask
BSC6900
IPRTBIND
NEXTHOP
Forward route address
BSC6900
IPRTBIND
MBFDCHKN
MBFD Check Index BSC6900
JTGCPLD
SRN
Subrack No.
BSC6900
JTGCPLD
SN
Slot No.
BSC6900
JTGCPLD
OPMODE
Operate mode
BSC6900
JTGCPLD
DATAFILE
Data file
BSC6900
JTGCPLD
RSTDESFILE
Reset file
BSC6900
LAOPMAP
LaOpIndex
Location Area Record Index
BSC6900
LAOPMAP
MCC
MCC
BSC6900
LAOPMAP
MNC
MNC
BSC6900
LAOPMAP
LAC
Cell LAC
BSC6900
LAOPMAP
OPNAME1
Operator Name 1
BSC6900
LAOPMAP
OPNAME2
Operator Name 2
BSC6900
LAOPMAP
OPNAME3
Operator Name 3
BSC6900
LDR
LDRFST
LDR First
BSC6900
LDR
LDRSND
LDR Second
BSC6900
LDR
LSRTRD
LDR Third
BSC6900
LDR
LDRFOUH
LDR Fourth
BSC6900
LICALMTHD
LICALMCTHD
Alarm occur threshold
BSC6900
LICALMTHD
LICALMRTHD
Alarm recover threshold
BSC6900
LICENSE
FN
File Name
BSC6900
LICENSECTRL
SWITCH
Grace Protection Period Switch
BSC6900
LODCTRL
LODCTRL
Board Start Load Control
BSC6900
LOGLIMIT
TL
Time Limit
BSC6900
LOGLIMIT
CNTL
Counts Limit
BSC6900
M3DE
DENO
Destination entity No.
BSC6900
M3DE
LENO
Local entity No.
BSC6900
M3DE
DPX
DSP index
BSC6900
M3DE
ENTITYT
Destination entity type
BSC6900
M3DE
RTCONTEXT
Routing Context
BSC6900
NAME
Destination entity name
BSC6900
M3DE
M3LE
LENO
Local entity No.
BSC6900
M3LE
SPX
OSP index
BSC6900
M3LE
ENTITYT
Local entity type
BSC6900
M3LE
RTCONTEXT
Routing Context
BSC6900
M3LE
NAME
Local entity name
BSC6900
M3LKS
SIGLKSX
Signalling link set index
BSC6900
DENO
Destination entity No.
BSC6900
M3LKS
M3LKS
LNKSLSMASK
Signalling link mask BSC6900
M3LKS
TRAMODE
Traffic mode
BSC6900
M3LKS
WKMODE
Work mode
BSC6900
M3LKS
PDTMRVALUE
PENDING timer
BSC6900
M3LKS
NAME
M3UA Signalling link set name
BSC6900
M3LNK
SIGLKSX
Signalling link set index
BSC6900
M3LNK
SIGLNKID
Signaling link ID
BSC6900
M3LNK
SRN
Subrack No.
BSC6900
M3LNK
SN
Slot No.
BSC6900
M3LNK
SCTPLNKN
SCTP link No.
BSC6900
M3LNK
PRIORITY
Signalling link priority
BSC6900
M3LNK
LNKREDFLAG
Initial bearing traffic active tag BSC6900
M3LNK
NAME
M3UA Signaling link name BSC6900
M3RT
DENO
Destination entity No.
BSC6900
M3RT
SIGLKSX
Signalling link set index
BSC6900
M3RT
PRIORITY
Route priority
BSC6900
M3RT
NAME
M3UA route name
BSC6900
MEASRSTLIMIT
TL
Result Time Limit
BSC6900
MEASRSTLIMIT
SL
Result Space Limit
BSC6900
MPGRP
SRN
Subrack No.
BSC6900
MPGRP
SN
Slot No.
BSC6900
MPGRP
BRDTYPE
Board type
BSC6900
MPGRP
LGCAPPTYPE
Logic function type
BSC6900
MPGRP
MPGRPN
MP Group No.
BSC6900
MPGRP
MPTYPE
MP type
BSC6900
MPGRP
BORROWDEVIP
Borrow DevIP
BSC6900
MPGRP
LOCALIP
Local IP address
BSC6900
MPGRP
DEVIP
Borrowed device IP address BSC6900
MPGRP
MASK
Subnet mask
BSC6900
MPGRP
PEERIP
Peer IP address
BSC6900
MPGRP
MHF
MP/MC list head option
BSC6900
MPGRP
MCCLASS
MC PRI number
BSC6900
MPGRP
FRAGSIZE
MP flake size
BSC6900
MPGRP
IPHC
Head compress
BSC6900
MPGRP
PFC
Protocol field compress
BSC6900
MPGRP
ACFC
Address and control field compress BSC6900
MPGRP
PPPMUX
PPP mux
BSC6900
MPGRP
MAXSFLEN
PPP mux max subframe length BSC6900
MPGRP
MAXMFLEN
PPP mux max muxframe length BSC6900
MPGRP
MUXTIME
PPP mux framing out-time[us]
MPGRP
FLOWCTRLSWITCH
Flow control switch BSC6900
BSC6900
MPGRP
FCINDEX
Flow control parameter index
BSC6900
MPGRP
OAMFLOWBW
OAM flow min bandwidth[%]
BSC6900
MPGRP
AUTHTYPE
Validate protocol type
BSC6900
MPGRP
AUTHMODE
Validate mode
BSC6900
MPGRP
AUTHNAME
Validate user name BSC6900
MPGRP
AUTHPWD
Validate password
MPGRP
TRMLOADTHINDEX
TRM load threshold index BSC6900
MPGRP
ERRDETECTSW
Error-frame detect switch
BSC6900
MPGRP
ERRALARMTHD
Error-frame alarm threshold
BSC6900
MPGRP
ANTIERRFLAG
E1T1 anti-error switch
BSC6900
BSC6900
MPGRP
EMITTHD
Error emit threshold BSC6900
MPGRP
CLEARTHD
Error clear threshold
BSC6900
MPGRP
MPGRPN
MP Group No.
BSC6900
MPGRP
MCCLASS
MC PRI number
BSC6900
MPGRP
MPGRP
MAXSFLEN
PPP mux max subframe length BSC6900
MAXMFLEN
PPP mux max muxframe length BSC6900
MPGRP
MUXTIME
PPP mux framing out-time[us]
MPGRP
EMITTHD
Error emit threshold BSC6900
MPGRP
CLEARTHD
Error clear threshold
BSC6900
MPGRP
MPGRPN
MP Group No.
BSC6900
MPLNK
SRN
Subrack No.
BSC6900
BSC6900
MPLNK
SN
Slot No.
BSC6900
MPLNK
BRDTYPE
Board type
BSC6900
MPLNK
MPGRPN
MP Group No.
BSC6900
MPLNK
PPPLNKN
PPP sub-link No.
BSC6900
MPLNK
DS1
E1T1 port No.
BSC6900
MPLNK
TSBITMAP
Bearing time slot
BSC6900
MPLNK
RESTARTTMR
Sub-protocol negotiate out time[S]
BSC6900
MPLNK
KEEPALIVE
Keep-alive timer length[S]
BSC6900
MPLNK
FCSTYPE
CRC check mode
BSC6900
MPLNK
BRDTYPE
Board type
BSC6900
MPLNK
DS1
E1T1 port No.
BSC6900
MPUBIND
SRN
Subrack No.
BSC6900
MPUBIND
SN
Slot No.
BSC6900
MPUBIND
MPUSUBRACK
MPU Subrack No.
BSC6900
MPUBIND
MPUSLOT
MPU Slot No.
BSC6900
MSGSOFTPARA
CNNODEIDX
CN Node Index
BSC6900
HoSdcchSpeechVer
Speech VER in SDCCH HO REQ ACK
BSC6900
MSGSOFTPARA
MSGSOFTPARA
CellListOptionSend
Cell List Send Flag in ASS CMP BSC6900
MSGSOFTPARA
CicPoolSendFlagInAssCmp
CIC Pool Send Flag in ASS CMP BSC6900
MSGSOFTPARA
CicPoolSendFlagInHoAck
CIC Pool Send Flag in HO REQ ACK BSC6900
MSGSOFTPARA
ChosenChInAssCmp
ChosenCh Send Flag in ASS CMP
BSC6900
MSGSOFTPARA
SpeechVerInAssCmp
Speech VER Send Flag in ASS CMP
BSC6900
MSGSOFTPARA
ChosenEncrypAloInAssCmp
ChosenEncrypAlg Send Flag in ASS CMP
BSC6900
MSGSOFTPARA
CicPoolInAssFail
CIC Pool Send Flag in ASS Fail BSC6900
MSGSOFTPARA
CicPoolListInAssFail
CIC Pool List Send Flag in ASS Fail BSC6900
MSGSOFTPARA
ChosenChInHoReqAck
ChosenCh Send Flag in HO REQ ACK
BSC6900
MSGSOFTPARA
ChosenEncrypAloInHoReqAck
ChosenEncrypAlg Send Flag in HO REQ ACK
BSC6900
MSGSOFTPARA
SpeechVerInHoReqAck
SpeechVerSend Flag in HO REQ ACK
MSGSOFTPARA
CicPoolInHoFail
CIC Pool Send Flag in HO Fail BSC6900
BSC6900
MSGSOFTPARA
CicPoolListInHoFail
CIC Pool List Send Flag in HO Fail BSC6900
MSGSOFTPARA
ChosenChInHoPerform
ChosenCh Send Flag in HO Perform BSC6900
MSGSOFTPARA
ChosenEncrypAlgInHoPerform
ChosenEncrypAlg Send Flag in HO Perform
BSC6900
MSGSOFTPARA
SpeechVerinHoPerform
Speech VER Send Flag in HO Perform BSC6900
MSGSOFTPARA
ChosenEncrypAlgInCiphCmp
ChosenEncrypAlg Send Flag in Cipher CMP BSC6900
MSGSOFTPARA
SpeechVerInHoRqd
HO_RQD Speech VER
BSC6900
MSGSOFTPARA
CurChannelInHoRqd
HO_RQD Current Channel
BSC6900
MSGSOFTPARA
ucCtrlOfCicIE
Controlling of CIC IE In BSS Map Messages
MSP
SRN
Subrack No.
BSC6900
MSP
SN
Slot No.
BSC6900
MSP
PN
Port No.
BSC6900
MSP
RT
Revertive type
BSC6900
MSP
WTRT
WTR Time[Sec]
BSC6900
MSP
K2MODE
K2 Mode
BSC6900
MSP
SDENABLE
SD Enable
BSC6900
BSC6900
MSP
SDALMTHD
SD Alarm Threshold
BSC6900
MSP
SDSFPRI
SDSF Priority
BSC6900
MSP
MODE
Backup mode
BSC6900
MSPCMD
SRN
Subrack No.
BSC6900
MSPCMD
SN
Slot No.
BSC6900
MSPCMD
PN
Port No.
BSC6900
MSPCMD
MSPCMD
MSP Control Command
BSC6900
MSTOCELL
IDXTYPE
Index Type
BSC6900
MSTOCELL
TLLI
TLLI
BSC6900
MSTOCELL
IMSI
IMSI
BSC6900
MSTOCELL
CELLID
Cell Index
BSC6900
MTP3LKS
SIGLKSX
Signalling link set index
BSC6900
MTP3LKS
DPX
DSP index
BSC6900
MTP3LKS
LNKSLSMASK
Signalling link mask BSC6900
MTP3LKS
EMERGENCY
Emergency verification
BSC6900
MTP3LKS
NAME
Signalling link set name
BSC6900
MTP3LNK
SIGLKSX
Signalling link set index
BSC6900
MTP3LNK
SIGSLC
Signalling link code BSC6900
MTP3LNK
SRN
Subrack No.
BSC6900
MTP3LNK
SN
Slot No.
BSC6900
MTP3LNK
TCMODE
TC mode
BSC6900
MTP3LNK
ATERIDX
Ater connection path index
BSC6900
MTP3LNK
ATERMASK
Ater Mask
BSC6900
MTP3LNK
ASRN
A interface subrack No. BSC6900
MTP3LNK
ASN
A interface slot No. BSC6900
MTP3LNK
MTP2LNKN
MTP2 link No.
MTP3LNK
APN
A interface port No. BSC6900
BSC6900
MTP3LNK
ATSMASK
A interface timeslot mask BSC6900
MTP3LNK
LKTATE
Link rate type
BSC6900
MTP3LNK
STFLG
Satellite flag
BSC6900
MTP3LNK
PRIORITY
Signalling link priority
BSC6900
MTP3LNK
TCLEN
Test code length
BSC6900
MTP3LNK
TC
Test code
BSC6900
MTP3LNK
CT1
Timer alignment ready
BSC6900
MTP3LNK
CT2
Timer not aligned
BSC6900
MTP3LNK
CT3
Timer aligned
BSC6900
MTP3LNK
CT4N
Timer normal proving
BSC6900
MTP3LNK
CT4E
Timer emergency proving
BSC6900
MTP3LNK
CT5
Timer sending SIB
BSC6900
MTP3LNK
CT6
MTP3LNK
CT7
Timer remote congestion Timer excessive delay of acknowledgement
MTP3LNK
CT9
Timer interval of resending FISU
MTP3LNK
NAME
Signalling link name BSC6900
MTP3RT
DPX
DSP index
BSC6900
MTP3RT
SIGLKSX
Signalling link set index
BSC6900
BSC6900
BSC6900
BSC6900
MTP3RT
PRIORITY
Route priority
BSC6900
MTP3RT
NAME
Signalling Route name
BSC6900
MTP3TMR
T1TMR
Time-control changeover timer
BSC6900
MTP3TMR
T2TMR
Changeover ACK timer
BSC6900
MTP3TMR
T3TMR
Time-control changeback timer
BSC6900
MTP3TMR
T4TMR
Changeover ACK first attempt timer
BSC6900
T5TMR
Changeover ACK second attempt timer
BSC6900
MTP3TMR
T8TMR
Transmission prohibited inhibition timer BSC6900
MTP3TMR
T10TMR
Signalling route set test timer BSC6900
MTP3TMR
T12TMR
Uninhibit ACK timer BSC6900
MTP3TMR
MTP3TMR
T13TMR
Force uninhibit timer
MTP3TMR
T14TMR
Inhibition ACK timer BSC6900
MTP3TMR
T17TMR
Link realignment timer
BSC6900
MTP3TMR
T22TMR
Local inhibit test timer
BSC6900
MTP3TMR
T23TMR
Remote inhibit test timer
BSC6900
MTP3TMR
TMT1TMR
Signalling link test ACK timer
BSC6900
MTP3TMR
TMT2TMR
Signalling link repeat test timer
BSC6900
N7DPC
NAME
DSP name
BSC6900
N7DPC
DPX
DSP index
BSC6900
N7DPC
SPX
OSP index
BSC6900
BSC6900
SPDF
Signal point data format
BSC6900
N7DPC
DPC
DSP code[Whole Number]
BSC6900
N7DPC
DPCDNF
DSP code[Divided Number]
BSC6900
N7DPC
N7DPC
DPCT
DSP type
BSC6900
N7DPC
SLSMASK
Signalling route mask
BSC6900
N7DPC
NEIGHBOR
Adjacent flag
BSC6900
N7DPC
STP
STP function switch BSC6900
N7DPC
BEARTYPE
DSP bear type
BSC6900
N7DPC
NETPRI
Net PRI
BSC6900
N7DPC
PROT
SS7 protocol type
BSC6900
N7DPC
SCCPSSN
SCCP Subsystem No.
BSC6900
NCELL
TASKIDX
AISS Task Index
BSC6900
NCELL
BYCELLTYPE
Cell Index Type
BSC6900
NCELL
SCELLID
First Cell Index
BSC6900
NCELL
MCELLID
Second Cell Index
BSC6900
NCELL
SCELLNAME
First Cell Name
BSC6900
NCELL
MCELLNAME
BSC6900
NCELL
DELSITE
Second Cell Name Delete BTS In the Neighboring Cell List
NRIMSCMAP
NRI
NRI Value
BSC6900
NRIMSCMAP
CNNODEIDX
CN Node Index
BSC6900
NRISGSNMAP
NRI
NRI Value
BSC6900
NRISGSNMAP
OPNAME
Operator Name
BSC6900
BSC6900
NRISGSNMAP
CNID
SGSN Node ID
BSC6900
NSE
NSEI
NSE Identifier
BSC6900
NSE
SRN
Subrack No.
BSC6900
NSE
SN
Slot No.
BSC6900
NSE
PT
Subnet Protocol Type
BSC6900
NSE
ISNCMODE
Subnetwork Configure Mode
BSC6900
NSE
SVRIP
Server IP
BSC6900
NSE
SVRPORT
Server UDP Port
BSC6900
NSE
OPNAME
Operator Name
BSC6900
NSE
CNID
SGSN Node ID
BSC6900
NSE
RIMSUP
RIM Support
BSC6900
NSE
PFCSUP
PFC Support
BSC6900
NSE
PSHOSUP
PS Handover Support
BSC6900
NSVC
NSVCIDX
NSVC Index
BSC6900
NSVC
NSVCI
NSVC Identifier
BSC6900
NSVC
NSEI
NSE Identifier
BSC6900
NSVC
SRN
Subrack No.
BSC6900
NSVC
SN
Slot No.
BSC6900
NSVC
BCID
BC Identifier
BSC6900
NSVC
DLCI
The Identifier of Data Link Connection
BSC6900
NSVLLOCAL
LOCALNSVLI
Local NSVL ID
BSC6900
NSVLLOCAL
NSEI
NSE Identifier
BSC6900
NSVLLOCAL
IP
Local IP Address
BSC6900
NSVLLOCAL
UDPPN
Local UDP Port No. BSC6900
NSVLLOCAL
SRN
Subrack No.
BSC6900
NSVLLOCAL
SN
Slot No.
BSC6900
NSVLLOCAL
SIGLW
Signaling Load Weight
BSC6900
NSVLLOCAL
SRVLW
User Data Load Weight
BSC6900
NSVLREMOTE
REMOTENSVLI
Remote NSVL ID
BSC6900
NSVLREMOTE
NSEI
NSE Identifier
BSC6900
NSVLREMOTE
IP
Remote IP Address BSC6900
UDPPN
Remote UDP Port No.
NSVLREMOTE
BSC6900
NSVLREMOTE
SIGLW
Signaling Load Weight
BSC6900
NSVLREMOTE
SRVLW
User Data Load Weight
BSC6900
OBJALMSHLD
OBJTP
Object Type
BSC6900
OBJALMSHLD
SRN
Subrack No.
BSC6900
OBJALMSHLD
SN
Slot No.
BSC6900
OBJALMSHLD
PN
Port No.
BSC6900
OBJALMSHLD
DSPN
DSP No.
BSC6900
OBJALMSHLD
AIDST
Alarm Select Type
BSC6900
OBJALMSHLD
AID
Alarm ID
BSC6900
OBJAUTHSW
SW
Switch
BSC6900
OFFICENAME
SID
Office Name
BSC6900
OMUBTSPATCH
PV
Patch Version
BSC6900
OMUIPRT
RTDEST
Destination Network Address BSC6900
OMUIPRT
RTDESTMASK
Destination Address Mask BSC6900
OMUIPRT
NEXTHOP
Forward Route Address
BSC6900
OP
DESC
Description
BSC6900
OP
PWD
Password
BSC6900
OP
CFM
Confirm Password
BSC6900
OP
UG
Operator Level
BSC6900
OP
CG
Command Group
BSC6900
OP
DATE
Date Limit
BSC6900
OP
STD
Start Date
BSC6900
OP
ETD
End Date
BSC6900
OP
TIME
Time Limit
BSC6900
OP
STT
Start Time
BSC6900
OP
ETT
End Time
BSC6900
OP
WEEK
Week Limit
BSC6900
OP
WK
Week
BSC6900
OP
NEW
New Password
BSC6900
OP
UG
Operator Level
BSC6900
OP
TIME
Time Limit
BSC6900
OP
WEEK
Week Limit
BSC6900
OPC
NAME
OSP name
BSC6900
OPC
SPX
OSP index
BSC6900
OPC
NI
Network ID
BSC6900
OPC
SPCBITS
OSP code bits
BSC6900
SPDF
Signal point data format
BSC6900
OPC
SPC
OSP code[Whole Number]
BSC6900
OPC
SPCDNF
OSP code[Divided Number]
BSC6900
OPC
OPC
RSTFUN
Restart switch
BSC6900
OPC
HOSTTYPE
The host type of signalling point
BSC6900
OPLOCK
LOCKST
Set Locked/Unlock
BSC6900
OPSW
SWOP
Set Enable/Disable BSC6900
OPT
SRN
Subrack No.
BSC6900
OPT
SN
Slot No.
BSC6900
OPT
BT
Board type
BSC6900
OPT
PS
Port select
BSC6900
OPT
PN
Port No.
BSC6900
OPT
OPTM
Optical interface standard
BSC6900
OPT
LNKNUMMODE
Tributary Numbering
BSC6900
OPT
J0ALMSWITCH
J0 trace mismatch alarm switch BSC6900
OPT
J0TYPE
J0 type
BSC6900
OPT
J0BYTE_FORMAT
J0 Byte Format
BSC6900
OPT
J0TXVALUE
J0 transmit value
BSC6900
OPT
J0RXVALUE
J0 expected incept value
BSC6900
OPT
J1ALMSWITCH
J1 trace mismatch alarm switch BSC6900
OPT
J1TYPE
J1 type
BSC6900
OPT
J1BYTE_FORMAT
J1 Byte Format
BSC6900
OPT
J1TXVALUE
J1 transmit value
BSC6900
OPT
J1RXVALUE
J1 expected incept value
BSC6900
OPT
S1SWITCH
S1 value setting switch
BSC6900
OPT
S1VALUE
S1 Value
BSC6900
OPT
RSFSRC
RSF alarm source
BSC6900
OPT
RSDSRC
RSD alarm source
BSC6900
OPT
B1B2SFTHRD
B1B2 signal fail threshold
OPT
B1B2SDTHRD
B1B2 signal degraded threshold BSC6900
BSC6900
OPT
B3SFTHRD
B3 signal fail threshold
OPT
B3SDTHRD
B3 signal degraded threshold BSC6900
OPT
JAUTOADD
Automatic Append J Byte BSC6900
OPT
AUTYPE
Administration unit type
BSC6900
BSC6900
OPTLOP
SRN
Subrack No.
BSC6900
OPTLOP
SN
Slot No.
BSC6900
OPTLOP
PN
Port No.
BSC6900
OPTLOP
LOPT
Loop type.
BSC6900
OTHSOFTPARA
AutoGetBtsLogFlag
Support Auto Obtaining of BTS Logs
OTHSOFTPARA
CheckingBTSConnection
Auto Check of BTS Connection Port BSC6900
OTHSOFTPARA
AN19
MAX Retrans Reset Circle Msg on A-I BSC6900
OTHSOFTPARA
PbMtnMsgReSend
MAX Retrans Maintenance Msg on Pb-I
BSC6900
OTHSOFTPARA
Send2QuterFlag
Support Sent 2QUATER
BSC6900
BSC6900
OTHSOFTPARA
SendUtranECSCFlag
Send 3G Class Flag BSC6900
OTHSOFTPARA
NRofFDDCellFlag
Support NR_of_FDD_cells Writing
BSC6900
OTHSOFTPARA
Record Discarded RecordDiscardedPagingInfoFlag Paging Msg
BSC6900
OTHSOFTPARA
Disconnect DisconnectHandoverProtectTime Handover Protect r Timer
BSC6900
OTHSOFTPARA
RespReqSel
Response on OutBSC HO Req
BSC6900
OTHSOFTPARA
ResCheckAllowed
ResCheckAllowed
BSC6900
OTHSOFTPARA
SI2TerSwitch
SI 2ter Switch
BSC6900
OTHSOFTPARA
Ater8KSw
Switch of 8K on Ater
BSC6900
OTHSOFTPARA
SptPbSglPassCheck
Support Pb Single Pass Check
BSC6900
OTHSOFTPARA
SptPCICCheck
Support PCIC Check
BSC6900
OTHSOFTPARA
SptPbLapdCheck
Support Pb Lapd Check
BSC6900
OTHSOFTPARA
SptPbResCheck
Support Pb Resource Check
BSC6900
OTHSOFTPARA
MaxPbLinkChkNum
Pb Link Check Max TimeOut Number BSC6900
ResetAlmDelaySwitch
BTS Reset Alarm Delay Switch
OTHSOFTPARA
BSC6900
OTHSOFTPARA
ResetAlmDelayTime
BTS Reset Alarm Delay Time
BSC6900
OTHSOFTPARA
AterCongstRatio
Congestion Ratio on Ater Resource
BSC6900
OTHSOFTPARA
AterCongHRFlag
HR Allocation Flag
BSC6900
OTHSOFTPARA
RSSThres
Relative Signal Strength Threshold BSC6900
ASSThres
Absolute Signal Strength Threshold BSC6900
OTHSOFTPARA
OTHSOFTPARA
OTHSOFTPARA
OTHSOFTPARA
OTHSOFTPARA
OTHSOFTPARA
AbnormalMosThreshold
Abnormal Voice MOS Threshold
End2EndTraceState
Support End-to-end User Tracing Function BSC6900
AInterMsgTrace
A Interface Msg [End2end User Tracing]
SendBssInvokeTrace
Spt BSS Invoke Trace Rpt[end2end user trace] BSC6900
SupportApplyUsedCic
Support Apply Used A Cic BSC6900
BSC6900
BSC6900
OTHSOFTPARA
HalfRateDataSupport
Support Half Rate Data Service
OTHSOFTPARA
CLASSMARKQUERY
Classmark Enquiry With 3G Request BSC6900
NcellInterFLevelThres0
NeighborCell Interfere Level Thresh 0
BSC6900
NcellInterFLevelThres1
NeighborCell Interfere Level Thresh 1
BSC6900
NcellInterFLevelThres2
NeighborCell Interfere Level Thresh 2
BSC6900
NcellInterFLevelThres3
NeighborCell Interfere Level Thresh 3
BSC6900
NcellInterFLevelThres4
NeighborCell Interfere Level Thresh 4
BSC6900
NcellInterFLevelThres5
NeighborCell Interfere Level Thresh 5
BSC6900
NcellInterFLevelThres6
NeighborCell Interfere Level Thresh 6
BSC6900
NcellInterFLevelThres7
NeighborCell Interfere Level Thresh 7
BSC6900
OTHSOFTPARA
OTHSOFTPARA
OTHSOFTPARA
OTHSOFTPARA
OTHSOFTPARA
OTHSOFTPARA
OTHSOFTPARA
OTHSOFTPARA
BSC6900
OTHSOFTPARA
TCHRATEMODIFY
TCH Rate Modify
BSC6900
OTHSOFTPARA
SENDSI2TERFLAG
Send System Information 2ter
BSC6900
OTHSOFTPARA
SENDSI5TERFLAG
Send System Information 5ter
BSC6900
OTHSOFTPARA
EMLPPPRIORITY
OTHSOFTPARA
TER2INDICATOR
OTHSOFTPARA
NOTMSIALLCELLPAGINGLIMIT Discard TMSI All FLAG Cell Paging
OTHSOFTPARA
BSCRESERVEDPARA1
Reserved parameter 1
BSC6900
OTHSOFTPARA
BSCRESERVEDPARA2
Reserved parameter 2
BSC6900
OTHSOFTPARA
BSCRESERVEDPARA3
Reserved parameter 3
BSC6900
OTHSOFTPARA
BSCRESERVEDPARA4
Reserved parameter 4
BSC6900
OTHSOFTPARA
BSCRESERVEDPARA5
Reserved parameter 5
BSC6900
OTHSOFTPARA
BSCRESERVEDPARA6
Reserved parameter 6
BSC6900
eMLPP Priority In Paging BSC6900 TER Indicator of System Information 3 BSC6900
BSC6900
OTHSOFTPARA
BSCRESERVEDPARA7
Reserved parameter 7
OTHSOFTPARA
BSCRESERVEDPARA8
Reserved parameter 8
BSC6900
OTHSOFTPARA
BSCRESERVEDPARA9
Reserved parameter 9
BSC6900
OTHSOFTPARA
BSCRESERVEDPARA10
Reserved parameter 10
BSC6900
OTHSOFTPARA
BSCRESERVEDPARA11
Reserved parameter 11
BSC6900
OTHSOFTPARA
BSCRESERVEDPARA12
Reserved parameter 12
BSC6900
OTHSOFTPARA
BSCRESERVEDPARA13
Reserved parameter 13
BSC6900
OTHSOFTPARA
BSCRESERVEDPARA14
Reserved parameter 14
BSC6900
OTHSOFTPARA
BSCRESERVEDPARA15
Reserved parameter 15
BSC6900
OTHSOFTPARA
BSCRESERVEDPARA16
Reserved parameter 16
BSC6900
OTHSOFTPARA
BSCRESERVEDPARA17
Reserved parameter 17
BSC6900
OTHSOFTPARA
BSCRESERVEDPARA18
Reserved parameter 18
BSC6900
OTHSOFTPARA
BSCRESERVEDPARA19
Reserved parameter 19
BSC6900
OTHSOFTPARA
BSCRESERVEDPARA20
Reserved parameter 20
BSC6900
OTHSOFTPARA
BSCRESERVEDPARA21
Reserved parameter 21
BSC6900
OTHSOFTPARA
BSCRESERVEDPARA22
Reserved parameter 22
BSC6900
BSC6900
OTHSOFTPARA
BSCRESERVEDPARA23
Reserved parameter 23
OTHSOFTPARA
BSCRESERVEDPARA24
Reserved parameter 24
BSC6900
OTHSOFTPARA
BSCRESERVEDPARA25
Reserved parameter 25
BSC6900
OTHSOFTPARA
BSCRESERVEDPARA26
Reserved parameter 26
BSC6900
OTHSOFTPARA
BSCRESERVEDPARA27
Reserved parameter 27
BSC6900
OTHSOFTPARA
BSCRESERVEDPARA28
Reserved parameter 28
BSC6900
OTHSOFTPARA
BSCRESERVEDPARA29
Reserved parameter 29
BSC6900
OTHSOFTPARA
UCISRAIFAULT
RAI Alarm Switch
BSC6900
SENDDOWNLINKMESSAGE
Send Downlink Message after Hanging up
BSC6900
OTHSOFTPARA
BSC6900
Service Based Handover Switch
OTHSOFTPARA
OUTSYSSERVICEHOEN
OTHSOFTPARA
Service Handover OUTSYSSERVHOREASSIGNEN Reassign
BSC6900
OTHSOFTPARA
Max BTS Num of Parallel Software Load
BSC6900
MAXLOADBTSNUM
BSC6900
OTHSOFTPARA
JITBUFSWITCH
Jitter Buffer switch
BSC6900
OTHSOFTPARA
WINADJSWITCH
LAPD Window Adjust Switch
BSC6900
OTHSOFTPARA
IBCAINBSCINFORPTPRD
IBCA Info Report Period Within BSC
BSC6900
OTHSOFTPARA
IBCAOUTBSCINFORPTPRD
IBCA Info Report Period Between BSC
BSC6900
OTHSOFTPARA
HopSingleFreqOptSwitch
OTHSOFTPARA
G2G3GLdBlcDeltaThrd
Hop Group Single Freq Optimization CS 2G 3G Load Balance Delta Threshold
BSC6900
BSC6900
OTHSOFTPARA
OmlDetectTime
OML Lapd Link Detect Time
OTHSOFTPARA
BSCPMA
Preemption Allowed BSC6900
BSC6900
OTHSOFTPARA
OTHSOFTPARA
OTHSOFTPARA
OTHSOFTPARA
OTHSOFTPARA
BSCQAD
Queue Allowed
BSC6900
BSCPMAIRAHO
Preemption Allowed During Intra-BSC Handover BSC6900
BSCQADIRAHO
Queuing Allowed During Intra-BSC Handover
BSC6900
BSCPRICLASS
eMLPP MultiPriority Classes Allowed
BSC6900
PREEMFORHOPDCH
PDCH Preemption Allowed During Handover Due to Preemption
BSC6900
HIGHLEVPREEM
Highest-Priority MSs Rapid Preemption
OTHSOFTPARA
PREEMFORHONOTREL
Preempted Call Not Released After Handover Failure BSC6900
OTHSOFTPARA
MocnCtrl
MOCN Switch
BSC6900
OTHSOFTPARA
ReDirectOpt
Re-Routing Occasion
BSC6900
CSScnIdHoFilter
Filter CS Based on Operator Neighboring Cell List BSC6900
OTHSOFTPARA
OTHSOFTPARA
BSC6900
OTHSOFTPARA
PSScnIdHoFilter
Filter PS Based on Operator Neighboring Cell List
OTHSOFTPARA
ImsiHoCtrl
IMSI Handover Switch
BSC6900
OTHSOFTPARA
TcStatisticSw
Enable TC Performance Measurement
BSC6900
OTHSOFTPARA
Inter-BSC Better INTERBSCHOPREEMPALLOWE Cell HO Preemption D Allowed BSC6900
BSC6900
OTHSOFTPARA
IBCAFLOWCTRLPERIOD
IBCA Flow Control Period
OTHSOFTPARA
IBCAFLOWCTRLTHRELD
Thres. of Evaluation Times in IBCA FC BSC6900
OTHSOFTPARA
AIntfMsgUsingThreshold
Message Usage
DLDTMFPRCSW
Downlink DTMF Signaling Processing Allowed BSC6900
OTHSOFTPARA
BSC6900
BSC6900
OTHSOFTPARA
OTHSOFTPARA
CAOpt
Whether to optimize CA Frequency Allocation Mode BSC6900
CFGCHANCHANGEOPT
Optimize Adjustment of Configured Channel Type BSC6900
OTHSOFTPARA
SHORTCALLTHRED
OTHSOFTPARA
ASSFAILSTATISTICOPT
Threshold of ShortTime Call Duration BSC6900 Calculate Number of Failed Assignments BSC6900
DELAYSENDHOCMDSWITCH
Delay Sending Handover Command
BSC6900
OTHSOFTPARA
DELAYSENDHOCMDSTIMER
Timer of Delay Sending Handover Command
BSC6900
OTHSOFTPARA
Send Speech SENDSPEECHVERSIONAHEAD Version in Advance BSC6900
PATCH
OT
Operation type
BSC6900
PATCH
BT
Board type
BSC6900
OTHSOFTPARA
PATCH
LGCAPPTYPE
Logical function type
BSC6900
PATCH
PATTYPE
Patch type
BSC6900
PBE1T1
SRN
Subrack No.
BSC6900
PBE1T1
SN
Slot No.
BSC6900
PBE1T1
PN
Port No.
BSC6900
PBE1T1
TNMODE
Transmission Mode BSC6900
PBE1T1
SPCIC
Start PCIC
BSC6900
PBE1T1
OPMODE
Operation Mode
BSC6900
PBE1T1
STARTTS
Start TS
BSC6900
PBE1T1
ENDTS
End TS
BSC6900
PBE1T1
ALLTSTYPE
Timeslot Type
BSC6900
PBE1T1
TSN
TS No
BSC6900
PBE1T1
TSTYPE
TS TYPE
BSC6900
PBE1T1
PCUNO
PCU No.
BSC6900
PBSL
LGIDX
PbSL Logical Index BSC6900
PBSL
SRN
Subrack No.
BSC6900
PBSL
SN
Slot No.
BSC6900
PBSL
PN
Port No.
BSC6900
PBSL
TSNO
Timeslot No.
BSC6900
PBSL
TEI
TEI
BSC6900
PBSL
CGST
Congestion Start Threshold
BSC6900
PBSL
CGET
Congestion End Threshold
BSC6900
PCU
NAME
PCU Name
BSC6900
PCU
PCUINDEX
PCU No.
BSC6900
PCU
OPNAME
Operator Name
BSC6900
PHBMAP
SRN
Subrack No.
BSC6900
PHBMAP
SN
Slot No
BSC6900
PHBMAP
PHB
Per-Hop Behavior
BSC6900
PHBMAP
DSCP
Differentiated Service Codepoint
BSC6900
PORTFLOWCTRLPARA
FCINDEX
Flow control parameter index
BSC6900
PORTFLOWCTRLPARA
PORTPROTYPE
Port protocol type
BSC6900
PORTFLOWCTRLPARA
PQNUM
Priority queue number
BSC6900
CONGTHD0
Congestion threshold of queue 0 [ms]
BSC6900
PORTFLOWCTRLPARA
CONGCLRTHD0
Recover threshold of queue 0 [ms]
BSC6900
DROPPKTTHD0
Packet discard threshold of queue 0 [ms]
BSC6900
PORTFLOWCTRLPARA
CONGTHD1
Congestion threshold of queue 1 [ms]
BSC6900
PORTFLOWCTRLPARA
CONGCLRTHD1
Recover threshold of queue 1 [ms]
BSC6900
DROPPKTTHD1
Packet discard threshold of queue 1 [ms]
BSC6900
PORTFLOWCTRLPARA
CONGTHD2
Congestion threshold of queue 2 [ms]
BSC6900
PORTFLOWCTRLPARA
CONGCLRTHD2
Recover threshold of queue 2 [ms]
BSC6900
PORTFLOWCTRLPARA
PORTFLOWCTRLPARA
PORTFLOWCTRLPARA
DROPPKTTHD2
Packet discard threshold of queue 2 [ms]
BSC6900
PORTFLOWCTRLPARA
CONGTHD3
Congestion threshold of queue 3 [ms]
BSC6900
PORTFLOWCTRLPARA
CONGCLRTHD3
Recover threshold of queue 3 [ms]
BSC6900
DROPPKTTHD3
Packet discard threshold of queue 3 [ms]
BSC6900
PORTFLOWCTRLPARA
CONGTHD4
Congestion threshold of queue 4 [ms]
BSC6900
PORTFLOWCTRLPARA
CONGCLRTHD4
Recover threshold of queue 4 [ms]
BSC6900
DROPPKTTHD4
Packet discard threshold of queue 4 [ms]
BSC6900
PORTFLOWCTRLPARA
PORTFLOWCTRLPARA
PORTFLOWCTRLPARA
CONGTHD5
Congestion threshold of queue 5 [ms]
BSC6900
CONGCLRTHD5
Recover threshold of queue 5 [ms]
BSC6900
PORTFLOWCTRLPARA
DROPPKTTHD5
Packet discard threshold of queue 5 [ms]
BSC6900
PPPLNK
SRN
Subrack No.
BSC6900
PPPLNK
SN
Slot No.
BSC6900
PPPLNK
BRDTYPE
Board type
BSC6900
PPPLNK
LGCAPPTYPE
Logic function type
BSC6900
PPPLNK
PPPLNKN
PPP link No.
BSC6900
PPPLNK
DS1
E1T1 port No.
BSC6900
PORTFLOWCTRLPARA
PORTFLOWCTRLPARA
PPPLNK
TSBITMAP
Bearing time slot
BSC6900
PPPLNK
BORROWDEVIP
Borrow DevIP
BSC6900
PPPLNK
LOCALIP
Local IP address
BSC6900
PPPLNK
DEVIP
Borrowed device IP address BSC6900
PPPLNK
MASK
Subnet mask
BSC6900
PPPLNK
PEERIP
Peer IP address
BSC6900
PPPLNK
IPHC
Head compress
BSC6900
PPPLNK
PFC
Protocol field compress
BSC6900
PPPLNK
ACFC
Address and control field compress BSC6900
PPPLNK
PPPMUX
PPP mux
BSC6900
PPPLNK
MAXSFLEN
PPP mux max subframe length BSC6900
PPPLNK
MAXMFLEN
PPP mux max muxframe length BSC6900
PPPLNK
MUXTIME
PPP mux framing out-time[us]
BSC6900
PPPLNK
AUTHTYPE
Validate protocol type
BSC6900
PPPLNK
AUTHMODE
Validate mode
BSC6900
PPPLNK
AUTHNAME
Validate user name BSC6900
PPPLNK
AUTHPWD
Validate password
BSC6900
PPPLNK
RESTARTTMR
Sub-protocol negotiate out time[S]
BSC6900
PPPLNK
KEEPALIVE
Keep-alive timer length[S]
BSC6900
PPPLNK
FLOWCTRLSWITCH
Flow control switch BSC6900
PPPLNK
OAMFLOWBW
OAM flow min bandwidth[%]
BSC6900
PPPLNK
FCINDEX
Flow control parameter index
BSC6900
PPPLNK
FCSTYPE
CRC check mode
BSC6900
PPPLNK
TRMLOADTHINDEX
TRM load threshold index BSC6900
PPPLNK
ERRDETECTSW
Error-frame detect switch
BSC6900
PPPLNK
ERRALARMTHD
Error-frame alarm threshold
BSC6900
PPPLNK
PPPMUX
PPP mux
BSC6900
PPPLNK
MUXTIME
PPP mux framing out-time[us]
BSC6900
PPPSELFLOOP
SRN
Subrack No.
BSC6900
PPPSELFLOOP
SN
Slot No.
BSC6900
PPPSELFLOOP
LNKT
Link type
BSC6900
PPPSELFLOOP
MPGRPN
MP Group No.
BSC6900
PPPSELFLOOP
PPPLNKN
PPP link No.
BSC6900
PPPSELFLOOP
LOPT
Loop type
BSC6900
PPPSELFLOOP
AUSTOP
Loop time[min]
BSC6900
PSCELLTODSP
IDXTYPE
Index Type
BSC6900
PSCELLTODSP
IDTYPE
Index Type
BSC6900
PSCELLTODSP
CELLID
Cell Index
BSC6900
PSCELLTODSP
CELLNAME
Cell Name
BSC6900
PSCELLTODSP
SRN
Subrack No.
BSC6900
PSCELLTODSP
SN
Slot No.
BSC6900
PSCELLTODSP
DSPNO
BSC6900
PSPREFABISCONGCTR L ucPSPrefCSEmergCallPrio
DSP No. PS Preferred CS Original Call Service Priority PS Preferred CS Terminated Call Service Priority PS Preferred CS Emergency Call Service Priority
PSPREFABISCONGCTR L ucPSPrefVBSPrio
PS Preferred VBS Service Priority
PSPREFABISCONGCTR L ucPSPrefVGCSPrio
PS Preferred VGCS Service Priority BSC6900 PS Preferred Supplement Service Priority BSC6900
PSPREFABISCONGCTR L ucPSPrefCSOrgCallPrio PSPREFABISCONGCTR L ucPSPrefCSTermCallPrio
PSPREFABISCONGCTR L ucPSPrefSupplePrio
BSC6900
BSC6900
BSC6900
BSC6900
PSPREFABISCONGCTR L ucPSPrefInBscHoPrio
PS Preferred Call Reestablish Service Priority BSC6900 PS Preferred Intra Handover Service Priority BSC6900 PS Preferred In Handover Service Priority BSC6900
PSPREFABISCONGCTR L ucPSPrefPSPrio
PS Preferred PS Service Priority
PSPREFABISCONGCTR L ucPSPrefOtherPrio
PS Preferred Other Service Priority BSC6900
PTPBVC
NSEI
NSE Identifier
PTPBVC
BVCI
PTP BVC Identifier BSC6900
PTPBVC
IDTYPE
Index Type
BSC6900
PTPBVC
CELLID
Cell Index
BSC6900
PTPBVC
CELLNAME
Cell Name
BSC6900
PWDPOLICY
PwdMinLen
Minimum Password Length BSC6900
PWDPOLICY
Complicacy
Password Complexity
PSPREFABISCONGCTR L ucPSPrefCallReestPrio PSPREFABISCONGCTR L ucPSPrefIntraBscHoPrio
BSC6900
BSC6900
BSC6900
Maximum Retry Times
PWDPOLICY
MaxMissTimes
BSC6900
PWDPOLICY
AutoUnlockTime
PWDPOLICY
RESETINTERVAL
Auto Unlock Time Reset Interval of Account Lock Counter
PWDPOLICY
MAXVALIDDATES
Maximum Valid Dates
BSC6900
PWDPOLICY
MAXPROMPTDATES
Expire Prompt Dates
BSC6900
PWDPOLICY
HISTORYPWDNUM
Maximum History Password Numbers BSC6900
PWRALMSW
SRN
Subrack No.
BSC6900
BSC6900
BSC6900
PWRALMSW
PWRALMSSW1
First Alarm Switch
BSC6900
PWRALMSW
PWRALMSSW2
Second Alarm Switch
BSC6900
PWRPARA
SRN
Subrack No.
BSC6900
PWRPARA
NO1M48ALMTHDUP
Upper limit of No.1 input -48V[-V]
BSC6900
PWRPARA
NO1M48ALMTHDDOWN
Lower limit of No.1 input -48V[-V]
BSC6900
PWRPARA
NO2M48ALMTHDUP
Upper limit of No.2 input -48V[-V]
BSC6900
PWRPARA
NO2M48ALMTHDDOWN
Lower limit of No.2 input -48V[-V]
BSC6900
PWRPARA
NO3M48ALMTHDUP
Upper limit of No.3 input -48V[-V]
PWRPARA
NO3M48ALMTHDDOWN
Lower limit of No.3 input -48V[-V]
BSC6900
PWRPARA
NO4M48ALMTHDUP
Upper limit of No.4 input -48V[-V]
BSC6900
PWRPARA
NO4M48ALMTHDDOWN
Lower limit of No.4 input -48V[-V]
BSC6900
PWRPARA
NO5M48ALMTHDUP
Upper limit of No.5 input -48V[-V]
BSC6900
PWRPARA
NO5M48ALMTHDDOWN
Lower limit of No.5 input -48V[-V]
BSC6900
PWRPARA
NO6M48ALMTHDUP
Upper limit of No.6 input -48V[-V]
BSC6900
PWRPARA
NO6M48ALMTHDDOWN
Lower limit of No.6 input -48V[-V]
BSC6900
QUEUEMAP
SRN
Subrack No.
BSC6900
QUEUEMAP
SN
Slot No.
BSC6900
QUEUEMAP
Q0MINDSCP
Min DSCP of queue 0 BSC6900
BSC6900
QUEUEMAP
Q1MINDSCP
Min DSCP of queue 1 BSC6900
QUEUEMAP
Q2MINDSCP
Min DSCP of queue 2 BSC6900
QUEUEMAP
Q3MINDSCP
Min DSCP of queue 3 BSC6900
QUEUEMAP
Q4MINDSCP
Min DSCP of queue 4 BSC6900
QUEUEMAP
OAMMINBWKEY
OAM flow min bandwidth switch
QUEUEMAP
OAMFLOWDSCP
DSCP of OAM flow BSC6900
QUICKCFG
MODE
Configure Mode
BSC6900
RDRTCAUSE
CauseVal
Re-Route Cause Value
BSC6900
RDRTCAUSE
CauseRkIdx
Re-Route Cause Value Index
BSC6900
ROLLBACKPOINT
POINTSELECT
Remove Mode
BSC6900
ROLLBACKPOINT
POINTNAME
Rollback Point Name
BSC6900
ROLLBACKPOINT
POINTDESINFO
Rollback Point Description
BSC6900
BSC6900
RSCGRP
SRN
Subrack No.
BSC6900
RSCGRP
CTRLSLOT
Slot No.
BSC6900
RSCGRP
GRPID
Transport Resource Group No. BSC6900
RSCGRP
GRPT
Transport Resource Group Type BSC6900
ISFIRSTCLASS
Is First Class Transport Resource Group BSC6900
RSCGRP
UPPERGRPID
Upper Class Transport Resource Group No. BSC6900
RSCGRP
RSCMNGMODE
Resource Management Mode BSC6900
RSCGRP
BWMODE
Bandwidth Mode
RSCGRP
BSC6900
RSCGRP
TxBw
Forward Bandwidth BSC6900
RSCGRP
RxBw
Backward Bandwidth
BSC6900
RSCGRP
AllBw
Bandwidth
BSC6900
RSCGRP
TRMLOADTHINDEX
TRM load threshold index BSC6900
RSCGRP
TRMLOADTHINDEX
TRM load threshold index BSC6900
SCCPTMR
IATXTMR
Inactive TX timer
BSC6900
SCCPTMR
IARXTMR
Inactive RX timer
BSC6900
SCHTSK
TSKN
Task Name
BSC6900
SCHTSKSW
TSKN
Task Name
BSC6900
SCHTSKSW
ENF
Status
BSC6900
SCTPLNK
SRN
Subrack No.
BSC6900
SCTPLNK
SN
Slot No.
BSC6900
SCTPLNK
SCTPLNKN
SCTP link No.
BSC6900
SCTPLNK
MODE
Signalling link mode BSC6900
SCTPLNK
APP
Application type
BSC6900
SCTPLNK
DSCP
Differentiated Service Codepoint
BSC6900
SCTPLNK
LOCPN
Local SCTP port No.
BSC6900
SCTPLNK
LOCIP1
First local IP address
BSC6900
SCTPLNK
LOCIP2
Second local IP address
BSC6900
SCTPLNK
PEERIP1
First destination IP address
SCTPLNK
PEERIP2
Second destination IP address BSC6900
SCTPLNK
PEERPN
Destination SCTP port No.
BSC6900
BSC6900
SCTPLNK
LOGPORTFLAG
Logic Port Flag
BSC6900
SCTPLNK
LOGPORTSN
Logic Port Slot No.
BSC6900
SCTPLNK
LOGPORTNO
Logic Port No.
BSC6900
SCTPLNK
RTOMIN
RTO min value
BSC6900
SCTPLNK
RTOMAX
RTO max value
BSC6900
SCTPLNK
RTOINIT
RTO initial value
BSC6900
SCTPLNK
RTOALPHA
RTO alpha value
BSC6900
SCTPLNK
RTOBETA
RTO beta value
BSC6900
SCTPLNK
HBINTER
Heartbeat interval
BSC6900
SCTPLNK
MAXASSOCRETR
Association max retrans
BSC6900
SCTPLNK
MAXPATHRETR
Path max retrans
BSC6900
CHKSUMTX
Calculate checksum when send message
BSC6900
SCTPLNK
CHKSUMRX
Calculate checksum when receive message
BSC6900
SCTPLNK
CHKSUMTYPE
Checksum arithmetic
BSC6900
SCTPLNK
SCTPLNK
MTU
MTU value VLANID Flag of First Local IP address
BSC6900
SCTPLNK
VLANFLAG1
SCTPLNK
VLANID1
SCTPLNK
VLANFlAG2
VLAN ID of First Local IP address VLANID Flag of Second Local IP address
SCTPLNK
VLANID2
VLAN ID of Second Local IP address BSC6900
SCTPLNK
CROSSIPFLAG
Cross IP address available flag
BSC6900
SCTPLNK
SWITCHBACKFLAG
Switch primary IP address flag
BSC6900
BSC6900
BSC6900
BSC6900
SCTPLNK
SWITCHBACKHBNUM
Switch back HB number
SCTPLNK
BUNDLINGFLAG
Bundling Flag
BSC6900
SCTPLNK
HBINTER
Heartbeat interval
BSC6900
SCTPLNK
MAXASSOCRETR
Association max retrans
BSC6900
SCTPLNK
MAXPATHRETR
Path max retrans
BSC6900
BSC6900
SCTPSRVPORT
NBAPSRVPN
NBAP service listening port No.
BSC6900
SCTPSRVPORT
M3UASRVPN
M3UA service listening port No.
BSC6900
SCTPSRVPORT
BBAPSRVPN
BBAP service listening port No.
BSC6900
SCUPORT
SRN
Subrack No.
BSC6900
SCUPORT
SN
Slot No.
BSC6900
SCUPORT
PN
Port No.
BSC6900
SCUPORT
Switch
Port switch
BSC6900
SEMILINK
IDX
Semipermanent Link Index
BSC6900
SEMILINK
APPTYPE
Application Type
BSC6900
SEMILINK
LNKRATE
Semipermanent Link Rate
BSC6900
SEMILINK
BSCTID
BSC ID in the TC pool
BSC6900
SEMILINK
ATERIDX
Ater connection path index
BSC6900
SEMILINK
INSRN
In BSC Subrack No. BSC6900
SEMILINK
INSN
In BSC Slot No.
BSC6900
SEMILINK
INPN
In BSC Port No.
BSC6900
INTSN
In BSC Start Timeslot No.
BSC6900
SEMILINK
SEMILINK
INMASK
In BSC Mask
BSC6900
SEMILINK
OUTSRN
Out BSC Subrack No.
BSC6900
SEMILINK
OUTSN
Out BSC Slot No.
BSC6900
SEMILINK
OUTPN
Out BSC Port No.
BSC6900
SEMILINK
OUTTSN
Out BSC Start Timeslot No.
BSC6900
SEMILINK
OUTMASK
Out BSC Mask
BSC6900
SEMILINK
APPTYPE
Application Type
BSC6900
SEMILINK
ATEROMLFLAG
Whether or not for OML
BSC6900
SGSN
SGSNNAME
SGSN Name
BSC6900
SGSN
IPADDR1
IP Address1
BSC6900
SGSN
IPADDR2
IP Address2
BSC6900
SGSN
IPADDR3
IP Address3
BSC6900
SGSN
IPADDR4
IP Address4
BSC6900
SGSNNODE
OPNAME
Operator Name
BSC6900
SGSNNODE
CNID
SGSN Node ID
BSC6900
SGSNNODE
SGSNNODE
SGSNSTATUS
SGSN Management Status BSC6900
SGSNCAP
Configure Capacity
BSC6900
SGSNROUTEINFO
ROUTENO
Route No.
BSC6900
SGSNROUTEINFO
IPADDR
IP Address
BSC6900
SGSNROUTEINFO
ROUTEPORTNO
Route Port No.
BSC6900
SGSNROUTEINFO
LOCALPORTNO
Local Port No.
BSC6900
SHA
SHAC
Handover Sharing Area
BSC6900
SHA
OPNAME
Operator Name
BSC6900
SHA
SHACDscrpt
Handover Sharing Area Description
BSC6900
SHALAMAP
ShaIndex
Handover Sharing Area Record Index
BSC6900
SHALAMAP
SHAC
Handover Sharing Area
BSC6900
SHALAMAP
MCC
MCC
BSC6900
SHALAMAP
MNC
MNC
BSC6900
SHALAMAP
LAC
Cell LAC
BSC6900
SLFSLVSW
SWITCH
Self-healing Switch BSC6900
SLFSLVSW
PSW
SLFSLVSW
MSW
SLFSLVSW
CSW
Self-healing Switch for OMU Process BSC6900 Self-healing Switch for Memory Overload Self-healing Switch BSC6900 for Ethernet Adapter Traffic Monitoring BSC6900
SNDRSI
IDXTYPE
Index Type
BSC6900
SNDRSI
TLLI
TLLI
BSC6900
SNDRSI
IMSI
IMSI
BSC6900
SNDRSI
RESID
Reason
BSC6900
SNTPCLTPARA
SP
Sync Period
BSC6900
SNTPSRVINFO
PT
Port
BSC6900
SRA
Srac
Routing Sharing Area Code
BSC6900
SRA
SracDscrpt
Routing Sharing Area Description
BSC6900
SRALAMAP
SraLaMapIndex
Routing Sharing Area Record Index
BSC6900
SRALAMAP
Srac
Routing Sharing Area Code
BSC6900
SRALAMAP
MCC
MCC
BSC6900
SRALAMAP
MNC
MNC
BSC6900
SRALAMAP
LAC
Cell LAC
BSC6900
SRCONPATH
SRN1
Subrack 1 No
BSC6900
SRCONPATH
SRN2
Subrack 2 No
BSC6900
SRCONPATH
TDMN1
Subrack 1 TDM Port No
BSC6900
SRCONPATH
TDMN2
Subrack 2 TDM Port No
BSC6900
SCPIDX
Subrack Communication Path Index
BSC6900
SRCONPATH
SS7PATCHSWITCH
SwitchParameter1
SwitchParameter1
BSC6900
SS7PATCHSWITCH
SwitchParameter2
SwitchParameter2
BSC6900
SS7PATCHSWITCH
SwitchParameter3
SwitchParameter3
BSC6900
SS7PATCHSWITCH
SwitchParameter4
SwitchParameter4
BSC6900
SS7PATCHSWITCH
SwitchParameter5
SwitchParameter5
BSC6900
SS7PATCHSWITCH
SwitchParameter6
SwitchParameter6
BSC6900
SS7PATCHSWITCH
SwitchParameter7
SwitchParameter7
BSC6900
SS7PATCHSWITCH
SwitchParameter8
SwitchParameter8
BSC6900
SS7PATCHSWITCH
SwitchParameter9
SwitchParameter9
BSC6900
SS7PATCHSWITCH
SwitchParameter10
SwitchParameter10 BSC6900
SSLAUTHMODE
AUTHMODE
Authentication Mode
BSC6900
SUBCMD
TSKN
Task Name
BSC6900
SUBCMD
SUBID
Subtask ID
BSC6900
SUBCMD
SCMD
Command String
BSC6900
SUBCMD
CMDSEQ
Command Sequence
BSC6900
SUBNET
SUBNET
Subnet No
BSC6900
SUBRACK
SRName
Subrack name
BSC6900
SUBRACK
CONNPWR
Connect power monitoring board
BSC6900
SUBRACK
TYPE
Subrack Type
BSC6900
SUBRACK
ISTCCENTRAL
Remote TC Central BSC6900
SUBRACK
WORKMODE
Work Mode
BSC6900
SUBRACK
SCUTYPE
SCU Type
BSC6900
SUBRACK
ISSECONDARY
Is Secondary Main Subrack
BSC6900
SUBRACK
SRN
Subrack No.
BSC6900
SUBTSK
TSKN
Task Name
BSC6900
SUBTSK
SUBID
Subtask ID
BSC6900
SUBTSK
ENF
Subtask Status
BSC6900
SUBTSK
SCMD
Command String
BSC6900
SUBTSK
FREQ
Time Mode
BSC6900
SUBTSK
SD
Start Date
BSC6900
SUBTSK
ED
End Date
BSC6900
SUBTSK
RFT
Execute Interval
BSC6900
SUBTSK
DINM
Date in Month
BSC6900
SUBTSK
DINW
Date in Week
BSC6900
SUBTSK
TM1
Execute Time 1
BSC6900
SUBTSK
TM2
Execute Time 2
BSC6900
SUBTSK
TM3
Execute Time 3
BSC6900
SUBTSK
TM4
Execute Time 4
BSC6900
SUBTSK
TM5
Execute Time 5
BSC6900
SUBTSK
ST
Start Time
BSC6900
SUBTSK
ET
End Time
BSC6900
SUBTSK
INTV
Time Interval
BSC6900
SUBTSK
TM
Execute Time
BSC6900
SUBTSK
ENF
Subtask Status
BSC6900
SUBTSK
SD
Start Date
BSC6900
SUBTSK
ED
End Date
BSC6900
SUBTSK
RFT
Execute Interval
BSC6900
SUBTSK
TM1
Execute Time 1
BSC6900
SUBTSK
TM2
Execute Time 2
BSC6900
SUBTSK
TM3
Execute Time 3
BSC6900
SUBTSK
TM4
Execute Time 4
BSC6900
SUBTSK
TM5
Execute Time 5
BSC6900
SUBTSK
ST
Start Time
BSC6900
SUBTSK
ET
End Time
BSC6900
SUBTSK
INTV
Time Interval
BSC6900
SUBTSK
TM
Execute Time
BSC6900
SYS
SYSDESC
System description BSC6900
SYS
SYSOBJECTID
NE Name
BSC6900
SYS
SYSCONTACT
Contact mode of the manufacturer
BSC6900
SYS
SYSLOCATION
System Location
BSC6900
SYS
SYSSERVICES
System services
BSC6900
TCPARA
SRN
Subrack No.
BSC6900
TCPARA
SN
Slot No.
BSC6900
TCPARA
DSPN
DSP No.
BSC6900
TCPARA
G711_Mode
G711 Mode
BSC6900
TCPARA
Idle_Code
Idle Code
BSC6900
TCPARA
AecEnFlag
AEC Switch
BSC6900
TCPARA
AecPureDelay
AEC Path Delay
BSC6900
TCPARA
AecTail
AEC Echo Path Delay
BSC6900
TCPARA
AecDefaultERL
AEC Echo Return Loss
BSC6900
TCPARA
AnrEnFlag
ANR Switch
BSC6900
TCPARA
AnrMode
Noise Suppression Algorithm Switch BSC6900
TCPARA
AnrNseReductMode
Noise Attenuation Mode
BSC6900
AnrNseReductLev
Noise Suppression Mode BSC6900
TCPARA
AnrByPassNseLev
Transparent Transmit Thresh of Noise Lev BSC6900
TCPARA
AlcEnFlag
ALC Switch
BSC6900
TCPARA
AlcAdaptMode
ALC Mode
BSC6900
TCPARA
AlcMaxLev
ALC Max Target Level
BSC6900
TCPARA
AlcMinLev
ALC Min Target Level
BSC6900
TCPARA
AlcFixLev
ALC Fix Target Level
BSC6900
TCPARA
TCPARA
AlcFixGain
ALC Fix Gain
BSC6900
TCPARA
AlcMaxGain
ALC Max Gain
BSC6900
TCPARA
AncEnFlag
ANC Switch
BSC6900
TCPARA
AncSnrGateRS
ANC Target SNR
BSC6900
TCPARA
AncMaxGain
ANC Max Gain
BSC6900
TCPARA
AclpEnFlag
ACLP Switch
BSC6900
TCPARA
Force_Limit_Time
Force Limit Time
BSC6900
TCPARA
TFOOptSwitch
TFO Option Switch BSC6900
TCPARA
AECDetectTime
AEC Detect Time
BSC6900
TCPARA
AECDetectThreshold
AEC Detect Threshold
BSC6900
TCPARA
EPLCSwitch
EPLC Switch
TCPARA
FaultDetectSwitch
Fault Detect Switch BSC6900
TCPARA
AMRHoNoiseFltSwitch
AMR Handover Noise Filter Switch
TCPARA
HAMRTFO8P8ModSwitch
Half Rate AMR TFO with 8+8k Mode BSC6900
TCPARA
FRFlowReduceSwitch
Abis IP/HDLC FR Downlink Flow Reduce Switch
BSC6900
TCPARA
NoiseAmplitudeSwitch
Noise Amplitude Switch
BSC6900
SynFrmWaitSwitch
Syn Frame Wait Switch for Separate Abis IP/HDLC 14.4k BSC6900
TCPARA
BSC6900
BSC6900
TCPARA
HRTocSwitch
HR Toc Switch
BSC6900
TCPLYVOICE
SRN
Subrack No.
BSC6900
TCPLYVOICE
SN
Slot No.
BSC6900
TCPLYVOICE
DSPN
DSP No.
BSC6900
TCPLYVOICE
PLYSWITCH
Play Switch
BSC6900
TCPLYVOICE
CHNNO
Channel No.
BSC6900
TCPLYVOICE
PLYPOINT
Play Point
BSC6900
TCPLYVOICE
PLYTIME
Play Time
BSC6900
TCTYPE
SRN
Subrack No.
BSC6900
TCTYPE
SN
Slot No.
BSC6900
TCTYPE
DSPN
DSP No.
BSC6900
TCTYPE
TCTYPE
The type of TC resource
BSC6900
TGWIP
TGWID
TGW ID
BSC6900
TGWIP
TGWIPOAMIP
TGW IP_TRANS IP address BSC6900
TGWIP
TGWIPOAMMASK
TGW IP_TRANS IP Mask BSC6900
TGWIP
TGWPEERSRN
TGW Trans Subrack No.
BSC6900
TGWIP
TGWPEERSN
TGW TRANS Slot No.
BSC6900
TIME
DATE
Date
BSC6900
TIME
TIME
Time
BSC6900
TRANSPATCHPARA
SRN
Subrack No.
BSC6900
RSVDPARA1
Reserved Parameter 1
BSC6900
TRANSPATCHPARA
TRANSPATCHPARA
RSVDPARA2
Reserved Parameter 2
BSC6900
TRANSPATCHPARA
RSVDPARA3
Reserved Parameter 3
BSC6900
TRANSPATCHPARA
RSVDPARA4
Reserved Parameter 4
BSC6900
TRANSPATCHPARA
RSVDPARA5
Reserved Parameter 5
BSC6900
TRANSPATCHPARA
RSVDPARA6
Reserved Parameter 6
BSC6900
TRANSPATCHPARA
RSVDPARA7
Reserved Parameter 7
BSC6900
TRANSPATCHPARA
RSVDPARA8
Reserved Parameter 8
BSC6900
TRANSPATCHPARA
RSVDPARA9
Reserved Parameter 9
BSC6900
TRANSPATCHPARA
RSVDPARA10
Reserved Parameter 10
BSC6900
TRANSPATCHPARA
RSVDPARA11
Reserved Parameter 11
BSC6900
TRANSPATCHPARA
RSVDPARA12
Reserved Parameter 12
BSC6900
TRANSPATCHPARA
RSVDPARA13
Reserved Parameter 13
BSC6900
TRANSPATCHPARA
RSVDPARA14
Reserved Parameter 14
BSC6900
TRANSPATCHPARA
RSVDPARA15
Reserved Parameter 15
BSC6900
TRMFACTOR
FTI
Factor table index
BSC6900
TRMFACTOR
REMARK
Remark
BSC6900
TRMFACTOR
CSVOICEDL
GSM CS voice service downlink factor
BSC6900
TRMFACTOR
CSVOICEUL
GSM CS voice service uplink factor BSC6900
TRMFACTOR
CSDATADL
GSM CS data service downlink factor
BSC6900
TRMFACTOR
CSDATAUL
GSM CS data service uplink factor BSC6900
TRMFACTOR
PSDATADL
GSM PS data service downlink factor
BSC6900
TRMFACTOR
PSDATAUL
GSM PS data service uplink factor BSC6900
TRMLOADTH
TRMLOADTHINDEX
TRM load threshold index BSC6900
TRMLOADTH
TRANST
Transport Type
BSC6900
TRMLOADTH
THTYPE
Threshold type
BSC6900
TRMLOADTH
FWDRSVHOBW
Forward handover reserved bandwidth BSC6900
TRMLOADTH
BWDRSVHOBW
Backward handover reserved bandwidth BSC6900
TRMLOADTH
FWDCONGBW
Forward congestion remain bandwidth BSC6900
BWDCONGBW
Backward congestion remain bandwidth
FWDCONGCLRBW
Forward congestion clear remain bandwidth BSC6900
BWDCONGCLRBW
Backward congestion clear remain bandwidth
BSC6900
FWDOVLDRSVBW
Forward overload congestion remain bandwidth
BSC6900
BWDOVLDRSVBW
Backward overload congestion remain bandwidth BSC6900
FWDOVLDCLRRSVBW
Forward overload congestion clear remain bandwidth
BWDOVLDCLRRSVBW
Backward overload congestion clear remain bandwidth BSC6900
TRMLOADTH
FWDRESVHOTH
Forward handover reserved ratio
TRMLOADTH
BWDRESVHOTH
Backward handover reserved ratio BSC6900
TRMLOADTH
FWDCONGTH
Forward congestion remain ratio BSC6900
TRMLOADTH
TRMLOADTH
TRMLOADTH
TRMLOADTH
TRMLOADTH
TRMLOADTH
TRMLOADTH
BSC6900
BSC6900
BSC6900
TRMLOADTH
BWDCONGTH
Backward congestion remain ratio
TRMLOADTH
FWDCONGCLRTH
Forward congestion clear remain ratio BSC6900
BWDCONGCLRTH
Backward congestion clear remain ratio
BSC6900
FWDOVLDTH
Forward overload congestion remain ratio
BSC6900
BWDOVLDTH
Backward overload congestion remain ratio BSC6900
FWDOVLDCLRTH
Forward overload congestion clear remain ratio
TRMLOADTH
BWDOVLDCLRTH
Backward overload congestion clear remain ratio BSC6900
TRMLOADTH
TDMCONGTH
Congestion remain ratio BSC6900
TRMLOADTH
TDMCONGCLRTH
Congestion clear remain ratio
BSC6900
TRMLOADTH
GSMCSBWRATE
CS ratio
BSC6900
TRMMAP
TMI
TRMMAP ID
BSC6900
TRMMAP
REMARK
Remark
BSC6900
TRMLOADTH
TRMLOADTH
TRMLOADTH
TRMLOADTH
BSC6900
BSC6900
TRMMAP
ITFT
Interface Type
BSC6900
TRMMAP
TRANST
Transport Type
BSC6900
TRMMAP
CSVOICEPATH
CS voice path
BSC6900
TRMMAP
CSDATAPATH
CS data path
BSC6900
TRMMAP
PSHPRIDATAPATH
PS high PRI data path
BSC6900
TRMMAP
PSLPRIDATAPATH
PS low PRI data path
BSC6900
TRMMAP
CSVOICEPRI
CS voice priority
BSC6900
TRMMAP
CSDATAPRI
CS data priority
BSC6900
TRMMAP
PSHPRIDATAPRI
PS high PRI data priority
BSC6900
TRMMAP
PSLPRIDATAPRI
PS low PRI data priority
BSC6900
TRXBIND2PHYBRD
TRXID
TRX ID
BSC6900
TRXBIND2PHYBRD
TRXTP
TRX Board Type
BSC6900
TRXBIND2PHYBRD
TRXPN
TRX Board Pass No.
BSC6900
TRXBIND2PHYBRD
RXUIDTYPE
RXU Index Type
BSC6900
TRXBIND2PHYBRD
CN
Cabinet No.
BSC6900
TRXBIND2PHYBRD
SRN
Subrack No.
BSC6900
TRXBIND2PHYBRD
SN
Slot No.
BSC6900
TRXBIND2PHYBRD
RXUNAME
RXU Name
BSC6900
TRXBIND2PHYBRD
RXUCHAINNO
RXU Chain No
BSC6900
TRXBIND2PHYBRD
RXUPOS
RXU Chain Position BSC6900
TRXBIND2PHYBRD
ANTPASSNO
Antenna Pass No
BSC6900
TSCROSS
SRN
Subrack No.
BSC6900
TSCROSS
SN
Slot No.
BSC6900
TSCROSS
SRCPORTNO
Source port No.
BSC6900
TSCROSS
SRCTSMASK
Source timeslot mask
BSC6900
TSCROSS
DSTPORTNO
Destination port No. BSC6900
TSCROSS
DSTTSMASK
Destination timeslot mask BSC6900
TSCROSS
TSCROSSX
Time slot cross index
BSC6900
TZ
ZONET
TimeZone
BSC6900
TZ
DST
DaylightSave
BSC6900
TZ
SM
StartType
BSC6900
TZ
SMONTH
Start month
BSC6900
TZ
SDAY
Start date
BSC6900
TZ
SWSEQ
Start week sequence
BSC6900
TZ
SWEEK
Start week
BSC6900
TZ
ST
StartTime
BSC6900
TZ
EM
EndType
BSC6900
TZ
EMONTH
End month
BSC6900
TZ
EDAY
End date
BSC6900
TZ
EWSEQ
End week sequence
BSC6900
TZ
EWEEK
End week
BSC6900
TZ
ET
EndTime
BSC6900
TZ
TO
AdjustMethod
BSC6900
UPDMSRAC
IDXTYPE
Index Type
BSC6900
UPDMSRAC
TLLI
TLLI
BSC6900
UPDMSRAC
IMSI
IMSI
BSC6900
USRCAT
UsrCatIndex
Subscriber Category Index
BSC6900
USRCAT
OPNAME1
Operator Name 1
BSC6900
USRCAT
OpShare1
Rate of Operator 1
BSC6900
USRCAT
OPNAME2
Operator Name 2
BSC6900
USRCAT
OpShare2
Rate of Operator 2
BSC6900
USRCAT
OPNAME3
Operator Name 3
BSC6900
USRCAT
OpShare3
Rate of Operator 3
BSC6900
VLANID
SRN
Subrack No.
BSC6900
VLANID
SN
Slot No.
BSC6900
VLANID
IPADDR
Next Hop IP address.
BSC6900
VLANID
VLANID
VLAN ID.
BSC6900
XPUPORT
SRN
Subrack No.
BSC6900
XPUPORT
SN
Slot No.
BSC6900
XPUPORT
PN
Port No.
BSC6900
XPUPORT
PortSwitch
Panel Port Switch
BSC6900
XPUVLAN
SRN
Subrack No.
BSC6900
XPUVLAN
SN
Slot No.
BSC6900
XPUVLAN
SSN
Subsystem No.
BSC6900
XPUVLAN
MAC
MAC Address
BSC6900
XPUVLAN
IP
IP Address
BSC6900
XPUVLAN
NETMASK
Net Mask
BSC6900
MML Command
Meaning
IsKey
Mandatory
ADD SUBRACK(Mandatory) RMV SUBRACK(Mandatory) Number of the subrack
YES
YES
ADD ABISLOADSHARE(Mandator y) RMV ABISLOADSHARE(Mandator y) This parameter indicates the subrack number.
YES
YES
ADD ABISLOADSHARE(Mandator y) Slot number of the load outlet interface board
NO
YES
ADD ABISLOADSHARE(Mandator Slot number of the transparently transmitting y) interface board
NO
YES
ADD ABISLOADSHARE(Mandator y) Slot number of the load sharing interface board
NO
YES
ADD ADJMAP(Mandatory) MOD ADJMAP(Mandatory) RMV ADJMAP(Mandatory)
This parameter uniquely identifies an adjacent node.
YES
YES
ADD ADJMAP(Mandatory) MOD ADJMAP(Mandatory) RMV ADJMAP(Mandatory)
This parameter indicates the type of the adjacent node. NO
YES
ADD ADJMAP(Mandatory) MOD ADJMAP(Optional)
Index of the traffic mapping used by the current adjacent node's gold user.
NO
YES
ADD ADJMAP(Mandatory) MOD ADJMAP(Optional)
Activation factor table index
NO
YES
ADD ADJNODE(Mandatory) MOD ADJNODE(Mandatory) This parameter uniquely identifies an adjacent RMV ADJNODE(Mandatory) node.
YES
YES
ADD ADJNODE(Mandatory) MOD ADJNODE(Optional)
This parameter indicates the name of the adjacent node.
NO
YES
ADD ADJNODE(Mandatory) MOD ADJNODE(Optional)
This parameter indicates the type of the adjacent node. NO
YES
ADD ADJNODE(Mandatory)
This parameter indicates the BTS index of the adjacent node to be added. The parameter is valid only when Adjacent node type is set to Abis.
NO
YES
ADD ADJNODE(Mandatory)
This parameter uniquely identifies a BSC in the TC pool.
NO
YES
MOD AE1T1(Mandatory) RMV AE1T1(Mandatory) ADD AE1T1(Mandatory)
This parameter indicates the subrack number.
NO
YES
MOD AE1T1(Mandatory) RMV AE1T1(Mandatory) ADD AE1T1(Mandatory)
Number of the slot
NO
YES
MOD AE1T1(Mandatory) RMV AE1T1(Mandatory) ADD AE1T1(Mandatory)
Port number
NO
YES
MOD AE1T1(Mandatory)
Value MODSTARTCIC indicates modifying the start CIC of the E1/T1 timeslots on the A interface. Value MODSGLCIC indicates modifying the CIC of an E1/T1 timeslot on the A interface. NO
YES
MOD AE1T1(Mandatory) ADD AE1T1(Mandatory)
Number of the start CIC. The C/C of each E1/T1 timeslot can be calculated on the basis of this parameter. Assume that the start CIC is 100, the CIC of the E1 timeslots on the A interface will automatically be set to 100, 101, 102, 103, and so on. Assume that the CIC of an E1 timeslot is 65535, the CICs of all successive E1 timeslots are all 65535. NO
YES
MOD AE1T1(Optional) ADD AE1T1(Mandatory)
Value ALLCIC indicates that all E1/T1 timeslots on the A interface must be set with the start CIC. Value ALLNULL indicates that all E1/T1 timeslots on the A interface can be set with the value NULL. NO
NO
MOD AE1T1(Mandatory)
Number of the timeslot to be modified
NO
YES
MOD AE1T1(Optional)
Type of the timeslot to be modified
NO
NO
MOD AE1T1(Optional)
Number of the CIC to be modified
NO
NO
ADD AE1T1(Optional)
Index of the DPC group. See "ADD GCNNODE" command. NO
NO
ADD AE1T1(Mandatory)
Uniquely identifies an OSP. See "ADD OPC" command.
NO
YES
ADD AE1T1(Mandatory)
It indicates whether the A interface E1/T1 is the primary BSC or secondary BSC.
NO
YES
ID of the BSC in the TC pool to which an A interface E1/T1 is added
NO
YES
Unique identifier of the Um interface software synchronization task.
YES
YES
ADD AISSCFG(Mandatory) MOD AISSCFG(Optional)
Whether to collect the offset information.
NO
YES
ADD AISSCFG(Mandatory) MOD AISSCFG(Optional)
Offset Time Adjustment Switch.
NO
YES
ADD AE1T1(Mandatory) ADD AISSCFG(Mandatory) RMV AISSCFG(Mandatory) MOD AISSCFG(Mandatory)
ADD AISSCFG(Mandatory) MOD AISSCFG(Mandatory)
The reference BTS must support the Um interface software synchronization.
NO
YES
ADD AISSCFG(Mandatory) MOD AISSCFG(Mandatory)
Whether to re-initialize the neighboring cell pair for software synchronization.
NO
YES
ADD AISSCFG(Mandatory) MOD AISSCFG(Mandatory)
Whether the Um interface software synchronization between BSCs is supported.
NO
YES
ADD AISSCFG(Mandatory) MOD AISSCFG(Mandatory)
Whether the BSC is a reference BSC.
NO
YES
ADD AISSCFG(Mandatory) MOD AISSCFG(Mandatory)
DPC of the control BSC.
NO
YES
NO
NO
ADD AISSCFG(Optional) MOD AISSCFG(Optional)
Fine tuning period in the BSC. Threshold for fine tuning the BTS clock. If the offset of the BTS clock is smaller than the threshold, no fine tuning is performed.
NO
NO
ADD AISSCFG(Optional) MOD AISSCFG(Optional)
Start time for collecting the offset information.
NO
NO
ADD AISSCFG(Optional) MOD AISSCFG(Optional)
End time for collecting the offset information.
NO
NO
ADD AISSCFG(Optional) MOD AISSCFG(Optional)
Start time for adjusting the offset time.
NO
NO
ADD AISSCFG(Optional) MOD AISSCFG(Optional)
End time for adjusting the offset time.
NO
NO
ADD AISSCFG(Optional) MOD AISSCFG(Optional)
Start time for collecting the inter-BSC offset information.
NO
NO
ADD AISSCFG(Optional) MOD AISSCFG(Optional)
ADD AISSCFG(Optional) MOD AISSCFG(Optional)
End time for collecting the inter-BSC offset information. NO Cell load threshold for collecting the offset information. If the load threshold is exceeded, the offset information is not collected. NO Cell load threshold for adjusting the offset time. If the load threshold is exceeded, the offset time is not adjusted. NO
ADD AISSCFG(Optional) MOD AISSCFG(Optional)
Number of times that the downlink signal is measured.
ADD AISSCFG(Optional) MOD AISSCFG(Optional)
ADD AISSCFG(Optional) MOD AISSCFG(Optional)
NO
NO
NO
NO
NO
ADD AISSCFG(Optional) MOD AISSCFG(Optional)
Number of times that the downlink signal strength exceeds the threshold.
NO
NO
ADD AISSCFG(Optional) MOD AISSCFG(Optional)
An MS can be used to test the Um interface software synchronization only when the DL signal strength after the power control compensation in the test cell and the observed cell is higher than this limit.
NO
NO
ADD AISSCFG(Optional) MOD AISSCFG(Optional)
Number of MSs used when the offset information is collected.
NO
NO
ADD AISSCFG(Optional) MOD AISSCFG(Optional)
Value of the timer for waiting for the response to information collection. NO
NO
ADD AISSCFG(Optional) MOD AISSCFG(Optional)
Value of the timer for reserving the TCHFs in the serving cell. NO
NO
ADD AISSCFG(Optional) MOD AISSCFG(Optional)
Value of the timer for reserving the TRXs in the observed cell.
NO
NO
ADD AISSCFG(Optional) MOD AISSCFG(Optional)
Value of the timer for reserving the channels in the observed cell.
NO
NO
ADD AISSCFG(Optional) MOD AISSCFG(Optional)
Value of the timer for searching for the MS.
NO
NO
ADD AISSCFG(Optional) MOD AISSCFG(Optional)
Value of the timer for activating the reserved resources of the BTS.
NO
NO
ADD AISSCFG(Optional) MOD AISSCFG(Optional)
Value of the timer for waiting for the synchronization report from the BTS.
NO
NO
ADD AISSCFG(Optional) MOD AISSCFG(Optional)
Duration for the BTS to collect the AB after the TRX or channel is activated
NO
NO
ADD AISSCFG(Optional) MOD AISSCFG(Optional)
Valid duration of the reserved TRX or timeslot.
NO
NO
NO
ADD AISSCFG(Optional) MOD AISSCFG(Optional)
Value of the timer for synchronization between BSCs. If a BSC fails to synchronize with the control BSC before the timer expires, the BSC starts to synchronize the BTSs under its control. NO Time for reserving the handover reference for one of the two BSCs that collect the offset information. NO
ADD AISSCFG(Optional) MOD AISSCFG(Optional)
Period for fine tuning the BTS clock between BSCs.
ADD AISSCFG(Optional) MOD AISSCFG(Optional)
NO
NO
NO
ADD AISSCFG(Optional) MOD AISSCFG(Optional)
Whether to adjust the offset time immediately after the BTS is reset.
MOD AISSCFG(Mandatory)
Whether to reserve the collected BTS synchronization status between BSCs, collected BTS synchronization status in the BSC, and synchronized BTS status. NO
YES
SET AITFOTHPARA(Mandatory)
Index of an MSC. It is used in storing and querying the MSC attributes
YES
SET AITFOTHPARA(Optional)
Maximum number of times of resending a reset message at the A interface. When the BSC is reset, the BSC sends a reset message to the MSC and starts a timer. If the timer expires when the BSC waits for a response message, the BSC resends the reset message and restarts a timer. If the timer expires again and the times of resending the reset message are less than the value of this parameter, the BSC continues resending the reset message. NO
NO
SET AITFOTHPARA(Optional)
Whether to send a CONFUSION message to the MSC. This parameter specifies whether to send a message carrying fault location information to the MSC if the BSC receives a message that cannot be decoded over the A interface. NO
NO
NO
YES
NO
SET AITFOTHPARA(Optional) SET AITFOTHPARA(Optional)
Whether the BSC sends an Assignment Fail message with the cause value of directed retry to the MSC before the BSC initiates a directed retry procedure NO In case of intra-BSC, if this parameter is set to ON, the same channel type and voice version as those of the original channel are selected. NO
NO
NO
SET AITFOTHPARA(Optional)
When the value of this parameter is YES, if the assignment request message sent by the MSC contains the channel rate type indicating the support of both full and half rates, and contains the speech version indicating the selection of full rate speech version only or half rate speech version only, the BSC decodes the channel rate type into the selection of full rate only or half rate only when decoding the assignment request message. NO Whether to add the TA value to a complete layer3 message to provide the LCS function on the A interface NO
SET AITFOTHPARA(Optional)
This parameter specifies the transmission mode when the BSS does not support the encryption algorithm of the MSC. When this parameter is set to Yes, the BSS uses non-encryption transmission mode. When this parameter is set to No, the BSS rejects the call. NO
SET AITFOTHPARA(Optional)
NO
NO
NO
SET AITFOTHPARA(Optional)
Strategy of selecting the speech version to be used after an intra-BSC handover when the BSC is in A over IP mode. When this parameter is set to MSC Strategy, the BSC selects the speech version to be used after an intra-BSC handover according to the priority of each speech version carried in the assignment message from the MSC. When this parameter is set to BSC Strategy, the BSC selects the speech version to be used after an intra-BSC handover according to the priority of each speech version from high to low. The speech versions with the priorities from high to low are FR AMR-WB, FR AMR, EFR, FR, HR AMR, and HR. When this parameter is set to Speech Version of Originating Cell Preferred, the BSC preferentially selects the speech version in the originating cell as the speech version used after an intra-BSC handover. If the target cell does not support the speech version in the originating cell, the BSC selects the speech version to be used after the intra-BSC handover according to the priority of each speech version from high to low carried in the assignment message from the MSC. NO
NO
SET ALMBLKPARA(Mandatory)
Alarm ID
YES
YES
Alarm blink filter threshold. When the interval between the generation and clearance of an alarm is equal to or smaller than the alarm blink filter threshold, the alarm is filtered and not SET ALMBLKPARA(Optional) reported.
NO
NO
Assume that this threshold is not 0. When the accumulated number of alarm blink times exceeds the threshold, the alarm is reported. For querying the alarm blink measurement period, see "LST ALMBLKSW". For setting the alarm blink measurement period, see "SET SET ALMBLKPARA(Optional) ALMBLKSW". NO
NO
Assume that this threshold is not 0. When the number of alarm blink times is smaller than the threshold, the alarm is reported. For querying the alarm blink measurement period, see "LST ALMBLKSW". For setting the alarm blink SET ALMBLKPARA(Optional) measurement period, see "SET ALMBLKSW". NO
NO
Maximum rate of the accumulated alarm blink duration to the alarm blink measurement period. Assume this threshold is not 0. When the rate of accumulated alarm blink duration exceeds the threshold, an alarm is reported. For querying the alarm blink measurement period, see "LST ALMBLKSW". For setting the alarm blink SET ALMBLKPARA(Optional) measurement period, see "SET ALMBLKSW". NO
NO
Minimum rate of the accumulated alarm blink duration to the alarm blink measurement period. Assume this threshold is not 0. When the rate of accumulated alarm blink duration is lower than the threshold, an alarm is reported. For querying the alarm blink measurement period, see "LST ALMBLKSW". For setting the alarm blink SET ALMBLKPARA(Optional) measurement period, see "SET ALMBLKSW". NO
NO
SET ALMBLKSW(Optional)
Base Station Controller alarm blink filter switch
NO
NO
SET ALMBLKSW(Optional)
Switch controlling whether to perform statistics of Base Station Controller alarms NO
NO
SET ALMBLKSW(Optional)
Measurement period of filtered Base Station Controller alarms
NO
NO
SET ALMCAPACITY(Optional)
Maximum capacity for storing the alarm log
NO
NO
SET ALMCAPACITY(Optional)
Maximum number of days for storing history alarms
NO
NO
SET ALMLVL(Mandatory)
Alarm severity. One or more severities can be selected. By default, all severities are selected.
NO
YES
SET ALMML(Mandatory)
Alarm mask switch
NO
YES
SET ALMPORT(Mandatory)
Number of the subrack
YES
YES
SET ALMPORT(Mandatory)
Port No. of environment alarm
YES
YES
SET ALMPORT(Optional)
Operating state of the environment alarm port
NO
NO
SET ALMPORT(Mandatory)
Alarm ID
NO
YES
SET ALMPORT(Mandatory)
Port type of environment alarm
YES
YES
SET ALMPORT(Optional)
Alarm level for a digital port
NO
NO
SET ALMPORT(Optional)
Upper limit for triggering an alarm
NO
NO
SET ALMPORT(Optional)
Lower limit for triggering an alarm
NO
NO
SET ALMSCRN(Mandatory)
Alarm severity. One or more severities can be selected. By default, all severities are selected.
NO
YES
SET ALMSHLD(Mandatory)
Shield flag of the alarm
NO
YES
SET ASWPARA(Mandatory)
If this parameter is set to "ON", you must set "OMU automatic switchover interval". Otherwise, "OMU automatic switchover interval" is not displayed. NO
YES
SET ASWPARA(Mandatory)
Automatic switchover interval. This parameter needs to be set only when "OMU automatic switchover switch" is set to "ON". The minimum automatic switchover interval is 30 days and the maximum automatic switchover interval is 1024 days. NO
YES
SET ASWPARA(Optional)
This parameter specifies whether turn on automatic switchover automatically.
NO
NO
NO
YES
ADD Number of the BM subrack where one end of the ATERCONPATH(Mandatory) ATER connection channel is located NO
YES
ADD Number of the slot in the BM subrack where one ATERCONPATH(Mandatory) end of the ATER connection channel is located NO
YES
ADD Number of the port in the BM subrack where one ATERCONPATH(Mandatory) end of the ATER connection channel is located NO
YES
ADD Number of the TC subrack where one end of the ATERCONPATH(Mandatory) ATER connection channel is located NO
YES
ADD Number of the TC slot where one end of the ATERCONPATH(Mandatory) ATER connection channel is located
YES
RMV ATERCONPATH(Mandatory) ADD ATERCONPATH(Optional) Index of an Ater connection path
NO
ADD Number of the TC port where one end of the ATERCONPATH(Mandatory) ATER connection channel is located
NO
YES
ADD ATERCONSL(Optional) MOD ATERCONSL(Mandatory) RMV ATERCONSL(Mandatory) Identifies an Ater signaling channel
YES
NO
ADD ATERCONSL(Mandatory)
Index of an Ater connection path
NO
YES
ADD ATERCONSL(Mandatory)
Ater interface timeslot mask
NO
YES
NO
NO
ADD ATERCONSL(Optional) Number of the slot where the A interface board MOD ATERCONSL(Optional) is located
The Ater signaling link operates in the terrestrial transmission or satellite transmission mode. In the areas such as desert and lake where the ADD ATERCONSL(Optional) terrestrial transmission is difficult, the satellite MOD ATERCONSL(Optional) transmission can be used. NO
NO
Congestion start threshold. If congestion start threshold is set to a large value, there will be a time lag in the congestion control and, the work of the signaling link gets deteriorated. The interval between congestion start threshold and congestion end threshold should not be too small. Otherwise, the work of the signaling link is ADD ATERCONSL(Optional) unstable. The congestion control will start MOD ATERCONSL(Optional) frequently. NO
NO
Congestion end threshold. If the congestion end threshold is large, the congestion control ends earlier. As a result, the congestion control effect ADD ATERCONSL(Optional) is poor. The work of the Ater signaling link is MOD ATERCONSL(Optional) deteriorated. NO
NO
ADD ATERCONSL(Optional) MOD ATERCONSL(Optional) Window size of the Ater signaling link
NO
NO
The configuration flag specifies the operation is ADD ATERE1T1(Mandatory) on the BM or TC.
NO
YES
ID of the BSC at the other end of the link. In nonTC pool scenario, this parameter specifies the ID of the primary BSC. In TC pool scenario, this parameter specifies the ID of the BSC that is at ADD ATERE1T1(Mandatory) the other end of the link. NO
YES
ADD ATERE1T1(Mandatory) Index of an Ater connection path
NO
YES
ADD ATERE1T1(Mandatory) RMV ATERE1T1(Mandatory) This parameter indicates the subrack number.
YES
YES
ADD ATERE1T1(Mandatory) RMV ATERE1T1(Mandatory) Number of the slot
YES
YES
Number of the E1/T1 port on the Ater interface board. E1 mode: 0~31 (EIU), 0~62(OIU), ADD ATERE1T1(Mandatory) 0~251(POUc). T1 mode: 0~31(EIU), 0~83(OIU), RMV ATERE1T1(Mandatory) 0~335(POUc). YES ADD ATEROML(Mandatory) RMV ATEROML(Mandatory) MOD ATEROML(Mandatory) Ater maintenance link index YES
YES
YES
ADD ATEROML(Mandatory)
Ater connection path index, the index is set through the ADD ATERCONPATH command.
NO
YES
ADD ATEROML(Mandatory) MOD ATEROML(Optional)
Time slots for Ater operation and maintenance. These time slots are provided by the ports connected to the Ater connection path.
NO
YES
ADD ATERSL(Optional) MOD ATERSL(Mandatory) RMV ATERSL(Mandatory)
Identifies an Ater signaling channel
YES
NO
ADD ATERSL(Mandatory) MOD ATERSL(Mandatory)
Identifies the BM subrack or TC subrack of the BSC. When this parameter is set to "CFGBM", a BM signaling link is added. When this parameter is set to "GFGTC", a TC signaling link is added.
NO
YES
ADD ATERSL(Mandatory)
ID of the BSC at the other end of the link. In nonTC pool scenario, this parameter specifies the ID of the primary BSC. In TC pool scenario, this parameter specifies the ID of the BSC that is at the other end of the link. NO
YES
ADD ATERSL(Mandatory)
Index of an Ater connection path
NO
YES
ADD ATERSL(Mandatory)
Ater interface timeslot mask
NO
YES
ADD ATERSL(Optional) MOD ATERSL(Optional)
Number of the slot where the A interface board is located
NO
NO
ADD ATERSL(Optional) MOD ATERSL(Optional)
The Ater signaling link operates in the terrestrial transmission or satellite transmission mode. In the areas such as desert and lake where the terrestrial transmission is difficult, the satellite transmission can be used. NO
NO
ADD ATERSL(Optional) MOD ATERSL(Optional)
Congestion start threshold. If congestion start threshold is set to a large value, there will be a time lag in the congestion control and, the work of the signaling link gets deteriorated. The interval between congestion start threshold and congestion end threshold should not be too small. Otherwise, the work of the signaling link is unstable. The congestion control will start frequently. NO
NO
ADD ATERSL(Optional) MOD ATERSL(Optional)
Congestion end threshold. If the congestion end threshold is large, the congestion control ends earlier. As a result, the congestion control effect is poor. The work of the Ater signaling link is deteriorated. NO
NO
Window size of the Ater signaling link
NO
NO
Number of the subrack
NO
YES
Number of the slot
NO
YES
Port number NO Identifies one BC at the Gb interface board. The BCID's value range of PEUa board is 0~255 and that of POUc board is 0~511. NO
YES
ADD ATERSL(Optional) MOD ATERSL(Optional) ADD BC(Mandatory) MOD BC(Mandatory) RMV BC(Mandatory) ADD BC(Mandatory) MOD BC(Mandatory) RMV BC(Mandatory)
ADD BC(Mandatory) ADD BC(Mandatory) MOD BC(Mandatory) RMV BC(Mandatory)
YES
ADD BC(Mandatory) MOD BC(Optional)
Timeslot of bearing channels
NO
YES
ADD BC(Optional) MOD BC(Optional)
Protocol type of the trunk frame. The setting of this parameter must be consistent with the setting at the SGSN side.
NO
NO
ADD BC(Optional) MOD BC(Optional)
Counter on the DTE side. After BC link integrity is verified according to "Parameter of DTE [N391]", the global state query request is originated on the DTE side.
NO
NO
ADD BC(Optional) MOD BC(Optional)
Counter on the DTE side, recording the checking times "Parameter of DTE [N393]". After BC link integrity is verified according to "Parameter of DTE [N392]", the BC link state is restored. That is: if the BC link state on the DTE side is failure, and the system is found normal in the checking times "Parameter of DTE [N392]" out of the checking times "Parameter of DTE [N393]", the BC link state is switched to the normal state. If the BC link state operates normally on the DTE side, and the system is found faulty in the checking times "Parameter of DTE [N392]" out of the checking times "Parameter of DTE [N393]", the BC link state is switched to the faulty state. "Parameter of DTE [N392]" must be smaller than "Parameter of DTE [N393]". NO
NO
ADD BC(Optional) MOD BC(Optional)
Counter on the DTE side, recording the checking times "Parameter of DTE [N393]". After BC link integrity is verified according to "Parameter of DTE [N392]", the BC link state is restored. That is: if the BC link state on the DTE side is failure, and the system is found normal in the checking times "Parameter of DTE [N392]" out of the checking times "Parameter of DTE [N393]", the BC link state is switched to the normal state. If the BC link state operates normally on the DTE side, and the system is found faulty in the checking times "Parameter of DTE [N392]" out of the checking times "Parameter of DTE [N393]", the BC link state is switched to the faulty state. "Parameter of DTE [N393]" must be greater than "Parameter of DTE [N392]". NO
NO
ADD BC(Optional) MOD BC(Optional)
Timer on the DTE side, specifying the duration of acknowledging the sending BC link integrity. NO
NO
MOV BCCH(Mandatory)
Type of an index.
NO
YES
MOV BCCH(Mandatory)
Index of a cell, uniquely identifying a cell in a BSC.
NO
YES
MOV BCCH(Mandatory)
Name of a cell. This parameter uniquely identifies a cell in a BSC. Cell names cannot contain the following invalid characters: ,;="' In addition, cell names cannot contain two or more consecutive %, two or more consecutive spaces, or more than two consecutive +.
NO
YES
MOV BCCH(Mandatory)
ID of the TRX that carries the destination main BCCH
NO
YES
SET BFDPROTOSW(Mandatory)
Number of the subrack
YES
YES
SET BFDPROTOSW(Mandatory)
Number of the slot
YES
YES
SET BFDPROTOSW(Mandatory)
Turn on or turn off the BFD protocol switch
YES
YES
Whether to report the alarm to the alarm box
NO
YES
Number of the subrack
YES
YES
Number of the slot
YES
YES
MOD BRD(Mandatory)
Classes of boards classified according to function modules
NO
YES
MOD BRD(Mandatory)
Whether to back up the data of the board
NO
YES
MOD BRD(Mandatory)
Type of the board
NO
YES
ADD BRD(Mandatory)
Classes of boards classified according to function modules
NO
YES
ADD BRD(Optional)
Type of the board
NO
NO
SET BOXRPT(Mandatory) RMV BRD(Mandatory) MOD BRD(Mandatory) ADD BRD(Mandatory) RMV BRD(Mandatory) MOD BRD(Optional) ADD BRD(Mandatory)
ADD BRD(Optional)
Logical function type of the board OAM:Operation And Maintenance Process TDM_Switching:TDM switching process GCP:All the GCP subsystems are configured as CPUS to act as the control plane processing subsystems for GSM BSC RGCP:Subsystem 0 of RGCP is configured as the MPU subsystem to act as the resource management subsystem. The other subsystems are configured as CPUS to act as the control plane processing subsystems for GSM BSC MCP: Mathematics Computing Process, which includes Interference Based Channel Allocation (IBCA) GTC:GSM BSC TC Process GPCU:GSM BSC PCU Process IP:GOUc/IP IP over GE Optical interface,GOUa/IP IP over GE Optical interface,PEUa/IP IP over E1/T1/J1 interface,FG2c/IP IP over FE/GE interface(not support GbIP),FG2a/IP IP over FE/GE interface,POUc/IP IP over channelized Optical STM-1/OC-3 interface FR:PEUa/FR Frame Relay over E1/T1/J1 interface HDLC:PEUa/HDLC Packet over E1/T1/J1 interface TDM:POUc/TDM channelized Optical STM1/OC-3 interface GbIP:FG2a/GbIP GSM BSC Gb IP interface Abis_TDM:EIUa/Abis_TDM E1/T1 circuit Interface for Abis,OIUa/Abis_TDM channelized Optical STM-1 Interface for Abis Ater_TDM:EIUa/Ater_TDM E1/T1 circuit Interface for Ater,OIUa/Ater_TDM channelized NO
NO
ADD BRD(Optional)
Whether to back up the data of the board
NO
NO
ADD BRD(Mandatory)
Whether it is a TC board
NO
YES
ADD BRD(Mandatory)
Number of the subrack where the MPU subsystem is located
NO
YES
ADD BRD(Mandatory)
Number of the slot where the MPU subsystem is located NO
YES
ADD BRD(Optional)
Application type of the POUc_TDM board
NO
NO
ADD BRD(Optional)
Whether inter-subrack TDM connection path can be added automatically NO
NO
SET BSCABISPRIMAP(Mandatory ) BTS index type
NO
YES
SET BSCABISPRIMAP(Mandatory ) Index of the BTS running the command
YES
YES
SET In addition, cell names cannot contain two or BSCABISPRIMAP(Mandatory more consecutive %, two or more consecutive ) spaces, or more than two consecutive +.
NO
YES
SET BSCABISPRIMAP(Mandatory ) Transmission type of the BTS
NO
YES
SET BSCABISPRIMAP(Optional)
Service priority of the specified OML
NO
NO
SET BSCABISPRIMAP(Optional)
RSL service priority
NO
NO
SET BSCABISPRIMAP(Optional)
Service priority of the specified EML
NO
NO
SET BSCABISPRIMAP(Optional)
Service priority of the ESL
NO
NO
SET BSCABISPRIMAP(Optional)
Transmission resources mapping switch
NO
NO
NO
YES
Name of the BTS, uniquely identifying a BTS in a BSC. This parameter cannot contain the following invalid characters: ,;="'
SET BSCABISPRIMAP(Mandatory ) Specified TRMMAP index of the user panel
SET BSCABISPRIMAP(Optional)
Activation factor switch
NO
NO
SET BSCABISPRIMAP(Mandatory ) Activation factor table index
NO
YES
SET BSCABISPRIMAP(Optional)
NO
NO
SET BSCABISPRIMAP(Mandatory ) Flow control parameter index
NO
YES
SET BSCABISPRIMAP(Optional)
NO
NO
NO
YES
Specified port flow control switch
TRM load threshold switch
SET BSCABISPRIMAP(Mandatory ) TRM load threshold index
SET BSCABISPRIMAP(Optional)
Differentiated service code of the specified OML NO
NO
SET BSCABISPRIMAP(Optional)
Differentiated service code of the specified RSL
NO
NO
SET BSCABISPRIMAP(Optional)
Differentiated service code of the specified EML NO
NO
SET BSCABISPRIMAP(Optional)
Differentiated service code of the specified ESL
NO
NO
SET BSCABISPRIMAP(Optional)
Specified Vlan enabling flag
NO
NO
SET BSCABISPRIMAP(Optional)
Specified OML Vlan Id
NO
NO
SET BSCABISPRIMAP(Optional)
Specified RSL Vlan Id
NO
NO
SET BSCABISPRIMAP(Optional)
Specified EML Vlan Id
NO
NO
SET BSCABISPRIMAP(Optional)
Specified ESL Vlan Id
NO
NO
ADD BSCACCCTRLP(Mandatory) RMV BSCACCCTRLP(Mandatory) This parameter specifies the index of an access MOD control (ACC) policy. It is used to identify an ACC BSCACCCTRLP(Mandatory) policy. YES
YES
ADD BSCACCCTRLP(Optional) MOD BSCACCCTRLP(Optional)
This parameter is used to specify the ACC sliding window size in an access control policy. MSs of the ACC access classes that are specified in the sliding window are not allowed to access the network. NO
NO
ADD BSCACCCTRLP(Optional) MOD BSCACCCTRLP(Optional)
This parameter is used to specify the starting point of the ACC sliding window in an access control policy.
NO
NO
ADD BSCACCCTRLP(Optional) MOD BSCACCCTRLP(Optional)
This parameter is used to specify the sliding period of the ACC sliding window in an access control policy.
NO
NO
SET BSCAISS(Mandatory)
When the BTS clock is adjusted, the offset is added to obtain better network performance.
NO
YES
SET BSCAITFTMR(Mandatory)
Index of an MSC. It is used in storing and querying the MSC attributes
YES
YES
SET BSCAITFTMR(Optional) Timer for waiting for an A-interface reset answer NO
NO
MSC reset protection timer, that is, interval between the time when the BSC receives an MSC reset message and the time when the BSC SET BSCAITFTMR(Optional) answer to the MSC. NO
NO
T17 timer. When receiving an MSC overload message or a single point congestion message for the first time, the BSC increases the level of the A interface flow control and starts the T17 and T18 timers at the same time. Timers T17 and T18 are set for adjusting the flow control SET BSCAITFTMR(Optional) level over the A interface.
NO
NO
T18 timer. When receiving an MSC overload message or a single point congestion message for the first time, the BSC increases the level of the A interface flow control and starts the T17 and T18 timers at the same time. Timers T17 and T18 are set for adjusting the flow control SET BSCAITFTMR(Optional) level over the A interface.
NO
NO
SET BSCBASIC(Optional)
Local area code, for example, 021 for Shanghai. NO
NO
SET BSCBASIC(Optional)
Country code, for example, 86 for China.
NO
NO
SET BSCBASIC(Optional)
Phase tag for GSM protocols supported by the A interface. The value of this parameter is chosen according to the A interface phase tag provided by the MSC. NO
NO
SET BSCBASIC(Optional)
Phase tag for GSM protocols that the Um interface supports.
NO
NO
SET BSCBASIC(Optional)
Phase tag for GSM protocols that the Abis interface supports.
NO
NO
SET BSCBASIC(Optional)
Support intra-cell handover to change the active speech version, then can increase the usage of TFO(Tandem Free Operation) to improve the speech quality. NO
NO
SET BSCBASIC(Optional)
Type of a high frequency type supported by the BSC. Frequencies on DCS1800: 512-885 Frequencies on PCS1900: 512-810
NO
NO
SET BSCBASIC(Optional)
Service mode of the BSC. This parameter specifies configuration mode of subracks.
NO
NO
SET BSCBASIC(Optional)
Single pass exclude MSISDN number 1. Certain numbers, such as the premium rate number, are not used for the single pass check. The number is stored in character string. NO
NO
SET BSCBASIC(Optional)
Single pass exclude MSISDN number 2. Certain numbers, such as the premium rate number, are not used for the single pass check. The number is stored in character string. NO
NO
SET BSCBASIC(Optional)
Single pass exclude MSISDN number 3. Certain numbers, such as the premium rate number, are not used for the single pass check. The number is stored in character string. NO
NO
SET BSCBASIC(Optional)
Single pass exclude MSISDN number 4. Certain numbers, such as the premium rate number, are not used for the single pass check. The number is stored in character string. NO
NO
SET BSCBASIC(Optional)
Single pass exclude MSISDN number 5. Certain numbers, such as the premium rate number, are not used for the single pass check. The number is stored in character string. NO
NO
SET BSCBASIC(Optional)
Single pass exclude MSISDN number 6. Certain numbers, such as the premium rate number, are not used for the single pass check. The number is stored in character string. NO
NO
SET BSCBASIC(Optional)
Single pass exclude MSISDN number 7. Certain numbers, such as the premium rate number, are not used for the single pass check. The number is stored in character string. NO
NO
SET BSCBASIC(Optional)
Single pass exclude MSISDN number 8. Certain numbers, such as the premium rate number, are not used for the single pass check. The number is stored in character string. NO
NO
SET BSCBASIC(Optional)
Single pass exclude MSISDN number 9. Certain numbers, such as the premium rate number, are not used for the single pass check. The number is stored in character string. NO
NO
SET BSCBASIC(Optional)
Single pass exclude MSISDN number 10. Certain numbers, such as the premium rate number, are not used for the single pass check. The number is stored in character string. NO
NO
SET BSCBASIC(Optional)
Single pass exclude MSISDN number 11. Certain numbers, such as the premium rate number, are not used for the single pass check. The number is stored in character string. NO
NO
SET BSCBASIC(Optional)
Single pass exclude MSISDN number 12. Certain numbers, such as the premium rate number, are not used for the single pass check. The number is stored in character string. NO
NO
SET BSCBASIC(Optional)
Single pass exclude MSISDN number 13. Certain numbers, such as the premium rate number, are not used for the single pass check. The number is stored in character string. NO
NO
SET BSCBASIC(Optional)
Single pass exclude MSISDN number 14. Certain numbers, such as the premium rate number, are not used for the single pass check. The number is stored in character string. NO
NO
SET BSCBASIC(Optional)
Single pass exclude MSISDN number 15. Certain numbers, such as the premium rate number, are not used for the single pass check. The number is stored in character string. NO
NO
SET BSCBASIC(Optional)
Single pass exclude MSISDN number 16. Certain numbers, such as the premium rate number, are not used for the single pass check. The number is stored in character string. NO
NO
SET BSCBASIC(Optional)
Single pass exclude MSISDN number 17. Certain numbers, such as the premium rate number, are not used for the single pass check. The number is stored in character string. NO
NO
SET BSCBASIC(Optional)
Single pass exclude MSISDN number 18. Certain numbers, such as the premium rate number, are not used for the single pass check. The number is stored in character string. NO
NO
SET BSCBASIC(Optional)
Single pass exclude MSISDN number 19. Certain numbers, such as the premium rate number, are not used for the single pass check. The number is stored in character string. NO
NO
SET BSCBASIC(Optional)
Single pass exclude MSISDN number 20. Certain numbers, such as the premium rate number, are not used for the single pass check. The number is stored in character string. NO
NO
SET BSCBASIC(Optional)
MSISDN prefix 1. When matching the call specified by the mobile number, the BSC adds the MSISDN prefix 1 according to the value of this parameter. For example, when the value of this parameter is 123 and the mobile number to be matched is 456, the call matching is considered successful if the corresponding MSISDN is 123456.
NO
NO
SET BSCBASIC(Optional)
MSISDN prefix 2. When matching the call specified by the mobile number, the BSC adds the MSISDN prefix 2 according to the value of this parameter. For example, when the value of this parameter is 123 and the mobile number to be matched is 456, the call matching is considered successful if the corresponding MSISDN is 123456.
NO
NO
SET BSCBASIC(Optional)
MSISDN prefix 3. When matching the call specified by the mobile number, the BSC adds the MSISDN prefix 3 according to the value of this parameter. For example, when the value of this parameter is 123 and the mobile number to be matched is 456, the call matching is considered successful if the corresponding MSISDN is 123456.
NO
NO
SET BSCBASIC(Optional)
MSISDN prefix 4. When matching the call specified by the mobile number, the BSC adds the MSISDN prefix 4 according to the value of this parameter. For example, when the value of this parameter is 123 and the mobile number to be matched is 456, the call matching is considered successful if the corresponding MSISDN is 123456.
NO
NO
SET BSCBASIC(Optional)
MSISDN prefix 5. When matching the call specified by the mobile number, the BSC adds the MSISDN prefix 5 according to the value of this parameter. For example, when the value of this parameter is 123 and the mobile number to be matched is 456, the call matching is considered successful if the corresponding MSISDN is 123456.
NO
NO
SET BSCBASIC(Optional)
Whether the BSC can send the SYSTEM INFORMATION TYPE 10 message on the VGCS/VBS TCH. A VGCS/VBS TCH is a channel that consists of the downlink and uplink and is allocated to a VGCS/VBS call. For detailed information of the SYSTEM INFORMATION TYPE 10 message, see the 3GPP TS 44.018 9.1.50. NO
NO
SET BSCBASIC(Optional)
This parameter specifies whether to enable the VGCS/VBS check function. If the BSS works abnormally, the BTS may periodically send notification messages even if VGCS/VBS is over. In this case, an MS responds continuously but cannot access this VGCS/VBS TCH. NO
NO
SET BSCBASIC(Optional)
Threshold of the time for crosstalk detection. Within the threshold, if the call flag continuously appearing in the code stream is different from the one saved in a transcoder (TC) or a BTS, the TC or the BTS considers that a crosstalk occurs and sends a message to the BSC. Upon receiving such a message, the BSC host board records in a log the information about the current call, including the information about the Abis interface, Ater interface, BTS, cell, TRX, channel, and TC. The crosstalk detection function helps locate the cause of a crosstalk. NO
NO
SET BSCBASIC(Optional)
Time unit for extracting the BTS net connection. The BSC is allowed to extract the BTS net connection only twice per unit time. Value 0 indicates that there is no restriction on the time of extracting the BTS net connection. Value 255 indicates that extracting the BTS net connection is not allowed. NO
NO
SET BSCBASIC(Optional)
This parameter specifies the cyclic redundancy check (CRC) switch, which can be set to On or Off. The value of this parameter determines whether check is performed on the TRAU frame between the BSC and the BTS. NO
NO
SET BSCBASIC(Optional)
Whether to support RAN Sharing.RAN sharing refers to the technique that the GBSS equipment is categorized into multiple logical GBSS equipment, thus operators can share the GBSS equipment to cover the same area. NO
NO
SET BSCBASIC(Optional)
Whether to support the TC pool function. The TC Pool feature is implemented by connecting the main processing subracks (MPSs) and extended processing subracks (EPSs) in multiple BSCs to the transcoder subracks (TCSs) of one BSC. In this manner, all the involved BSCs share the TC resources, and the shared TC resources form a TC Pool. The TC Pool feature is applicable to only the BSCs whose "Service mode " is set to SEPARATE. NO
NO
SET BSCBASIC(Mandatory)
Whether a BSC in the TC pool is the primary BSC
NO
YES
SET BSCBASIC(Mandatory)
ID of slave BSC in TC Pool.
NO
YES
SET BSCBASIC(Optional)
Transmission convergence mode of the remote TC subrack over the Ater interface. STANDALONETC: The remote TC subrack is a non-convergence subrack. MASTERINPOOLTC: The remote TC subrack is a control subrack for TC convergence. The Ater interface board on the control subrack is connected to the transmission devices and the control subrack allocates transmission resources to non-control subracks for TC convergence through semipermanent links. SLAVEINPOOLTC: The remote TC subrack is a non-control subrack for TC convergence. It is connected to the local subrack through the control TC subrack. NO
NO
SET BSCBASIC(Optional)
Standard priority for GSM CS(Circuit Switched) high-priority MSs. 15 is the highest priority.
NO
NO
SET BSCBASIC(Optional)
When this parameter is set to "ON", if there are no available Abis transmission resources, the BSC starts the queuing procedure for the services to wait for available transmission resources.
NO
NO
SET BSCBASIC(Optional)
When this parameter is set to "ON", if there are no available Abis transmission resources, a highpriority user can preempt the transmission resources of a low-priority user. If the preemption succeeds, a call drop occurs at the low-priority user. NO
NO
SET BSCBASIC(Mandatory)
If you enable the TC pool function when configuring the basic information of the BSC, you need to enter the TC Pool ID. The ID must be unique in the entire network. NO
YES
SET BSCBASIC(Mandatory)
Transport mode of the Ater interface. The Ater interface can be in TDM or in IP transport mode. NO
YES
SET BSCBASIC(Optional)
CSD(Circuit Switched Data) service redundancy level, which is configured to decrease the data loss rate during transmission in A over IP mode. NO
NO
SET BSCBASIC(Optional)
This parameter determines whether the CIC downlink one-way mute detection is enabled.
NO
NO
SET BSCBASIC(Optional)
This parameter indicates the proportion of oneway mute CICs in all available CICs over a port. NO This parameter indicates the period of completing a CIC downlink one-way mute detection of each port. NO
SET BSCBASIC(Optional)
The TC DSP compares neighboring speech frame samples after the CIC downlink one-way mute detection is enabled. When the number of times with different results exceeds the value of this parameter, it is regarded that no one-way mute event occurs for the current call. Otherwise, it is regarded that a one-way mute event occurs for the current call.
NO
NO
SET BSCBASIC(Optional)
If one-way mute frames occur for the duration greater than "CIC Downlink One-Way Mute Detection Duration", then it is regarded that a one-way mute event occurs for the current call.
NO
NO
SET BSCBASIC(Optional)
If the number of one-way mute events exceeds the value of "Speech Channel Alarm Threshold" within this period, then the BSC reports the Speech Channel alarm. NO
NO
SET BSCBASIC(Optional)
Cause of user access. Based on the access cause, the BSC reports an application event to the Vendor Network Probe (VNP).
NO
NO
SET BSCBASIC(Optional)
Whether the BSC reports application events to the Vendor Network Probe (VNP) in real time.
NO
NO
SET BSCBASIC(Optional)
Protocol Version of BSC which is replied to VNP after BSC received VNP Logging-In request. NO
NO
SET BSCBASIC(Optional)
NO
NO
SET BSCBASIC(Optional)
Application Version of BSC which is replied to VNP after BSC received VNP Logging-In request.
NO
NO
SET BSCDSTPA(Optional)
This parameter specifies whether to enable the TRX Intelligent Shutdown feature.
NO
NO
SET BSCDSTPA(Optional)
This parameter specifies the start time for dynamically enabling the TRX Intelligent Shutdown feature each day.
NO
NO
SET BSCDSTPA(Optional)
This parameter specifies the time for dynamically disabling the TRX Intelligent Shutdown feature each day. NO
NO
SET BSCDSTPA(Optional)
This parameter is set to prevent the BSC from frequently enabling or disabling the TRX. After a TRX is powered on, the BSC is not allowed to disable the TRX within the period of time specified by this parameter. NO
NO
SET BSCDSTPA(Optional)
This parameter specifies whether to allow the BTS to enable the TRX Intelligent Shutdown on Timeslot Level feature. When this parameter is set to YES and the BTS supports this feature, the BTS will periodically report the number of times that the TRX is shut down on the timeslot level.
NO
NO
SET BSCDSTPA(Optional)
Number of reserved idle channels. If this parameter is set too small, the TRX may be frequently enabled/disabled; if this parameter is set too large, idle TRX will not be timely closed.
NO
NO
ADD BSCDSTPADATE(Mandatory ) RMV Unique number of the date range during which to BSCDSTPADATE(Mandatory disable the BSC from shutting down the TRX ) dynamically YES
YES
ADD This parameter specifies the start month of a BSCDSTPADATE(Mandatory period during which the TRX Intelligent ) Shutdown feature is disabled.
YES
NO
ADD This parameter specifies the start date of a BSCDSTPADATE(Mandatory period during which the TRX Intelligent ) Shutdown feature is disabled.
NO
YES
ADD This parameter specifies the end month of a BSCDSTPADATE(Mandatory period during which the TRX Intelligent ) Shutdown feature is disabled.
NO
YES
ADD This parameter specifies the end date of a BSCDSTPADATE(Mandatory period during which the TRX Intelligent ) Shutdown feature is disabled.
NO
YES
Whether to preferentially use the variable bitmap code when encoding the frequency in the System Information and encoding the FH frequency in the assignment or handover SET BSCFCPARA(Optional) command NO
NO
This parameter indicates whether the arrival of SET BSCFCPARA(Optional) paging messages is controlled.
NO
NO
Measurement period for calculating the arrival SET BSCFCPARA(Optional) rate of paging messages
NO
NO
Maximum number of paging messages that the BSC can process over the A interface within a SET BSCFCPARA(Optional) measurement period
NO
NO
Maximum number of PS paging messages that the BSC can process within a "Paging Statistical SET BSCFCPARA(Optional) Period". NO
NO
This parameter indicates whether the arrival of SET BSCFCPARA(Optional) channel request messages is controlled.
NO
NO
Statistic period of the arrival rate of channel request messages. Within the preset value of this parameter, the BSC counts the number of channel request messages. Once the current total number of times exceeds the value of the allowable number of channel request messages of CPU0 within the statistic period, the BSC begins to discard subsequent channel request messages until the current time reaches a new SET BSCFCPARA(Optional) "CHAN REQ Statistical Period". NO Maximum number of allowable CS domain channel request messages within the value of SET BSCFCPARA(Optional) "CHAN REQ Statistical Period" NO Average number of allowable PS domain channel request messages within the value of SET BSCFCPARA(Optional) "CHAN REQ Statistical Period" NO
NO
NO
NO
Whether to support the paging message classification function: 0,close; 1,paging message classification flow control; SET BSCFCPARA(Optional) 2,re-paging flow control.
NO
NO
This parameter indicates whether the arrival of SET BSCFCPARA(Optional) PS resource request messages is controlled.
NO
NO
Statistical period for the arrival of PS resource SET BSCFCPARA(Optional) requests
NO
NO
Maximum number of messages in the statistical SET BSCFCPARA(Optional) period for the arrival of PS resource requests NO Usage threshold of the CPU for call access from other CPU. If the usage of the CPU exceeds the SET BSCFCPARA(Optional) threshold, the call access request is discarded. NO
NO
NO
Usage threshold of the CPU for calling access. If the usage of the CPU exceeds the threshold, the calling access request is transferred to other SET BSCFCPARA(Optional) CPU for processing. NO
NO
Usage threshold of the CPU for called access. If the usage of the CPU exceeds the threshold, the called access request is transferred to other SET BSCFCPARA(Optional) CPU for processing. NO
NO
Whether to enable the A interface flow control SET BSCFCPARA(Optional) mechanism in the BSC
NO
NO
NO
NO
NO
NO
NO
NO
NO
NO
Whether to allow flow control for the other services including emergency call, call reestablish, and LMU services during the A SET BSCFCPARA(Optional) interface flow control
NO
NO
Rate of discarded services in level 1 of the A SET BSCFCPARA(Optional) interface flow control
NO
NO
Rate of discarded services in level 2 of the A SET BSCFCPARA(Optional) interface flow control
NO
NO
Rate of discarded services in level 3 of the A SET BSCFCPARA(Optional) interface flow control
NO
NO
Rate of discarded services in level 4 of the A SET BSCFCPARA(Optional) interface flow control
NO
NO
Rate of discarded services in level 5 of the A SET BSCFCPARA(Optional) interface flow control
NO
NO
Rate of discarded services in level 6 of the A SET BSCFCPARA(Optional) interface flow control
NO
NO
SET BSCFCPARA(Optional)
SET BSCFCPARA(Optional)
SET BSCFCPARA(Optional)
SET BSCFCPARA(Optional)
Flow control method used by the BSC. Flow control method at the Abis interface: When receiving a channel request message, the BSC begins flow control on the call according to the flow control level of the A interface. Flow control method at the A interface: When establishing an SCCP connection, the BSC begins flow control according to the flow control level of the A interface and releases part of the call. whether to allow flow control for the mobileoriginated services during the A interface flow control Whether to allow flow control for the mobileterminated services during the A interface flow control Whether to allow flow control for the location update services during the A interface flow control
Threshold for critical flow control. When the usage of the CPU exceeds the threshold, the CPUS performs critical flow control for paging SET BSCFCPARA(Optional) messages.
NO
NO
Threshold for major flow control. When the usage of the CPU exceeds the threshold, the CPUS performs major flow control for paging SET BSCFCPARA(Optional) messages.
NO
NO
Threshold for minor flow control. When the usage of the CPU exceeds the threshold, the CPUS performs minor flow control for paging SET BSCFCPARA(Optional) messages.
NO
NO
Threshold for slight flow control. When the usage of the CPU exceeds the threshold, the CPUS performs slight flow control for paging SET BSCFCPARA(Optional) messages.
NO
NO
This parameter specifies whether to support flow control based on priority. When this parameter is set to on, the system preferentially admits the SET BSCFCPARA(Optional) calls initiated by VIP users. NO
NO
This parameter specifies the usage threshold of the CPU for VIP user calls that are transferred from other CPUs. When the usage of a CPU is greater than this threshold, the VIP service requests transferred from other CPUs are SET BSCFCPARA(Optional) directly discarded. NO
NO
This parameter specifies the usage threshold of the CPU for VIP user calls that can be admitted. When the usage of a CPU is greater than this threshold, the new service requests from VIP users are transferred to another CPU for processing. When the usage of all CPUs is greater than this threshold, all new service SET BSCFCPARA(Optional) requests are rejected. NO
NO
This parameter specifies the eMLPP priority value corresponding to the VIP call. When the eMLPP(Enhanced Multi-Level Precedence and Pre-emption service) priority value of a user is greater than or equal to the value of this SET BSCFCPARA(Optional) parameter, the user is a VIP user.
NO
NO
Whether to start flow control on the A interface SET BSCFCPARA(Optional) where signaling congestion occurs.
NO
NO
Threshold of the CPU usage on the A interface board. When the CPU usage on the A interface board exceeds this threshold and the MTP2 links on the interface board are congested, the MTP3 SET BSCFCPARA(Optional) entity performs flow control on MTP2 links. NO
NO
Measurement period of the arrival rate of signaling messages on the A interface. The arrival rate is the proportion of Connection Confirm (CC) messages to Connection Request (CR) messages. When the measurement period ends, the BSC refreshes the signaling SET BSCFCPARA(Optional) congestion level on the A interface. NO
NO
Threshold of the arrival rate of signaling messages on the A interface. The arrival rate is the proportion of Connection Confirm (CC) messages to Connection Request (CR) messages. This parameter is used to calculate the signaling congestion level on the A interface. Within "Measurement Period of A Interface Signaling Arrival Rate", the signaling congestion level on the A interface increases by one if the following conditions are met: The signaling arrival rate (CC/CR) is lower than "A Interface Signaling Arrival Rate Threshold"; the number of CRs is greater than "Threshold of A Interface Connection Requests"; the SCCP congestion level is higher than or equal to "SCCP Congestion Level Threshold". If the preceding conditions are not met, the signaling congestion SET BSCFCPARA(Optional) level on the A interface decreases by one. NO
NO
Threshold of the SCCP congestion level. This parameter is used to calculate the signaling congestion level on the A interface. Within "Measurement Period of A Interface Signaling Arrival Rate", the signaling congestion level on the A interface increases by one if the following conditions are met: The signaling arrival rate (CC/CR) is lower than "A Interface Signaling Arrival Rate Threshold (%)"; the number of CRs is greater than "Threshold of A Interface Connection Requests"; the SCCP congestion level is higher than or equal to "SCCP Congestion Level Threshold". If the preceding conditions are not met, the signaling congestion SET BSCFCPARA(Optional) level on the A interface decreases by one. NO
NO
This parameter specifies the lowest proportion of discarded messages. When signaling congestion occurs over the A interface, a certain proportion of uplink connection request messages over the A interface are discarded. The proportion of discarded messages over the A interface increases with the level of flow control in a linear manner and with the same SET BSCFCPARA(Optional) step. NO
NO
Number of connection requests that the BSC sends to the MSC over the A interface. Within "Measurement Period of A Interface Signaling Arrival Rate", if the number of connection requests actually arriving at the A interface is smaller than the value of this parameter, flow SET BSCFCPARA(Optional) control is not performed on the A interface.
NO
NO
Maximum number of messages that the MTP3 entity sends to a single MTP2 link per second. At any MTP2 flow control level, the speed at which the messages sent by the MTP3 entity must not exceed the value of this parameter. This parameter is used to restrict the number of the messages sent to the MSC. This parameter can be set according to the processing capability of SET BSCFCPARA(Optional) the MSC. NO
NO
Maximum number of messages that the MTP3 entity of the POUc sends to a single MTP2 link per second. At any MTP2 flow control level, the speed at which the messages sent by the MTP3 entity must not exceed the value of this parameter. This parameter is used to restrict the number of the messages sent to the MSC. This parameter can be set according to the SET BSCFCPARA(Optional) processing capability of the MSC. NO
NO
SET BSCJBF(Optional)
Number of consecutive packets exceeding JitterBuffer. If the number of consecutive lost packets exceeds the value of this parameter, JitterBuffer is adjusted to adapt to the transmission link, thus reducing packet loss.
NO
SET BSCJBF(Optional)
Rate of packet loss exceeding JitterBuffer. If the rate of packet loss exceeds the value of this parameter, JitterBuffer is adjusted to adapt to the transmission link, thus reducing packet loss. NO Minimum interval of JitterBuffer adjustment in second. This parameter is used to avoid frequency JitterBuffer adjustments. NO Maximum interval of JitterBuffer adjustment in second. This parameter is used to avoid the condition that JitterBuffer is not adjusted in time. NO
SET BSCJBF(Optional)
Initial value of the JitterBuffer receiving window.
SET BSCJBF(Optional)
SET BSCJBF(Optional)
NO
NO
NO
NO
NO
NO
Retry times after the timer for the reply from the peer expires during the NSVC live test. If the reply is not received after the system resends the message according to retry times, the NSVC SET BSCNSPARA(Optional) is regarded as faulty. NO
NO
Duration of the timer to wait for the reply from SET BSCNSPARA(Optional) the peer during the NSVC live test
NO
NO
Retry times after the peer response timer expires SET BSCNSPARA(Optional) during NSVC blocking NO
NO
Duration of the peer response timer during SET BSCNSPARA(Optional) NSVC blocking
NO
NO
Retry times after the peer response timer expires SET BSCNSPARA(Optional) during NSVC reset NO
NO
Duration of the peer response timer during SET BSCNSPARA(Optional) NSVC reset
NO
NO
Duration of the timer for starting the IP path SET BSCNSPARA(Optional) status test on the Gb interface
NO
NO
Retry times after the peer response timer expires SET BSCNSPARA(Optional) during NSVC unblocking NO
NO
SET BSCPCUTYPE(Mandatory)
YES
Type of the PCU
NO
Switch specifying whether to allow the downlink EGPRS TBF and the uplink GPRS TBF to share the same channel. On: allow the downlink EGPRS TBF and the uplink GPRS TBF to share the same channel; Off: prohibit the downlink SET EGPRS TBF and the uplink GPRS TBF sharing BSCPSSOFTPARA(Optional) the same channel. NO
NO
Whether to support the high multislot class. High multislot class function enables a single MS to be allocated with a maximum of five timeslots on the uplink or downlink, thus improving the uplink or downlink throughput of a single MS. The BSS supports the MS with high multislot classes from 30 to 34. A maximum of five timeslots on the downlink can be assigned to an MS. If an MS is of the high multislot class 34, a maximum of five timeslots on the uplink can be allocated to the MS. Thus, the uplink and downlink throughput is increased by 25%.The total number of timeslots on the uplink and downlink cannot exceed six. That is, if five timeslots on the downlink are SET allocated to the MS, then only one timeslot on BSCPSSOFTPARA(Optional) the uplink can be allocated to the MS. NO
NO
SET BSCPSSOFTPARA(Optional) Whether to support USF granularity 4
NO
NO
Whether to support EDA. Extended dynamic allocation (EDA) enables the MS to be allocated with more timeslots on the uplink, thus improving SET the uplink rate and helping to transmit large BSCPSSOFTPARA(Optional) amounts of data on the uplink. NO
NO
Whether to allow EDA multiplex. "Not Allow": the TBF of the EDA cannot be multiplexed with other SET TBF; "Allow": the TBF of the EDA can be BSCPSSOFTPARA(Optional) multiplexed with other TBF. NO
NO
Whether to involve the load of the target cell in the algorithm for NC2 cell reselection. If this parameter is set to Support, the load of the SET target cell is involved in the algorithm for NC2 BSCPSSOFTPARA(Optional) cell reselection.
NO
NO
Intervals that the BSC broadcasts a cell's traffic load to its neighbor cells. The uplink load and downlink load indicate the traffic situation of a cell. The uplink load = number of uplink TBFs carried on all PDCHs in a cell / total number of PDCHs in a cell x ("PDCH Uplink Multiplex Threshold"/10) x 100%. The downlink load = number of downlink TBFs carried on all PDCHs in a cell / total number of PDCHs in a cell x SET ("PDCH Downlink Multiplex Threshold"/10) x BSCPSSOFTPARA(Optional) 100%.
NO
NO
Congestion threshold of the TBF buffer queue. If the congestion level in the TBF buffer queue exceeds this threshold, whether the packets are SET discarded actively is determined according to the BSCPSSOFTPARA(Optional) packet discarding policy. NO
NO
SET BSCPSSOFTPARA(Optional) Target threshold of the TBF buffer queue
NO
NO
Upper length threshold of the TBF buffer queue. If the length of the TBF buffer queue exceeds this threshold, whether the packets are SET discarded is determined according to the packet BSCPSSOFTPARA(Optional) discarding policy. NO
NO
SET BSCPSSOFTPARA(Optional) AQM switch
NO
NO
Initial value of the interval (indicated by N) at which the packets in the TBF buffer queue are discarded. The value N indicates the frequency of discarding the packets in the TBF buffer queue. The greater the value N, the lower the frequency of discarding packets, and the smaller the number of discarded packets within a certain SET period. The smaller the value N, the greater the BSCPSSOFTPARA(Optional) number of discarded packets. NO
NO
Lower threshold of the interval for discarding the SET packets in the TBF buffer queue, that is, the BSCPSSOFTPARA(Optional) minimum value of N (packet drop interval). NO
NO
Upper threshold of the interval for discarding the SET packets in the TBF buffer queue, that is, the BSCPSSOFTPARA(Optional) maximum value of N (packet drop interval). NO
NO
Update frequency of the value N (packet drop SET interval), indicating that the packet drop interval BSCPSSOFTPARA(Optional) is updated after N packets are transmitted.
NO
NO
Whether the downlink TBF can be established in advance. Downlink TBF establishment in advance indicates that the downlink TBF is established immediately after the MS establishes the uplink TBF rather than establishing the SET downlink TBF after the SGSN sends the data BSCPSSOFTPARA(Optional) block. NO
NO
SET Number of downlink GRPS TBF RLC blocks BSCPSSOFTPARA(Optional) sent before RRBP field is sent
NO
NO
SET Number of uplink GRPS TBF RLC blocks sent BSCPSSOFTPARA(Optional) before an acknowledgement is required
NO
NO
SET Number of downlink GRPS TBF RLC blocks BSCPSSOFTPARA(Optional) sent before RRBP field is sent
NO
NO
SET Period of acknowledging the EGPRS TBF RLC BSCPSSOFTPARA(Optional) uplink data block
NO
NO
SET Number of attempts to re-establish the downlink BSCPSSOFTPARA(Optional) TBF NO
NO
SET Maximum number of attempts to resend the BSCPSSOFTPARA(Optional) downlink assignment messages
NO
NO
SET Maximum number of attempts to resend the BSCPSSOFTPARA(Optional) polling messages
NO
NO
SET Whether the forced phase-2 access is allowed BSCPSSOFTPARA(Optional) for the MSs
NO
NO
SET BSCPSSOFTPARA(Optional) Period of collecting the traffic statistics
NO
NO
Threshold for determining whether the uplink service is preferred. Within the "Flux Measurement Period", if the ratio of the uplink LLC PDU flux and downlink LLC PDU flux is SET higher than the threshold, the service type of the BSCPSSOFTPARA(Optional) MS is uplink preferred. NO
NO
Threshold for determining whether the uplink service is preferred. Within the "Flux Measurement Period", if the ratio of the downlink LLC PDU flux and uplink LLC PDU flux is higher SET than the threshold, the service type of the MS is BSCPSSOFTPARA(Optional) uplink preferred. NO
NO
Minimum interval between the successful TBF SET establishment and the first initiation of the BSCPSSOFTPARA(Optional) Packet Timeslot Reconfiguration procedure
NO
NO
Whether the function of Network Assisted Cell Change (NACC) resource guarantee is allowed. In NC2 or NACC cell reselection, if this SET parameter is set to YES, dynamic channels are BSCPSSOFTPARA(Optional) requested in the target cell. NO
NO
SET Interval for releasing the secondary links in the BSCPSSOFTPARA(Optional) congestion state
NO
NO
SET Secondary link bandwidth that is released each BSCPSSOFTPARA(Optional) time in the congestion state
NO
NO
Interval for requesting the bandwidth for the SET secondary link when the system is not in BSCPSSOFTPARA(Optional) congestion state
NO
NO
Bandwidth requested each time for the SET secondary link when the system is not in BSCPSSOFTPARA(Optional) congestion state
NO
NO
Whether to enable fast flux detection. When this SET parameter is set to Open, fast timeslot BSCPSSOFTPARA(Optional) adjustment is possible after the TBF is set up. NO
NO
Fast flux measurement period. The ratio of the uplink flux to the downlink flux is calculated at SET the interval specified by this parameter to BSCPSSOFTPARA(Optional) determine the current service priority type.
NO
NO
Fast flux measurement duration. Normal flux measurement is performed after the fast flux SET measurement lasts over the period specified by BSCPSSOFTPARA(Optional) this parameter.
NO
NO
If the ratio of downlink flux to uplink flux is greater than or equal to the threshold during the SET fast flux measurement, the downlink services BSCPSSOFTPARA(Optional) takes priority. NO
If the ratio of uplink flux to downlink flux is greater than or equal to the threshold during the SET fast flux measurement, the uplink services takes BSCPSSOFTPARA(Optional) priority. NO SET BSCPSTCDSCPMAP(Option al) DSCP corresponding to the signaling NO SET BSCPSTCDSCPMAP(Option al) DSCP corresponding to the session service NO SET BSCPSTCDSCPMAP(Option al) DSCP corresponding to the streaming service NO SET BSCPSTCDSCPMAP(Option DSCP corresponding to the interaction service al) with the THP level of PRIORITY1 NO SET BSCPSTCDSCPMAP(Option DSCP corresponding to the interaction service al) with the THP level of PRIORITY2 NO
NO
NO
NO
NO
NO
NO
NO
SET BSCPSTCDSCPMAP(Option DSCP corresponding to the interaction service al) with the THP level of PRIORITY3 NO SET BSCPSTCDSCPMAP(Option al) DSCP corresponding to the background service NO
NO
NO
SET BSCSYNCOFF(Mandatory)
Unique identifier of the Um interface software synchronization task.
NO
YES
SET BSCSYNCOFF(Mandatory)
Index type.
NO
YES
SET BSCSYNCOFF(Mandatory)
Index of the BTS, uniquely identifying a BTS in a BSC. NO
YES
Name of the BTS, uniquely identifying a BTS in a BSC. This parameter cannot contain the following invalid characters: ,;="'
SET BSCSYNCOFF(Mandatory)
In addition, cell names cannot contain two or more consecutive %, two or more consecutive spaces, or more than two consecutive +.
NO
YES
SET BSCSYNCOFF(Mandatory)
Whether to adjust the BTS offset manually or automatically.
NO
YES
SET BSCSYNCOFF(Mandatory)
Frame offset of the BTS clock.
NO
YES
SET BSCSYNCOFF(Mandatory)
Bit offset in the frame of the BTS clock.
NO
YES
SET BSCTMR(Optional)
Duration of no cell broadcast message at the Cb interface. If the BSC does not receive any message from the CBC during the preset value of this parameter, the BSC considers that the connection with the CBC has been broken and reestablishes a connection. NO
NO
SET BSCTMR(Optional)
Timer interval for sending handshake messages. According to the value of this parameter, the BSC regularly sends the CBC a handshake message to decide whether the communication between the BSC and the CBC is normal. NO
NO
SET BSCTMR(Optional)
Timer for waiting for a single A-interface circuit blocking or unblocking answer. The BSC starts this T1 timer after sending a single A-interface circuit blocking or unblocking message. If the BSC does not receive a blocking or unblocking answer from the MSC before this timer expires for the first time, the BSC resends the single A-interface circuit blocking or unblocking message to the MSC. If the timer expires for the second time, the BSC reports an alarm for BSC circuit blocking or unblocking failure. NO
NO
SET BSCTMR(Optional)
Timer for waiting for an A-interface circuit reset answer. The BSC starts this timer after sending an Ainterface circuit reset message. When this timer expires for the first time, the BSC resends the circuit reset message to the MSC. If this timer expires for the second time, the BSC reports an alarm for BSC circuit resetting failure. NO
NO
SET BSCTMR(Optional)
Timer for waiting for an A-interface circuit group blocking or unblocking answer. After sending a CIC group blocking/unblocking message over the A interface, the BSC starts the timer T20. If the BSC fails to receive a response from the MSC before the first expiry of T20, the BSC resends the CIC group blocking/unblocking message. If no response is received before the second expiry of T20, the system reports the BSC Unable to Block Group Circuits or BSC Unable to Unblock Group Circuits alarm. NO
NO
SET BSCTMR(Optional)
Used along with "Abis Flow Control Timer 2" to control the change in cell flow control levels.When the flow control level in the cell changes, the values of MS MAX Retrans and Txinteger in the system information are changed accordingly. When immediate assignment fails, the BSC starts T1 and T2. NO
NO
SET BSCTMR(Optional)
Used along with "Abis Flow Control Timer 1" to control the change in cell flow control levels.When the flow control level in the cell changes, the values of MS MAX Retrans and Txinteger in the system information are changed accordingly. When immediate assignment fails, the BSC starts T1 and T2. NO
NO
SET BSCTMR(Optional)
Duration of the flow control protection timer enabled during the flow control between the TCS and the MPS/EPS subracks NO
NO
SET BSCTMR(Optional)
This parameter specifies the timer set to wait for a private message from the SGSN. NO
NO
SET BSCTMR(Optional)
Timer of the RESET IP RESOURCE procedure. After the BSC sends a RESET IP RESOURCE message, this timer starts. When the timer expires before the BSC receives a response message from the MSC, the BSC sends the RESET IP RESOURCE message again. NO
NO
Duration of BVC flow control timer F. A cell sends the flow control message at the interval SET BSSGPPARA(Optional) specified by this timer.
NO
NO
Duration of the flow control timer F of the MS. The MS sends the flow control message SET BSSGPPARA(Optional) according to this duration.
NO
NO
Timer T1, specifying the duration of monitoring SET BSSGPPARA(Optional) the BVC blocking (unblocking) procedure.
NO
NO
Timer T2, specifying the duration of monitoring the procedure of resetting SIG BVC and PTP SET BSSGPPARA(Optional) BVC.
NO
NO
Timer T3. T3 is started after the message SUSPEND is received on the BSC side. T3 is stopped after the message SUSPEND ACK is SET BSSGPPARA(Optional) received.
NO
NO
Timer T4. T3 is started after the message v is received on the BSC side. T4 is stopped after SET BSSGPPARA(Optional) the message RESUME ACK is received.
NO
NO
Timer T5. When the downlink TBF is set up, if the BSC side does not receive the valid RACAP, the BSC originates the radio access capability update flow and the timer T5 is started. After receiving the core network response, the timer is SET BSSGPPARA(Optional) stopped. NO
NO
Timer T6. The BSC sends the SGSN request to download the BSS PFC. When the QoS parameter is obtained, the timer is started. After the message CREATE_BSS_PFC is received, the timer is stopped. After the timer expires, the request is sent to start the procedure of SET BSSGPPARA(Optional) downloading the BSS PFC. NO
NO
Timer T8. The BSC sends the SGSN request to download the BSS PFC. When the QoS parameter is obtained, the timer is started. After the message MODIFY_BSS_PFC_ACK is received, the timer is stopped. After the timer expires, the request is sent to start the SET BSSGPPARA(Optional) procedure of downloading the BSS PFC. NO
NO
Timer Tc, specifying the interval for the BVC and MS to send flow control messages. When this parameter is set to a smaller value, the BVC and the MS send flow control messages in a shorter time, which allows the SGSN can use the latest flow control parameter to improve the transmission performance. When the BVC and MS send flow control messages, certain bandwidth is required. If this parameter is set to a too small value, the transmission performance is reduced. If this parameter is set to a greater value, the real time flow control mechanism of the Gb interface cannot handle the current situation properly. This can reduce the transmission performance and provide more SET BSSGPPARA(Optional) bandwidth. NO
NO
Timer Th. After receiving the MS flow control message, the SGSN uses the values of the updated Bmax and R based on the interval set by this timer. When this parameter is set to a smaller value, the SGSN can use the flow control parameter in a shorter time. In this way, the data can be transferred according to the most suitable flow control parameters, which can improve the transmission performance. When this parameter is set to a greater value, the SGSN uses the flow control parameter in a SET BSSGPPARA(Optional) longer time. NO
NO
SET BSSLS(Optional)
General strategy of the BSS local switching, which includes the BSC local switching and the BTS local switching. The two functions cannot be enabled at the same time.
NO
NO
SET BSSLS(Optional)
Conditions for enabling the function of BTS local switching. UNCONDITIONALSTART: The function of BTS local switching is enabled without restriction. ABISCONGESTS: The function of BTS local switching is enabled when the congestion rate of the Abis interface exceeds the value of "Abis Cong Thres for BTS LocalSwitch". PREFIXNUMBER: The function of BTS local switching is enabled when the leading digits of the calling or called MSISDN are the preset value of "Prefix Number for BTS (1-10)". NO
NO
SET BSSLS(Optional)
Conditions for enabling the function of BSC local switching. UNCONDITIONALSTART: The function of BSC local switching is enabled without restriction. ATERCONGESTS: The function of BSC local switching is enabled when the congestion rate of the Ater interface exceeds the value of "Ater Cong Thres for BSC LocalSwitch". PREFIXNUMBER: The function of BSC local switching is enabled when the leading digits of the calling or called MSISDN are the preset value of "Prefix Number for BSC (1-10)". NO
NO
SET BSSLS(Optional)
Threshold for enabling the BTS local switching. When the congestion rate at the Abis interface exceeds this threshold, the BTS local switching is enabled.
NO
NO
SET BSSLS(Optional)
Threshold for enabling the BSC local switching. When the congestion rate at the Ater interface exceeds this threshold, the function is enabled.
NO
NO
SET BSSLS(Optional)
If "Options for BSC Local Switch" is set to PREFIXNUMBER, and the first digits in the MSISDN of the called or calling are the same as the value of this parameter, the BSC local switching function is enabled. For example, if two numbers 135 and 139 are set in the list, and the first three digits in the MSISDN of the called or calling are 135 or 139, the BSC local switching function is enabled. NO
NO
SET BSSLS(Optional)
If "Options for BSC Local Switch" is set to PREFIXNUMBER, and the first digits in the MSISDN of the called or calling are the same as the value of this parameter, the BSC local switching function is enabled. For example, if two numbers 135 and 139 are set in the list, and the first three digits in the MSISDN of the called or calling are 135 or 139, the BSC local switching function is enabled. NO
NO
SET BSSLS(Optional)
If "Options for BSC Local Switch" is set to PREFIXNUMBER, and the first digits in the MSISDN of the called or calling are the same as the value of this parameter, the BSC local switching function is enabled. For example, if two numbers 135 and 139 are set in the list, and the first three digits in the MSISDN of the called or calling are 135 or 139, the BSC local switching function is enabled. NO
NO
SET BSSLS(Optional)
If "Options for BSC Local Switch" is set to PREFIXNUMBER, and the first digits in the MSISDN of the called or calling are the same as the value of this parameter, the BSC local switching function is enabled. For example, if two numbers 135 and 139 are set in the list, and the first three digits in the MSISDN of the called or calling are 135 or 139, the BSC local switching function is enabled. NO
NO
SET BSSLS(Optional)
If "Options for BSC Local Switch" is set to PREFIXNUMBER, and the first digits in the MSISDN of the called or calling are the same as the value of this parameter, the BSC local switching function is enabled. For example, if two numbers 135 and 139 are set in the list, and the first three digits in the MSISDN of the called or calling are 135 or 139, the BSC local switching function is enabled. NO
NO
SET BSSLS(Optional)
If "Options for BSC Local Switch" is set to PREFIXNUMBER, and the first digits in the MSISDN of the called or calling are the same as the value of this parameter, the BSC local switching function is enabled. For example, if two numbers 135 and 139 are set in the list, and the first three digits in the MSISDN of the called or calling are 135 or 139, the BSC local switching function is enabled. NO
NO
SET BSSLS(Optional)
If "Options for BSC Local Switch" is set to PREFIXNUMBER, and the first digits in the MSISDN of the called or calling are the same as the value of this parameter, the BSC local switching function is enabled. For example, if two numbers 135 and 139 are set in the list, and the first three digits in the MSISDN of the called or calling are 135 or 139, the BSC local switching function is enabled. NO
NO
SET BSSLS(Optional)
If "Options for BSC Local Switch" is set to PREFIXNUMBER, and the first digits in the MSISDN of the called or calling are the same as the value of this parameter, the BSC local switching function is enabled. For example, if two numbers 135 and 139 are set in the list, and the first three digits in the MSISDN of the called or calling are 135 or 139, the BSC local switching function is enabled. NO
NO
SET BSSLS(Optional)
If "Options for BSC Local Switch" is set to PREFIXNUMBER, and the first digits in the MSISDN of the called or calling are the same as the value of this parameter, the BSC local switching function is enabled. For example, if two numbers 135 and 139 are set in the list, and the first three digits in the MSISDN of the called or calling are 135 or 139, the BSC local switching function is enabled. NO
NO
SET BSSLS(Optional)
If "Options for BSC Local Switch" is set to PREFIXNUMBER, and the first digits in the MSISDN of the called or calling are the same as the value of this parameter, the BSC local switching function is enabled. For example, if two numbers 135 and 139 are set in the list, and the first three digits in the MSISDN of the called or calling are 135 or 139, the BSC local switching function is enabled. NO
NO
SET BSSLS(Optional)
If the first digits in the MSISDN of the called or calling are the same as the value of this parameter, the BTS local switching function is disabled.
NO
NO
SET BSSLS(Optional)
If the first digits in the MSISDN of the called or calling are the same as the value of this parameter, the BTS local switching function is disabled.
NO
NO
SET BSSLS(Optional)
If the first digits in the MSISDN of the called or calling are the same as the value of this parameter, the BTS local switching function is disabled.
NO
NO
SET BSSLS(Optional)
If the first digits in the MSISDN of the called or calling are the same as the value of this parameter, the BTS local switching function is disabled.
NO
NO
SET BSSLS(Optional)
If the first digits in the MSISDN of the called or calling are the same as the value of this parameter, the BTS local switching function is disabled.
NO
NO
SET BSSLS(Optional)
If the first digits in the MSISDN of the called or calling are the same as the value of this parameter, the BTS local switching function is disabled.
NO
NO
SET BSSLS(Optional)
If the first digits in the MSISDN of the called or calling are the same as the value of this parameter, the BTS local switching function is disabled.
NO
NO
SET BSSLS(Optional)
If the first digits in the MSISDN of the called or calling are the same as the value of this parameter, the BTS local switching function is disabled.
NO
NO
SET BSSLS(Optional)
If the first digits in the MSISDN of the called or calling are the same as the value of this parameter, the BTS local switching function is disabled.
NO
NO
SET BSSLS(Optional)
If the first digits in the MSISDN of the called or calling are the same as the value of this parameter, the BTS local switching function is disabled.
NO
NO
SET BSSLS(Optional)
If "Options for BSC Local Switch" is set to PREFIXNUMBER, and the first digits in the MSISDN of the called or calling are the same as the value of this parameter, the BSC local switching function is enabled. For example, if two numbers 135 and 139 are set in the list, and the first three digits in the MSISDN of the called or calling are 135 or 139, the BSC local switching function is enabled. NO
NO
SET BSSLS(Optional)
If "Options for BSC Local Switch" is set to PREFIXNUMBER, and the first digits in the MSISDN of the called or calling are the same as the value of this parameter, the BSC local switching function is enabled. For example, if two numbers 135 and 139 are set in the list, and the first three digits in the MSISDN of the called or calling are 135 or 139, the BSC local switching function is enabled. NO
NO
SET BSSLS(Optional)
If "Options for BSC Local Switch" is set to PREFIXNUMBER, and the first digits in the MSISDN of the called or calling are the same as the value of this parameter, the BSC local switching function is enabled. For example, if two numbers 135 and 139 are set in the list, and the first three digits in the MSISDN of the called or calling are 135 or 139, the BSC local switching function is enabled. NO
NO
SET BSSLS(Optional)
If "Options for BSC Local Switch" is set to PREFIXNUMBER, and the first digits in the MSISDN of the called or calling are the same as the value of this parameter, the BSC local switching function is enabled. For example, if two numbers 135 and 139 are set in the list, and the first three digits in the MSISDN of the called or calling are 135 or 139, the BSC local switching function is enabled. NO
NO
SET BSSLS(Optional)
If "Options for BSC Local Switch" is set to PREFIXNUMBER, and the first digits in the MSISDN of the called or calling are the same as the value of this parameter, the BSC local switching function is enabled. For example, if two numbers 135 and 139 are set in the list, and the first three digits in the MSISDN of the called or calling are 135 or 139, the BSC local switching function is enabled. NO
NO
SET BSSLS(Optional)
If "Options for BSC Local Switch" is set to PREFIXNUMBER, and the first digits in the MSISDN of the called or calling are the same as the value of this parameter, the BSC local switching function is enabled. For example, if two numbers 135 and 139 are set in the list, and the first three digits in the MSISDN of the called or calling are 135 or 139, the BSC local switching function is enabled. NO
NO
SET BSSLS(Optional)
If "Options for BSC Local Switch" is set to PREFIXNUMBER, and the first digits in the MSISDN of the called or calling are the same as the value of this parameter, the BSC local switching function is enabled. For example, if two numbers 135 and 139 are set in the list, and the first three digits in the MSISDN of the called or calling are 135 or 139, the BSC local switching function is enabled. NO
NO
SET BSSLS(Optional)
If "Options for BSC Local Switch" is set to PREFIXNUMBER, and the first digits in the MSISDN of the called or calling are the same as the value of this parameter, the BSC local switching function is enabled. For example, if two numbers 135 and 139 are set in the list, and the first three digits in the MSISDN of the called or calling are 135 or 139, the BSC local switching function is enabled. NO
NO
SET BSSLS(Optional)
If "Options for BSC Local Switch" is set to PREFIXNUMBER, and the first digits in the MSISDN of the called or calling are the same as the value of this parameter, the BSC local switching function is enabled. For example, if two numbers 135 and 139 are set in the list, and the first three digits in the MSISDN of the called or calling are 135 or 139, the BSC local switching function is enabled. NO
NO
SET BSSLS(Optional)
If "Options for BSC Local Switch" is set to PREFIXNUMBER, and the first digits in the MSISDN of the called or calling are the same as the value of this parameter, the BSC local switching function is enabled. For example, if two numbers 135 and 139 are set in the list, and the first three digits in the MSISDN of the called or calling are 135 or 139, the BSC local switching function is enabled. NO
NO
SET BSSLS(Optional)
If the first digits in the MSISDN of the called or calling are the same as the value of this parameter, the BSC local switching function is disabled.
NO
NO
SET BSSLS(Optional)
If the first digits in the MSISDN of the called or calling are the same as the value of this parameter, the BSC local switching function is disabled.
NO
NO
SET BSSLS(Optional)
If the first digits in the MSISDN of the called or calling are the same as the value of this parameter, the BSC local switching function is disabled.
NO
NO
SET BSSLS(Optional)
If the first digits in the MSISDN of the called or calling are the same as the value of this parameter, the BSC local switching function is disabled.
NO
NO
SET BSSLS(Optional)
If the first digits in the MSISDN of the called or calling are the same as the value of this parameter, the BSC local switching function is disabled.
NO
NO
SET BSSLS(Optional)
If the first digits in the MSISDN of the called or calling are the same as the value of this parameter, the BSC local switching function is disabled.
NO
NO
SET BSSLS(Optional)
If the first digits in the MSISDN of the called or calling are the same as the value of this parameter, the BSC local switching function is disabled.
NO
NO
SET BSSLS(Optional)
If the first digits in the MSISDN of the called or calling are the same as the value of this parameter, the BSC local switching function is disabled.
NO
NO
SET BSSLS(Optional)
If the first digits in the MSISDN of the called or calling are the same as the value of this parameter, the BSC local switching function is disabled.
NO
NO
SET BSSLS(Optional)
If the first digits in the MSISDN of the called or calling are the same as the value of this parameter, the BSC local switching function is disabled.
NO
NO
SET BSSLS(Optional)
Whether the FE/GE BTS supports inter-BTS local switching
NO
NO
RMV BTS(Mandatory) MOD BTS(Mandatory)
Type of an index.
NO
YES
RMV BTS(Mandatory) ADD BTS(Mandatory) MOD BTS(Mandatory)
Index of the BTS, uniquely identifying a BTS in a BSC. NO
YES
Name of the BTS, uniquely identifying a BTS in a BSC. This parameter cannot contain the following invalid characters: ,;="' RMV BTS(Mandatory) ADD BTS(Mandatory) MOD BTS(Mandatory)
In addition, cell names cannot contain two or more consecutive %, two or more consecutive spaces, or more than two consecutive +.
NO
YES
ADD BTS(Mandatory)
Type of the BTS
NO
YES
ADD BTS(Optional) MOD BTS(Optional)
Peer equipment type of the BTS. This parameter indicates whether to connect the BTS to the BSC or cascade the BTS to another BTS. NO
NO
ADD BTS(Optional) MOD BTS(Optional)
Whether to enable the BTS to support the separation between the physical and logical. Whether the BTS supports the separate mode. When a BTS is in separate mode, the physical boards are separate from the logical TRXs, that is, a physical board may exist without being configured with any logical TRX. When a BTS is in non-separate mode, a one-to-one mapping exists between the physical board and the logical TRX. NO
NO
ADD BTS(Optional) MOD BTS(Optional)
ADD BTS(Optional) MOD BTS(Optional) ADD BTS(Optional) MOD BTS(Optional) ADD BTS(Optional) MOD BTS(Optional)
Service bearer mode of the BTS. TDM:Time Division Multiplex Mode HDLC:High level Data Link Control Mode HDLC_HubBTS:Hub Base Transceiver Station Mode IP:Internet Protocol Mode mode for the BTS. NO Service timeslot assignment If this parameter is set to FIX_16K_ABIS, the BSC assigns a fixed Abis transmission timeslot to a TCH. If this parameter is set to FLEX_ABIS, the BSC assigns an Abis transmission timeslot dynamically to a TCH (except the static PDCH) to increase the resource utilization. If this parameter is set to SEMI_ABIS, the BTS to which a TCH belongs assigns a fixed Abis transmission timeslot to the TCH while the upperlevel BTS set to FLEX_ABIS assigns an Abis transmission timeslot dynamically to the TCH. This mode applies where old and new BTSs are cascaded. HDLC and IP BTS is not support this parameter. 1. If the Flex Abis function is enabled on the BTS, and if the extension cabinet group is directly connected to the BSC, the Abis timeslots allocated to the extension cabinet group are displayed as TCH, indicating fixed timeslots. If the extension cabinet group needs to process data services, and if the high-rate coding schemes (CS3 and CS4; MCS3 to MCS9) are required, idle timeslots need to be configured. 2. If the Flex Abis function is enabled on the BTS, and if the channel type is changed to static PDCH, the type of corresponding Abis timeslots is automatically changed to TCH, indicating fixed timeslots. 3. In the case of cascaded BTSs, if an upperlevel BTS is in Flex Abis mode, and if a lowerlevel BTS is in SemiSolid mode, the type of the timeslots allocated to the lower BTS is displayed as TCH, indicating fixed timeslots, but the timeslot type that the upper-level BTS reports to NO Whether to enable the BTS to support bypass function. HDLC BTS and IP BTS do not support this parameter. NO Whether to enable the BTS to support ring networking. IP BTS does not support this parameter. NO
NO
NO
NO
NO
Timeslot multiplexing mode at the Abis interface of the BTS. The BTS supports two multiplexing modes: statistical multiplexing on a 64 kbit/s timeslot and physical multiplexing on a 16 kbit/s timeslot. The first mode is further classified into the following six types: 1:1, 2:1, 3:1, 4:1, 5:1, and 6:1.
ADD BTS(Optional) MOD BTS(Optional)
A BTS supports the following six types of timeslot objects: OML: operation and maintenance link of the BTS. Each BTS has only one OML. In the case of statistical multiplexing on a 64 kbit/s timeslot, the OML works at 64 kbit/s. In this case, the OML can be multiplexed only with the signaling links in the same cabinet group of the BTS. In the case of physical multiplexing on a 16 kbit/s timeslot, the OML works at 16 kbit/s. In this case, the OML uses a 16 kbit/s timeslot. ESL: extended signaling link of the BTS. If the BTS supports Flex Abis, in the case of statistical multiplexing on a 64 kbit/s timeslot, a 64 kbit/s timeslot needs to be assigned to the ESL. In this case, the ESL is always multiplexed with the OML in the 64 kbit/s timeslot. In the case of physical multiplexing on a 16 kbit/s timeslot, no timeslot is assigned to the ESL. In this case, the ESL shares the same timeslot with the OML. RSL: radio signaling layer link in each TRX. Each TRX has one RSL link. In the case of statistical multiplexing on a 64 kbit/s timeslot, the RSL link works at 64kbit/s. In this case, the RSL link can be multiplexed only with the signaling links in the same cabinet group of the BTS. In the case of physical multiplexing on a 16 kbit/s NO
NO
ADD BTS(Optional) MOD BTS(Optional)
Number of the port to which the active OML of the BTS is connected
NO
NO
ADD BTS(Optional) MOD BTS(Optional)
Type of the physical IP transmission medium
NO
NO
ADD BTS(Mandatory)
Whether a base station supports normalized data configuration. Normalized data configuration means that the cabinets, subracks, slots, transmission ports, and user-defined alarm ports of a base station under a multi-mode BSC use the same numbering schemes, and that the boards of the base station are uniformly named. NO
YES
ADD BTS(Optional)
1. This parameter specifies whether to configure the DRFU, MRFU, GRFU, or XRFU by slot or link. 2. When setting the BTS to support the configuration of the RFU by slot, set this parameter to "YES". When setting the BTS not to support the configuration of the RFU by slot, set this parameter to "NO". 3. If this parameter is set to "YES", you must enter the numbers of the subrack and slot where the new board is located. If you need to specify the CPRI connection relations (SFP port number and cascading level) based on a rule that is different from the cabinet mapping rule specified by the system, the parameters "RXU Chain Head Port No." and "Insert RXU Position" must be specified. 4. If this parameter is set to "NO", you must set "TRX Board No.", "RFU Link No." and "RXU Chain Head Port No.". NO
NO
ADD BTS(Optional) MOD BTS(Optional)
BTS port working mode. This parameter must be consistent with that of the peer. Work mode of a BTS. A BTS can work in the following modes: E1: The E1 system is recommended by the ITUT. E1 carries signals at 2.048 Mbit/s. G.703 defines the electrical specification and G.704 defines the frame format for E1 telecommunication lines. The E1 system is used in Europe and China. T1: The T1 system is recommended by the ANSI and widely used in the North America. T1 carries signals at 1.544 Mbit/s. If "DESTNODE" of the BTS is set to BSC, BTS, or DXX, the setting of "WORKMODE" of the BTS port must be the same as that of the BSC interface board. The operator needn't set "WORKMODE" of the BTS port, it is automatically set to the same value as that of the BSC interface board. If "DESTNODE" of the BTS is set to OTHER, for example, TGW(Transmission Gateway), "WORKMODE" of the BTS port must be set to E1(E1) or T1(T1), according to the physical connection. The setting of the E1/T1 DIP switch of the BTS must match the setting of "WORKMODE" of the BTS port. NO
NO
ADD BTS(Optional) MOD BTS(Optional)
Whether to enable the algorithm for preferential logical TRXs multiplexed on a TRX board. If this parameter is set to YES, timeslots are assigned by means of this algorithm during the BTS activation and timeslot arrangement. If this parameter is set to NO, timeslots are assigned by means of the original algorithm. NO
NO
MOD BTS(Optional)
Name of the BTS after changed. The BTS name must conflict with other BTS names in the BSC. NO
NO
ADD BTSABISHDLCPATH(Manda tory) RMV BTSABISHDLCPATH(Manda tory) MOD BTSABISHDLCPATH(Manda Index type. BYNAME: query by name; BYID: tory) query by index.
NO
YES
ADD BTSABISHDLCPATH(Manda tory) RMV BTSABISHDLCPATH(Manda tory) MOD BTSABISHDLCPATH(Manda Index of the BTS, uniquely identifying a BTS in a tory) BSC. YES
YES
ADD BTSABISHDLCPATH(Manda tory) RMV BTSABISHDLCPATH(Manda tory) MOD BTSABISHDLCPATH(Manda tory)
YES
Name of the BTS, uniquely identifying a BTS in a BSC. This parameter cannot contain the following invalid characters: ,;="' In addition, cell names cannot contain two or more consecutive %, two or more consecutive spaces, or more than two consecutive +.
NO
ADD BTSABISHDLCPATH(Manda tory) RMV BTSABISHDLCPATH(Manda tory) MOD BTSABISHDLCPATH(Manda Number of a BTS HDLC path. It is unique in one tory) [BTS]. YES
YES
ADD BTSABISHDLCPATH(Manda tory) MOD BTSABISHDLCPATH(Option al) Index type of the BTS connected to BSC
NO
YES
ADD BTSABISHDLCPATH(Manda tory) MOD Connect BSC BTS Name.It is unique in one BTSABISHDLCPATH(Manda BSC.This parameter cannot contain ? | : < > " @ tory) # ! % ^ & * . [ ] / \ \\ '. NO
YES
ADD BTSABISHDLCPATH(Manda tory) MOD BTSABISHDLCPATH(Manda Number of the BTS connected to the BSC. The tory) number is unique in a BSC
YES
NO
ADD BTSABISHDLCPATH(Manda tory) MOD BTSABISHDLCPATH(Option Number of the E1 port on the BTS connected to al) the BSC. NO
YES
ADD BTSABISHDLCPATH(Manda tory) MOD BTSABISHDLCPATH(Option The 64 kbit/s timeslots on the port are numbered al) from 1 to 31. NO
YES
ADD BTSABISMUXFLOW(Mandat ory) MOD BTSABISMUXFLOW(Mandat ory) RMV BTSABISMUXFLOW(Mandat Index type. BYNAME: query by name; BYID: ory) query by index.
YES
NO
ADD BTSABISMUXFLOW(Mandat ory) MOD BTSABISMUXFLOW(Mandat ory) RMV BTSABISMUXFLOW(Mandat Index of the BTS, uniquely identifying a BTS in a ory) BSC. YES
YES
ADD BTSABISMUXFLOW(Mandat ory) MOD BTSABISMUXFLOW(Mandat ory) RMV BTSABISMUXFLOW(Mandat ory)
NO
YES
YES
YES
Name of the BTS, uniquely identifying a BTS in a BSC. This parameter cannot contain the following invalid characters: ,;="' In addition, cell names cannot contain two or more consecutive %, two or more consecutive spaces, or more than two consecutive +.
ADD BTSABISMUXFLOW(Mandat ory) MOD BTSABISMUXFLOW(Mandat ory) RMV Service type of the IP interface board. The BTSABISMUXFLOW(Mandat service type can be CS speech, CS data, PS ory) high priority, or PS low priority.
Maximum sub-frame length. The data stream to be multiplexed on the same multiplexing channel ADD must be of the same type, and the length of the BTSABISMUXFLOW(Optiona packet before multiplexing cannot exceed the l) maximum subframe length. If the length of a MOD packet exceeds the maximum subframe length, BTSABISMUXFLOW(Optiona the packet is transmitted without being l) multiplexed. NO
NO
Maximum multiplexing frame length. The length of the multiplexed packet must not exceed the ADD maximum multiplexing frame length. If the length BTSABISMUXFLOW(Optiona of the multiplexed packet exceeds the maximum l) multiplexing frame length, the packet is MOD transferred without being added with new BTSABISMUXFLOW(Optiona subframes. The frame length refers to the l) payload, excluding the IP/UDP header. NO
NO
Longest waiting time for multiplexing When the multiplexed packet is no longer added ADD with new data and the timer expires, the BTSABISMUXFLOW(Optiona multiplexed packet is transmitted directly. l) This parameter is determined by the number of MOD multiplexed packets. When the number of BTSABISMUXFLOW(Optiona multiplexed packets increases, the value of this l) parameter increases. NO
NO
SET BTSABISTROP(Mandatory)
Type of an index.
YES
SET BTSABISTROP(Mandatory)
Index of the BTS, uniquely identifying a BTS in a BSC. YES
NO
YES
Name of the BTS, uniquely identifying a BTS in a BSC. This parameter cannot contain the following invalid characters: ,;="'
SET BTSABISTROP(Mandatory)
In addition, cell names cannot contain two or more consecutive %, two or more consecutive spaces, or more than two consecutive +.
NO
YES
SET BTSABISTROP(Mandatory)
Switch for Abis Timeslot Detection
NO
YES
SET BTSABISTROP(Optional)
The transmission resource in the Abis timeslot is considered as faulty only when the BTS detects that the Abis timeslot is faulty in the delay. The transmission resource in the Abis timeslot is considered as normal when the BTS detects the Abis timeslot is normal. NO
Index type. BYNAME: query by name; BYID: TID BTSABISTS(Mandatory) query by index.
NO
Index of the BTS, uniquely identifying a BTS in a TID BTSABISTS(Mandatory) BSC. YES
NO
YES
YES
Name of the BTS, uniquely identifying a BTS in a BSC. This parameter cannot contain the following invalid characters: ,;="' In addition, cell names cannot contain two or more consecutive %, two or more consecutive TID BTSABISTS(Mandatory) spaces, or more than two consecutive +.
NO
YES
SET BTSAIRCON(Mandatory)
Type of an index.
SET BTSAIRCON(Mandatory)
Index of the BTS, uniquely identifying a BTS in a BSC. YES
NO
YES
YES
Name of the BTS, uniquely identifying a BTS in a BSC. This parameter cannot contain the following invalid characters: ,;="'
SET BTSAIRCON(Mandatory)
In addition, cell names cannot contain two or more consecutive %, two or more consecutive spaces, or more than two consecutive +.
NO
YES
SET BTSAIRCON(Optional)
Total number of times that the BTS checks whether to switch off the air conditioner
NO
NO
SET BTSAIRCON(Optional)
Maximum number of times that the BTS finds that the air conditioner needs to be switched off. If the number of times that the BTS finds that the air conditioner needs to be switched off in the "CHKOFFTIMES" checks reaches this parameter, the BTS switches off the air conditioner. NO
NO
SET BTSAIRCON(Optional)
Voltage threshold for switching off the air conditioner. If the power supply voltage is less than this threshold, the air conditioner needs to be switched off to decrease the impact on the BTS.
NO
NO
SET BTSAIRCON(Optional)
Total number of times that the BTS checks whether to switch on the air conditioner
NO
NO
SET BTSAIRCON(Optional)
Maximum number of times that the BTS finds that the air conditioner needs to be switched on. If the number of times that the BTS finds that the air conditioner needs to be switched on in the "CHKONTIMES" checks reaches this parameter, the BTS switches on the air conditioner. NO
NO
SET BTSAIRCON(Optional)
Voltage threshold for switching on the air conditioner. This parameter assumes that the air conditioner is switched off. If the power supply voltage is greater than this threshold, the air conditioner needs to be switched on to ensure that the BTS runs properly. NO
NO
SET BTSAIRCON(Optional)
Delay for which the BTS waits to switch on the air conditioner
NO
NO
SET BTSAISS(Mandatory)
Index type.
NO
YES
SET BTSAISS(Mandatory)
Index of the BTS, uniquely identifying a BTS in a BSC. YES
YES
Name of the BTS, uniquely identifying a BTS in a BSC. This parameter cannot contain the following invalid characters: ,;="'
SET BTSAISS(Mandatory)
In addition, cell names cannot contain two or more consecutive %, two or more consecutive spaces, or more than two consecutive +.
SET BTSAISS(Optional)
Symbol offset of the BTS set manually. After the offset information of the BTS is collected, the symbol offset is adjusted. Adjustment value = Collected symbol offset relative to the reference BTS - (BTS symbol offset + BSC symbol offset). NO
NO
Zone where the BTS synchronizes with other BTSs. Only two BTSs with the same synchronization zone can be synchronized in a synchronization task.
NO
YES
Antenna Configuration File Name.
NO
YES
SET BTSALM(Mandatory)
Type of an index.
NO
YES
SET BTSALM(Mandatory)
Index of the BTS, uniquely identifying a BTS in a BSC. YES
SET BTSAISS(Mandatory) RMV BTSALDFILE(Mandatory)
NO
YES
YES
Name of the BTS, uniquely identifying a BTS in a BSC. This parameter cannot contain the following invalid characters: ,;="'
SET BTSALM(Mandatory)
In addition, cell names cannot contain two or more consecutive %, two or more consecutive spaces, or more than two consecutive +.
NO
YES
SET BTSALM(Mandatory)
Type of the BTS
NO
Whether to enable alarm extension input for the SET BTSALM(Optional) BTS NO SET BTSALMFLASHTHD(Mandat ory) ID of the intermittent alarm. YES
YES
NO
YES
Time threshold for delaying the report of an alarm. If the alarm is cleared within the time specified by this parameter, the alarm is not SET reported. Otherwise, the alarm is reported. If this BTSALMFLASHTHD(Optiona parameter is set to 0, the alarm is reported l) immediately when the alarm occurs. NO
NO
Time threshold for delaying the report of a clear alarm. If the alarm reoccurs within the time specified by this parameter after it is cleared, the clear alarm is not reported. Otherwise, the clear SET alarm is reported. If this parameter is set to 0, BTSALMFLASHTHD(Optiona the clear alarm is reported immediately when the l) alarm is cleared. NO
NO
If the number of alarm flashes exceeds the value of this parameter within the time specified by "Flash Statistic Alarm Raise Time Window", the SET BTS Statistical Alarm is generated. If this BTSALMFLASHTHD(Optiona parameter is set to 0, the statistics of the BTS l) alarm flashes is not collected. NO
NO
If the number of alarm flashes is smaller than the value of this parameter within the time specified by "Flash Statistic Alarm Clear Time Window", SET the BTS Statistical Alarm is cleared. If this BTSALMFLASHTHD(Optiona parameter is set to 0, the statistics of the BTS l) alarm flashes is not collected. NO
NO
Alarm Occur Accumulative Time refers to the percentage of the alarm occurrence accumulative time to "Flash Statistic Alarm Raise Time Window". If the alarm occurrence accumulative duration is greater than the parameter value, the BTS fault statistical alarm is reported. For example, if the parameter value is 60, it indicates that Alarm Occur Accumulative SET Time = "Flash Statistic Alarm Raise Time BTSALMFLASHTHD(Optiona Window" x 60%. If the parameter value is 0, no l) statistics is collected. NO
NO
Alarm Clear Accumulative Time refers to the percentage of the alarm clearance accumulative time to "Flash Statistic Alarm Clear Time Window". If the alarm clearance accumulative duration is greater than this threshold, the BTS fault statistical alarm is cleared. For example, if the parameter value is 30, it indicates that Alarm SET Clear Accumulative Time = "Flash Statistic BTSALMFLASHTHD(Optiona Alarm Clear Time Window" x 30%. If the l) parameter value is 0, no statistics is collected. NO
NO
Whether to enable the filtering of the intermittent alarms. If the value of this parameter is "DISABLE", "Flash Statistic Alarm Raise Time SET Window" and "Flash Statistic Alarm Clear Time" BTSALMFLASHTW(Optional) are invalid. NO
NO
Time window for observing the intermittent alarms generated during the statistical period. In this time window, the BTS statistical alarm is SET reported if the occurrence of the intermittent BTSALMFLASHTW(Optional) alarm meets the related threshold. NO
NO
Time window for observing the clearance of the intermittent alarms. In this time window, the BTS statistical alarm is cleared if the occurrence of SET the intermittent alarm meets the related BTSALMFLASHTW(Optional) threshold. NO
NO
ADD BTSALMMGMRULE(Mandat ory) RMV BTSALMMGMRULE(Mandat Index type of the BTS. BYNAME: query by BTS ory) name; BYID: query by BTS index.
NO
YES
NO
YES
Name of the BTS, uniquely identifying a BTS in a BSC. This parameter cannot contain the following invalid characters: ADD BTSALMMGMRULE(Mandat ory) RMV BTSALMMGMRULE(Mandat ory)
,;="' In addition, cell names cannot contain two or more consecutive %, two or more consecutive spaces, or more than two consecutive +.
ADD BTSALMMGMRULE(Mandat ory) RMV BTSALMMGMRULE(Mandat Index of the BTS, uniquely identifying a BTS in a ory) BSC. YES ADD BTSALMMGMRULE(Mandat ory) RMV BTSALMMGMRULE(Optional ) Alarm ID ADD BTSALMMGMRULE(Mandat ory) Advanced alarm management rule type
YES
YES
YES
NO
YES
NO
YES
Accumulated alarm occurrence duration.Threshold for the accumulated duration ADD in which the alarm persists. If the accumulated BTSALMMGMRULE(Mandat duration exceeds this threshold, an alarm is ory) generated. Otherwise, no alarm is generated. NO
YES
Sliding time window for collecting statistics on the alarms that disappear in a specified period of ADD time.Sampling time window. In the period BTSALMMGMRULE(Mandat specified by this parameter, the duration in which ory) the alarm persists is accumulated. NO
YES
Sliding time window for collecting statistics on the alarms that occur in a specified period of time.This parameter is similar to the sampling ADD time window. In the period specified by this BTSALMMGMRULE(Mandat parameter, the duration in which the alarm ory) persists is accumulated.
Accumulated alarm clearance failure duration.Threshold for the accumulated duration ADD in which the alarm persists. If the accumulated BTSALMMGMRULE(Mandat duration exceeds this threshold, an alarm is ory) cleared. Otherwise, the alarm persists. NO
YES
SET BTSALMPORT(Mandatory)
NO
YES
NO
YES
Index type of the BTS. BYNAME: query by BTS name; BYID: query by BTS index. Name of the BTS, uniquely identifying a BTS in a BSC. This parameter cannot contain the following invalid characters: ,;="'
SET BTSALMPORT(Mandatory)
In addition, cell names cannot contain two or more consecutive %, two or more consecutive spaces, or more than two consecutive +.
SET BTSALMPORT(Mandatory)
Index of the BTS, uniquely identifying a BTS in a BSC. YES
YES
SET BTSALMPORT(Mandatory)
Whether to enable the board parameters to be configured. If this parameter is set to "YES", the user can set board parameters of the BTS. Otherwise, the user cannot set the board parameters. NO
YES
SET BTSALMPORT(Mandatory)
No Mains Supply Alarm Cabinet No.
NO
YES
SET BTSALMPORT(Mandatory)
No Mains Supply Alarm Subrack No.
NO
YES
SET BTSALMPORT(Mandatory)
No Mains Supply Alarm Slot No.
NO
YES
SET BTSALMPORT(Mandatory)
No Mains Supply Alarm Port No.
NO
YES
SET BTSALMPORT(Mandatory)
DC Low Voltage Alarm Cabinet No.
NO
YES
SET BTSALMPORT(Mandatory)
DC Low Voltage Alarm Subrack No.
NO
YES
SET BTSALMPORT(Mandatory)
DC Low Voltage Alarm Slot No.
NO
YES
SET BTSALMPORT(Mandatory)
DC Low Voltage Alarm Port No.
NO
YES
NO
YES
ADD BTSANTFEEDERBRD(Mand atory) MOD BTSANTFEEDERBRD(Mand atory) RMV BTSANTFEEDERBRD(Mand Index type of the BTS. BYNAME: query by BTS atory) name; BYID: query by BTS index.
ADD BTSANTFEEDERBRD(Mand atory) MOD BTSANTFEEDERBRD(Mand atory) RMV BTSANTFEEDERBRD(Mand Index of the BTS, uniquely identifying a BTS in a atory) BSC. YES
YES
ADD BTSANTFEEDERBRD(Mand atory) MOD BTSANTFEEDERBRD(Mand atory) RMV BTSANTFEEDERBRD(Mand atory)
NO
YES
YES
YES
Name of the BTS, uniquely identifying a BTS in a BSC. This parameter cannot contain the following invalid characters: ,;="' In addition, cell names cannot contain two or more consecutive %, two or more consecutive spaces, or more than two consecutive +.
ADD BTSANTFEEDERBRD(Mand atory) MOD BTSANTFEEDERBRD(Mand atory) RMV BTSANTFEEDERBRD(Mand Number of the subrack where the BTS board is atory) located
ADD BTSANTFEEDERBRD(Mand atory) MOD BTSANTFEEDERBRD(Mand atory) RMV BTSANTFEEDERBRD(Mand Number of the slot where the BTS board is atory) located
ADD BTSANTFEEDERBRD(Mand atory) MOD BTSANTFEEDERBRD(Mand atory) ADD BTSANTFEEDERBRD(Mand atory) ADD BTSANTFEEDERBRD(Mand atory) ADD BTSANTFEEDERBRD(Mand atory) ADD BTSANTFEEDERBRD(Optio nal) ADD BTSANTFEEDERBRD(Mand atory) ADD BTSANTFEEDERBRD(Optio nal) ADD BTSANTFEEDERBRD(Optio nal)
YES
YES
NO
YES
Downlink TRX index number of the newly added board NO
YES
Number of the subrack where the TRX board that connects to downlink tributary is located
NO
YES
Number of the slot where the TRX board that connects to downlink tributary is located
NO
YES
TRX board pass number connected with the downlink tributary
NO
NO
Antenna pass number of the downlink tributary
NO
YES
MDU board number when the antenna pass of downlink tributary A is selected
NO
NO
MDU board number when the antenna pass of downlink tributary B is selected
NO
NO
Type of the board
Frequency band types of the board This parameter is only applicable to the DDPU/DFCU/DFCB/DCOM/DDPM/DCBM. The frequency band types for the DTRU, QTRU, ADD DRRU, DRFU, GRRU, MRRU, GRFU, and BTSANTFEEDERBRD(Optio MRFU cannot be configured and thus are nal) calculated based on the selected frequencies MOD such as GSM900, DSC1800, PCS1900,and BTSANTFEEDERBRD(Mand GSM850. The parameter value for the other atory) board types is set to 0xFF. NO
NO
MOD BTSANTFEEDERBRD(Mand atory) Type of a new board
NO
YES
NO
YES
NO
YES
MOD BTSANTFEEDERBRD(Mand atory) Type of a new board SET BTSANTFEEDERCONNECT Index type of the BTS. BYNAME: query by BTS (Mandatory) name; BYID: query by BTS index.
SET BTSANTFEEDERCONNECT Index of the BTS, uniquely identifying a BTS in a (Mandatory) BSC. YES
YES
Name of the BTS, uniquely identifying a BTS in a BSC. This parameter cannot contain the following invalid characters: ,;="' SET BTSANTFEEDERCONNECT (Mandatory) SET BTSANTFEEDERCONNECT (Mandatory) SET BTSANTFEEDERCONNECT (Mandatory)
In addition, cell names cannot contain two or more consecutive %, two or more consecutive spaces, or more than two consecutive +.
NO
YES
Number of the subrack where the BTS board is located
YES
YES
Number of the slot where the BTS board is located
YES
YES
NO
YES
Index number of the downlink tributary
NO
NO
Number of the subrack where the TRX board that connects to downlink tributary is located
NO
NO
Number of the slot where the TRX board that connects to downlink tributary is located
NO
NO
TRX board pass number connected with the downlink tributary
NO
NO
SET BTSANTFEEDERCONNECT (Mandatory) Type of the board SET BTSANTFEEDERCONNECT (Optional) SET BTSANTFEEDERCONNECT (Optional) SET BTSANTFEEDERCONNECT (Optional) SET BTSANTFEEDERCONNECT (Optional)
SET BTSANTFEEDERCONNECT (Optional) SET BTSANTFEEDERCONNECT (Optional) SET BTSANTFEEDERCONNECT (Optional) SET BTSANTFEEDERCONNECT (Optional) SET BTSANTFEEDERCONNECT (Optional) SET BTSANTFEEDERCONNECT (Optional) SET BTSANTFEEDERCONNECT (Optional) SET BTSANTFEEDERCONNECT (Optional) SET BTSANTFEEDERCONNECT (Optional) SET BTSANTFEEDERCONNECT (Optional) SET BTSANTFEEDERCONNECT (Optional) SET BTSANTFEEDERCONNECT (Optional) SET BTSANTFEEDERCONNECT (Optional) SET BTSANTFEEDERCONNECT (Optional) SET BTSANTFEEDERCONNECT (Optional)
Antenna pass number of the downlink tributary
NO
NO
MDU board number when the antenna pass of downlink tributary A is selected
NO
NO
MDU board number when the antenna pass of downlink tributary B is selected
NO
NO
Index of uplink tributary 0. Each uplink tributary can be configured with a maximum of 12 TRXs. This parameter indicates the serial number of a TRX on the uplink tributary. NO
NO
Number of the subrack where the TRX board that connects to uplink tributary 0 is located
NO
NO
Number of the slot where the TRX board that connects to uplink tributary 0 is located
NO
NO
TRX board pass number connected to uplink tributary 0
NO
NO
Whether there is a TMA on uplink tributary 0
NO
NO
Power attenuation factor of uplink tributary 0
NO
NO
Index of uplink tributary 1. Each uplink tributary can connect to a maximum of 12 TRXs. This parameter indicates the serial number of a TRX on the uplink tributary.
YES
NO
Number of the subrack where the TRX board that connects to uplink tributary 1 is located
NO
NO
Number of the slot where the TRX board that connects to uplink tributary 1 is located
NO
NO
TRX board pass number connected to uplink tributary 1
NO
NO
Whether there is a TMA on uplink tributary 1
NO
NO
Power attenuation factor of uplink tributary 1
NO
NO
SET BTSAPMUBP(Mandatory)
Index type of the BTS. BYNAME: query by BTS name; BYID: query by BTS index.
SET BTSAPMUBP(Mandatory)
Index of the BTS, uniquely identifying a BTS in a BSC. YES
NO
YES
YES
Name of the BTS, uniquely identifying a BTS in a BSC. This parameter cannot contain the following invalid characters: ,;="'
SET BTSAPMUBP(Mandatory)
In addition, cell names cannot contain two or more consecutive %, two or more consecutive spaces, or more than two consecutive +.
NO
YES
SET BTSAPMUBP(Optional) Number of the cabinet.
YES
NO
SET BTSAPMUBP(Mandatory)
Number of the subrack where the BTS board is located
YES
YES
SET BTSAPMUBP(Mandatory)
Number of the slot where the BTS board is located
YES
YES
SET BTSAPMUBP(Mandatory)
Whether to allow the configuration of board parameters. The value "YES" indicates that the configuration is allowed, and the value "NO" indicates that the configuration is not allowed. If the parameter is set to "YES", all the other parameters controlled by it are reset to the default values in this command. In multi-mode scenario, the value of this parameter in this mode must be the same as the value of the corresponding parameter in another mode. NO
Power type. When the PMU is installed on the rack, you can select the custom power type. In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding parameter in another SET BTSAPMUBP(Optional) mode. NO
YES
NO
Whether to enable the DPSU0 to supply power for the BTS. In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding parameter in another SET BTSAPMUBP(Optional) mode. NO
NO
Whether to enable the DPSU1 to supply power for the BTS. In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding parameter in another SET BTSAPMUBP(Optional) mode. NO
NO
Whether to enable the DPSU2 to supply power for the BTS. In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding parameter in another SET BTSAPMUBP(Optional) mode. NO
NO
Whether the configuration of alarm parameters is allowed. In multi-mode scenario, the value of this parameter must be the same as the value of the SET BTSAPMUBP(Optional) parameter in other modes. NO
NO
The value of this parameter consists of 32 bits, each of which determines whether to enable the corresponding special analog alarm. "0" indicates that the alarm is enabled, and "1" indicates that the alarm is disabled. When an item is selected, the corresponding analog alarm switch is disabled. The available items are BT1_DISABLE, AH_DISABLE, AT1_DISABLE, AT2_DISABLE, and BT2_DISABLE. In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding parameter in another SET BTSAPMUBP(Optional) mode. NO
NO
Whether to enable the special Boolean alarms, that is, water sensor alarm (bit 0), smog sensor alarm (bit 1), and door sensor alarm (bit 2). All the Boolean alarms are enabled by default. "0" indicates that the alarm is enabled, and "1" indicates that the alarm is disabled.The available items are WS_DISABLE, SS_DISABLE, and GS_DISABLE~2. In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding parameter in another SET BTSAPMUBP(Optional) mode. NO
NO
Whether the configuration of external battery is allowed. In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding parameter in another SET BTSAPMUBP(Optional) mode. NO
NO
Battery type. In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding parameter in another SET BTSAPMUBP(Optional) mode. NO
NO
Current limit coefficient of the battery. The maximum charging current equals the value of "Battery Current Limiting Coefficient" multiplexed by "Battery Capacity". If the charging current is 5 A higher than the maximum charging current, the overcharge alarm is reported. In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding parameter in another SET BTSAPMUBP(Optional) mode. NO
NO
Battery capacity. The battery capacity should be set according to the vendor specification. If it is improperly configured, the battery life may be shortened. In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding parameter in another SET BTSAPMUBP(Optional) mode. NO
NO
SET BTSAPMUBP(Optional) Battery number.
NO
NO
Whether to enable the configuration of power system parameters. In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding parameter in another SET BTSAPMUBP(Optional) mode. NO
NO
Load power-off voltage threshold. If "Load Shutdown Flag" is set to "Enable" and the load voltage is lower than the value of this parameter, the load is automatically powered off. In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding parameter in another SET BTSAPMUBP(Optional) mode. NO
NO
Boost-Charging Voltage. See the vendor specification for the setting of this parameter. In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding parameter in another SET BTSAPMUBP(Optional) mode. NO
NO
Float charging voltage. Float charging compensates the discharged capacity of the battery so that the battery can be charged to full voltage indefinitely. The value of this parameter is slightly lower than the even charging voltage. See the vendor specification for the setting of this parameter. In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding parameter in another SET BTSAPMUBP(Optional) mode. NO
NO
Whether to enable power shutdown upon low voltage of the battery. In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding parameter in another SET BTSAPMUBP(Optional) mode. NO
NO
Whether "Shutdown Voltage" is valid. In multi-mode base station scenario, the value of this parameter in different modes must be the SET BTSAPMUBP(Optional) same for the same multi-mode base station. NO
NO
Low voltage threshold for triggering power shutdown of the battery. If the power shutdown upon low voltage is enabled and the load voltage is lower than the value of this parameter, the battery is automatically powered off. In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding parameter in another SET BTSAPMUBP(Optional) mode. NO
NO
Whether to power off the TRX in the case of overlow temperature of the BTS cabinet. If this parameter is set to "Yes", the BTS powers off the TRX and reports a "Load Power Off Alarm" to protect the TRX in the case of overlow temperature of the BTS cabinet. When the cabinet temperature returns to 0 celsius degree, the BTS powers on the TRX, and the alarm SET BTSAPMUBP(Optional) disappears. NO
NO
TRX power-off temperature threshold. If the temperature of the BTS cabinet is less than the value of this parameter while "Low Temperature Startup Allowed" is set to "Yes", the TRX is SET BTSAPMUBP(Optional) powered off. NO
NO
The BTS reports an alarm if the AC voltage exceeds the value of the AC voltage alarm upper threshold. When the input AC voltage is higher than the value of this parameter, an alarm indicating the abnormal AC is reported. In multi-mode scenario, the value of this parameter must be the same as the value of the SET BTSAPMUBP(Optional) parameter in other modes. NO
NO
AC voltage alarm lower threshold. When the input AC voltage is lower than the value of this parameter, an alarm indicating the abnormal AC is reported. In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding parameter in another SET BTSAPMUBP(Optional) mode. NO
NO
DC voltage alarm upper threshold. When the busbar output voltage is higher than the value of this parameter, an alarm indicating the abnormal busbar voltage is reported. In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding parameter in another SET BTSAPMUBP(Optional) mode. NO
NO
DC voltage alarm lower threshold. When the busbar output voltage is lower than the value of this parameter, an alarm indicating the abnormal busbar voltage is reported. In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding parameter in another SET BTSAPMUBP(Optional) mode. NO
NO
Whether to allow the configuration of parameters related to the temperature compensation of the battery group In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding parameter in another SET BTSAPMUBP(Optional) mode. NO
NO
Upper limit of the temperature measured by the temperature sensor of the battery group 1. If the measured value is greater than the value of this parameter, the value of this parameter is reported. In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding parameter in another SET BTSAPMUBP(Optional) mode. NO
NO
Lower limit of the temperature measured by the temperature sensor of the battery group 1. If the measured value is smaller than the value of this parameter, the value of this parameter is reported. In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding parameter in another SET BTSAPMUBP(Optional) mode. NO
NO
Temperature alarm upper threshold. If the temperature of the battery is higher than the value of this parameter, an alarm indicating the abnormal temperature is reported. In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding parameter in another SET BTSAPMUBP(Optional) mode. NO
NO
Temperature alarm lower threshold. If the temperature of the battery is lower than the value of this parameter, an alarm indicating the abnormal temperature is reported. In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding parameter in another SET BTSAPMUBP(Optional) mode. NO
NO
Temperature compensation coefficient. This parameter defines the charging voltage increase or decrease unit of each battery when the ambient temperature of the battery varies with the reference temperature regulated by the vendor by 1 degree Celsius. See the vendor specification for the setting of this parameter. In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding parameter in another SET BTSAPMUBP(Optional) mode. NO
NO
Number of the temperature sensor corresponding to a battery group. You can choose sensor 1 (Battery1Temp) or sensor 2 (Battery2Temp). If you choose sensor 1, the system automatically uses sensor 1 to control the temperature of the battery group and performs temperature compensation, high temperature protection, and high temperature alarm accordingly. The system handling principles are the same if you choose sensor 2. For the EPS4815 boards, this parameter can only be configured as "Battery1Temp". In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding parameter in another SET BTSAPMUBP(Optional) mode. NO
NO
Whether to enable the environment temperature alarm parameters of the APMU to be configured. The Power Type of the APM30 type does not support this parameter. In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding parameter in another SET BTSAPMUBP(Optional) mode. NO
NO
When the environment temperature of the APMU is greater than the value of this parameter, the BTS reports an alarm. For the Power Type of the non-EPS4815 type, the minimum value of the parameter is -490. In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding parameter in another SET BTSAPMUBP(Optional) mode. NO
NO
When the environment temperature of the APMU is less than the value of this parameter, the BTS reports an alarm. For the Power Type of the non-EPS4815 type, the maximum value of the parameter is 990. In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding parameter in another SET BTSAPMUBP(Optional) mode. NO
NO
Whether to enable the environment humidity alarm parameters of the board to be configured. In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding parameter in another SET BTSAPMUBP(Optional) mode. NO
NO
When the ambient humidity of the APMU is greater than the value of this parameter, the BTS reports an overhigh ambient humidity alarm. In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding parameter in another SET BTSAPMUBP(Optional) mode. NO
NO
When the ambient humidity of the APMU is less than the value of this parameter, the BTS reports an overlow ambient humidity alarm. In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding parameter in another SET BTSAPMUBP(Optional) mode. NO
NO
Whether to enable the diesel engine parameters SET BTSAPMUBP(Optional) to be configured NO
NO
Whether to enable the intelligent control of the diesel engine. If this parameter is set to ENABLE, the PMU will control the diesel engine automatically according to the settings of the parameters to save the energy. This parameter SET BTSAPMUBP(Optional) is set to ENABLE by default. NO Rated maximum output power of the diesel engine. Refer to the rated output power SET BTSAPMUBP(Optional) described on the diesel engine label. NO
NO
NO
Allowed percentage of the battery discharging. After the AC power supply is cut and the power of the battery is discharged by the value of this parameter, the diesel engine is started to supply SET BTSAPMUBP(Optional) the power. NO
NO
Number of the cabinet where the associated RXU board is installed. This parameter is valid for DRRU, MRRU, GRRU, or BTS3900E board in the remote monitoring subrack of the DBS3036, DBS3900 GSM, or BTS3900E GSM. The associated RXU board cannot be associated with other boards such as DEMU, SET BTSAPMUBP(Optional) APMU, or DTCU.
NO
NO
Number of the subrack where the associated SET BTSAPMUBP(Optional) RXU board is installed.
NO
NO
Number of the slot where the associated RXU SET BTSAPMUBP(Optional) board is installed.
NO
NO
Whether to enable battery power-off against high SET BTSAPMUBP(Optional) temperature. NO
NO
Whether to enable load power-off against high SET BTSAPMUBP(Optional) temperature
NO
NO
High temperature threshold for triggering power shutdown of the battery. If the power shutdown upon battery high temperature is enabled and the battery temperature is higher than the value of this parameter, the battery is automatically powered off. In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding parameter in another SET BTSAPMUBP(Optional) mode. NO
NO
When the temperature of the BTS cabinet is greater than the value of this parameter, the SET BTSAPMUBP(Optional) TRX is powered off.
NO
NO
Cabinet No. of the management board. The management board refers to the TMU or RXU that directly communicates with the board. The configuration of this parameter must be consistent with the actual physical connection. SET BTSAPMUBP(Optional) Otherwise, the board may not work properly.
NO
NO
Number of the subrack where the board is located. The management board refers to the TMU or RXU that directly communicates with the board. The configuration of this parameter must be consistent with the actual physical connection. Otherwise, the board may not work SET BTSAPMUBP(Optional) properly. NO
NO
Number of the serial port where the board is located. The management board refers to the TMU or RXU that directly communicates with the board. The configuration of this parameter must be consistent with the actual physical connection. Otherwise, the board may not work SET BTSAPMUBP(Optional) properly. NO
NO
Communication address of the CBUS3 on the bus 485. The configuration of this parameter must be consistent with the actual physical connection. Otherwise, the board may not work SET BTSAPMUBP(Optional) properly.
NO
NO
Interval for boost-charging. This parameter is used to specify intervals (in unit of day) for charging a storage battery. It is set to a proper value, according to the user guide of the storage SET BTSAPMUBP(Optional) battery provided by the manufactory. NO
NO
Whether to allow the BSC to transmit parameter settings for a discharge test to the BTS. If this parameter is set to "YES", the BSC will transmit related parameter settings to the BTS. If this parameter is set to "NO", the BSC will not SET BTSAPMUBP(Optional) transmit related parameter settings to the BTS. NO
NO
SET BTSAPMUBP(Optional)
SET BTSAPMUBP(Optional)
SET BTSAPMUBP(Optional)
SET BTSAPMUBP(Optional)
SET BTSAPMUBP(Optional)
SET BTSAPMUBP(Optional)
SET BTSAPMUBP(Optional)
SET BTSAPMUBP(Optional)
Time for battery discharge (current coefficient = 0.05). This parameter (first parameter), together with the following nine parameters, are in the discharge current-to-time mapping list. "C10" denotes the nominal capacity of a battery group. This parameter indicates the duration in which the battery group reaches the end voltage with the discharge current of 0.05 x C10 A. Assume that the capacity of a C10 battery group is 100 AH. This parameter indicates the duration in which the battery group reaches the end voltage with the discharge current of 5 A (0.05 x 100). Time for battery discharge (current coefficient = 0.1). For details, see the description of the parameter 0.05C10 Discharge Time. Time for battery discharge (current coefficient = 0.2). For details, see the description of the parameter 0.05C10 Discharge Time. Time for battery discharge (current coefficient = 0.3). For details, see the description of the parameter 0.05C10 Discharge Time. Time for battery discharge (current coefficient = 0.4). For details, see the description of the parameter 0.05C10 Discharge Time. Time for battery discharge (current coefficient = 0.5). For details, see the description of the parameter 0.05C10 Discharge Time. Time for battery discharge (current coefficient = 0.6). For details, see the description of the parameter 0.05C10 Discharge Time. Time for battery discharge (current coefficient = 0.7). For details, see the description of the parameter 0.05C10 Discharge Time.
NO
NO
NO
NO
NO
NO
NO
NO
NO
NO
NO
NO
NO
NO
NO
NO
Time for battery discharge (current coefficient = 0.8). For details, see the description of the SET BTSAPMUBP(Optional) parameter 0.05C10 Discharge Time. Time for battery discharge (current coefficient = 0.9). For details, see the description of the SET BTSAPMUBP(Optional) parameter 0.05C10 Discharge Time.
NO
NO
NO
NO
NO
NO
Whether to terminate a discharge test. This parameter is one of criteria to terminate a discharge test. If the battery voltage is lower than this parameter, the discharge test is terminated, and the measured results can be recorded. This parameter is not used for a battery group, but a single battery. Generally, the voltage of a single storage battery is 2 V. Therefore, a 48 V battery SET BTSAPMUBP(Optional) group consists of 24 storage batteries. NO
NO
Number of storage batteries in a battery group. The voltage of a single battery is 2 V. Therefore, a 48 V battery group consists of 24 batteries, and a 24 V battery group consists of 12 SET BTSAPMUBP(Optional) batteries. NO
NO
Whether to terminate a discharge test. This parameter is one of criteria to terminate a discharge test. This parameter is set to a value that meets the requirement of customers or a great value. To check battery performance, you should set this parameter to a value that meets the requirement of customers. In this case, the discharge test is terminated after a period of time equal to Discharge Test Time Limit (The battery has not reached the discharge end voltage). The remaining battery capacity is sufficient and the related alarm will not be generated. To evaluate battery efficiency, you should set this parameter to a great value. In this case, the discharge test is terminated when the battery reaches the end voltage within the preset period of time, and the discharge process can be SET BTSAPMUBP(Optional) timed. NO
NO
Threshold for charge efficiency. Discharge efficiency is calculated as follows: Discharge efficiency = Actual discharge time/Preset discharge time. The parameters involved in this formula are measured through a standard discharge test. This parameter is used to compare with the calculated result, to check whether battery discharge efficiency is fulfilled. The comparison result is recorded in the report SET BTSAPMUBP(Optional) of the discharge test.
In a simple discharge test, battery efficiency is not required. The parameters "Simple Discharge Test End Voltage" and "Simple Discharge Test Time Limit" are used to check battery performance. The principle for this test is described as follows: A fully-charged battery is expected to reduce its voltage to 47 V in an hour. In this case, you need set "Simple Discharge Test End Voltage" and "Simple Discharge Test Time Limit" to 47 V and 50 min respectively. If the battery voltage is higher than 47 V ("Simple Discharge Test End Voltage") after 50 minutes ("Simple Discharge Test Time Limit"), the remaining battery capacity is sufficient, and the test end alarm will not be generated. If the battery voltage is decreased to 47 V within 50 minutes, the simple discharge test is terminated and a related alarm will be generated. In this case, the tested battery is not acceptable. The related alarms are recorded in measurement SET BTSAPMUBP(Optional) reports. NO
NO
For details, see the description of Simple SET BTSAPMUBP(Optional) Discharge Test End Voltage.
NO
NO
Automatic test modes, which are classified into three types, namely, scheduled automatic test mode, and power failure automatic test mode, and scheduled automatic test+power failure automatic test mode. In scheduled automatic test mode, a battery discharge test is performed at a specified interval. In power failure automatic test mode, a battery discharge test is performed SET BTSAPMUBP(Optional) automatically on power-off. NO
NO
Interval between two consecutive automatic SET BTSAPMUBP(Optional) tests.
NO
NO
Interval between the occurrence of a power failure and starting of an automatic test, or between OMU software operations and starting SET BTSAPMUBP(Optional) of an automatic test.
NO
NO
This switch determines whether to enable the BTS3900E power-off function. When the value is ON, the BTS power-off function is enabled; when the value is OFF, the BTS power-off function is SET BTSAPMUBP(Optional) disabled. NO
NO
SET BTSAPMUBP(Mandatory)
SET BTSAPMUBP(Mandatory) SET BTSAUTODLDACTINFO(Ma ndatory)
This parameter indicates the time when the power supply for the BTS is cut off.
NO
YES
This parameter indicates the time when the power-off for the BTS ends and the BTS is powered on again.
NO
YES
Index type of the BTS. BYNAME: query by BTS name; BYID: query by BTS index.
NO
YES
SET BTSAUTODLDACTINFO(Ma Index of the BTS, uniquely identifying a BTS in a ndatory) BSC. YES
YES
Name of the BTS, uniquely identifying a BTS in a BSC. This parameter cannot contain the following invalid characters: ,;="' SET In addition, cell names cannot contain two or BTSAUTODLDACTINFO(Ma more consecutive %, two or more consecutive ndatory) spaces, or more than two consecutive +.
NO
YES
This parameter specifies whether to enable automatic auto-loading and auto-activation of the BTS software. If this parameter is set to Yes, the BTS software is automatically loaded and activated when the BTS is initialized or a board is added; the TMU software is automatically loaded and activated when the BTS is initialized or BSC starts checking res. If this parameter is set to Yes, the BTS software fails to be forcibly loaded SET and activated. If this parameter is set to No, the BTSAUTODLDACTINFO(Opt BTS software can be successfully forcibly loaded ional) and activated. NO
NO
The parameter specifies the work mode for the automatic download and activation of the BTS software. BTS Software Auto DL and ACT indicates that the BTS boards are downloaded SET and activated as required. TMU Software Auto BTSAUTODLDACTINFO(Opt ACT indicates that only the TMU/DTMU/GTMU ional) software is activated.
NO
NO
This parameter specifies the software version 1 that is automatically loaded and activated. The version of the BTS software stored on the OMU must be consistent with this version number. Otherwise, a software version inconsistency alarm is reported. The BTSs may work in hybrid combined cabinets and cabinet groups mode, therefore, two software versions with different version numbers are designed. The second software version can be configured only when the first one has been configured. The second software version is specified by the parameter BTS Version 2. An example of the version format is as follows: BTS3000V100R008C11SPC003. This parameter can be set to only a BTS software version or a cold patch version. You can use either of the following methods to query the version number of the BTS software or the cold patch. Method 1: If the BTS software or the cold patch is downloaded to the OMU through the MML command DLD BTSSW, you can run the MML command LST BTSSW to obtain the number of the version to be loaded according to the returned result. Method 2: If the BTS software version or the cold patch is not downloaded to the OMU, you can decompress the BTS software package or cold patch package. Then, check the vercfg.xml file in SET the level-1 directory of the compressed package. BTSAUTODLDACTINFO(Opt The value after the label "SoftwareVersion" is the ional) software version. NO
NO
This parameter specifies the software version 2 that is automatically loaded and activated. The BTS software stored on the OMU must be consistent with this version number. Otherwise, the software version inconsistency alarm may be reported. An example of the version format is as follows: BTS3000V100R008C11SPC003. This parameter can be set to only a BTS software version or a cold patch version. You can use either of the following methods to query the version number of the BTS software or the cold patch. Method 1: If the BTS software or the cold patch is downloaded to the OMU through the MML command DLD BTSSW, you can run the MML command LST BTSSW to obtain the number of the version to be loaded according to the returned result. Method 2: If the BTS software version or the cold patch is not downloaded to the OMU, you can decompress the BTS software package or cold patch package. Then, check the vercfg.xml file in SET the level-1 directory of the compressed package. BTSAUTODLDACTINFO(Opt The value after the label "SoftwareVersion" is the ional) software version. NO
NO
This parameter specifies the patch version loaded to the BTS. This parameter can be set to only a hot patch version. You can use either of the following methods to query the version number of the BTS hot patch. Method 1: If the BTS hot patch is downloaded to the OMU through the MML command DLD BTSPATCH, you can run the MML command LST BTSPATCH to obtain the number of the hot patch package and the hot patch version according to the returned result. Method 2: If the BTS hot patch is not downloaded to the OMU, you can decompress the BTS hot patch package. Then, check the SET patchcfg.xml file in the level-1 directory of the BTSAUTODLDACTINFO(Opt compressed package. The value after the label ional) "PatchVersion" is the software version. NO
NO
This parameter specifies the automatic load mode of the BTS software. If this parameter is set to common download, common loading is performed on the OML/EML, and the link is not extended. If this parameter is set to quick download(without traffic), quick loading can be performed on the dynamically extended link besides the OML/EML. This may affect the services in the cell. If this parameter is set to quick download(reserve BCCH Trx traffic), quick loading can be performed on the dynamically SET extended link besides the OML/EML. This BTSAUTODLDACTINFO(Opt should not affect the services on the main BCCH ional) TRX of the cell. NO
SET BTSAUTODLDACTINFO(Opt ional) Type of the BTS. SET BTSAUTODLDACTINFO(Ma Main version No. of the TMU board software. It ndatory) is configured according to the actual situation.
NO
NO
NO
NO
YES
SET BTSAUTODLDACTINFO(Ma ndatory) SET BTSAUTODLDACTINFO(Ma ndatory) SET BTSAUTODLDACTINFO(Ma ndatory) SET BTSAUTODLDACTINFO(Ma ndatory) SET BTSAUTODLDACTINFO(Ma ndatory) SET BTSAUTODLDACTINFO(Ma ndatory) SET BTSAUTODLDACTINFO(Ma ndatory) SET BTSAUTODLDACTINFO(Ma ndatory)
ADD BTSAUTOPLAN(Optional)
Sub-version No. of the TMU board. It is configured according to the actual situation.
NO
YES
Patch number of the TMU board software
NO
YES
Month when the TMU board software is released NO
YES
Date when the TMU board software is released
NO
YES
V-version number of the BTS software
NO
YES
R-version number of the BTS software
NO
YES
C-version number of the BTS software
NO
YES
Patch number of the TMU board software
NO
YES
Index of the BTS, uniquely identifying a BTS in a BSC. YES
NO
Name of the BTS, uniquely identifying a BTS in a BSC. This parameter cannot contain the following invalid characters: ,;="' In addition, cell names cannot contain two or ADD more consecutive %, two or more consecutive BTSAUTOPLAN(Mandatory) spaces, or more than two consecutive +.
NO
YES
ADD BTSAUTOPLAN(Mandatory) Type of the BTS
NO
YES
ADD BTSAUTOPLAN(Mandatory) Type of the object the BTS is connected to
NO
YES
ADD BTSAUTOPLAN(Mandatory) Number of the subrack
NO
YES
ADD BTSAUTOPLAN(Mandatory) Number of the slot
NO
YES
ADD Port No. of the BSC board connected with the BTSAUTOPLAN(Mandatory) BTS
NO
YES
ADD BTSAUTOPLAN(Mandatory) Index type of the upper-level BTS
NO
YES
ADD Number of the upper-level BTS. The number is BTSAUTOPLAN(Mandatory) unique in a BSC.
NO
YES
Name of the upper-level BTS. The name is ADD unique in a BSC. The invalid characters (\, /, :, *, BTSAUTOPLAN(Mandatory) ?, ", <, >, |, and #) cannot appear in the name. NO
YES
ADD BTSAUTOPLAN(Mandatory) Cabinet No. for the port of the father BTS
NO
YES
ADD BTSAUTOPLAN(Mandatory) Subrack No. for the port of the father BTS
NO
YES
ADD BTSAUTOPLAN(Mandatory) Slot No. for the port of the father BTS
NO
YES
ADD BTSAUTOPLAN(Mandatory) Number of the port for the destination father BTS NO
YES
Service bearer mode of the BTS. TDM:Time Division Multiplex Mode HDLC:High level Data Link Control Mode HDLC_HubBTS:Hub Base Transceiver Station ADD Mode BTSAUTOPLAN(Mandatory) IP:Internet Protocol Mode
NO
YES
IP address of a BTS. When "BTS Communication Type" is set to LOGICIP, the value of the parameter is the IP address of the BTS. When "BTS Communication Type" is set to PORTIP, the value of this parameter is the same as that of the IP address of the BTS Ethernet port parameter related to "ADD BTSDEVIP". When "BTS Communication Type" is set to PPPLNK or MPGRP, the value of the parameter ADD is the local IP address of the BTS PPP link or BTSAUTOPLAN(Mandatory) BTS MLPPP group. NO
YES
ADD BTSAUTOPLAN(Mandatory) Subnet mask of BTS.
NO
YES
NO
YES
NO
NO
NO
YES
ADD IP address of an interface board on the BSC BTSAUTOPLAN(Mandatory) side When the BTS is accessed from the public ADD network, the BTS security network IP address BTSAUTOPLAN(Optional) must be configured. ADD BTSAUTOPLAN(Mandatory) Bar code 1 of the BTS interface board
Whether the data configuration of the SingleRAN BTS supports normalized SingleRAN mode. Normalized SingleRAN mode means that the rules of defining cabinet number, subrack ADD number, and slot number of the SingleRAN BTS BTSAUTOPLAN(Mandatory) are normalized. NO
YES
ADD BTSAUTOPLAN(Optional)
Index of a cell, uniquely identifying a cell in a BSC
NO
NO
ADD Name of a cell, uniquely identifying a cell in a BTSAUTOPLAN(Mandatory) BSC
NO
YES
Frequency band to which the newly added cell belongs. Only one frequency band can be selected as the frequency band of each new cell and cannot be changed after the selection. To ADD modify the frequency band of the new cell, you BTSAUTOPLAN(Mandatory) must delete the cell and then add it again. NO Mobile country code. This parameter identifies ADD the country where a mobile subscriber is located, BTSAUTOPLAN(Mandatory) for example, the Chinese MCC is 460. NO Mobile network code. This parameter identifies ADD the public land mobile network (PLMN) to which BTSAUTOPLAN(Mandatory) a mobile subscriber belongs. NO
YES
YES
YES
Location area code (LAC). MS can freely move in the local location area with no need of location update. Reasonable local allocation can effectively lighten the signaling load and improve the call completion rate. Can be input in hexadecimal format. The ADD hexadecimal format is H'****, for example, BTSAUTOPLAN(Mandatory) H'1214. NO
YES
Identity code of a cell, A cell is a wireless coverage area identified by a base station identity code and a global cell identification. Can be input in hexadecimal format. The ADD hexadecimal format is H'****, for example, BTSAUTOPLAN(Mandatory) H'1214.
YES
NO
Maximum number of TRXs that can be configured for one cell. For the BTS3900B GSM, when the "Frequency and BSIC Plan Switch" is ON, the "Maximum TRX Number" (one or two, one by default) can be selected. For the BTS3900E GSM, when the "Capacity and Coverage Optimize Switch" is OFF, the ADD "Maximum TRX Number" (one or two, one by BTSAUTOPLAN(Mandatory) default) can be selected. NO IP address of the main clock server. It must be a ADD legal A/B/C type address but not a broadcast BTSAUTOPLAN(Mandatory) address or network address. NO
YES
YES
ADD BTSAUTOPLAN(Optional)
Type of IP physical transmission cable medium, E1 or FE/GE. NO
NO
ADD BTSAUTOPLAN(Optional) SET BTSAUTOPLANCFG(Mandat ory)
Name of a cell template, uniquely identifying a cell template in a BSC.
NO
NO
Index type of the BTS. BYNAME: query by BTS name; BYID: query by BTS index.
NO
YES
SET BTSAUTOPLANCFG(Mandat Index of the BTS, uniquely identifying a BTS in a ory) BSC. YES
YES
Name of the BTS, uniquely identifying a BTS in a BSC. This parameter cannot contain the following invalid characters: ,;="' SET In addition, cell names cannot contain two or BTSAUTOPLANCFG(Mandat more consecutive %, two or more consecutive ory) spaces, or more than two consecutive +.
NO
YES
BTS configuration modes include auto plan mode and normal mode. In auto plan mode, the user can enable the auto planning algorithms and auto optimization SET algorithms according to the BTS type. In normal BTSAUTOPLANCFG(Mandat mode, the auto planning algorithms and auto ory) optimization algorithms are disabled. NO
YES
SET BTSAUTOPLANCFG(Mandat ory) Type of the BTS
YES
NO
If the parameter is set to 1, it indicates that the CGI and RAC data is generated through SET automatic planning. If the parameter is set to 0, it BTSAUTOPLANCFG(Option indicates that the data needs to be manually al) entered. NO SET Mobile country code. This parameter identifies BTSAUTOPLANCFG(Option the country where a mobile subscriber is located, al) for example, the Chinese MCC is 460. NO SET Mobile network code. This parameter identifies BTSAUTOPLANCFG(Option the public land mobile network (PLMN) to which al) a mobile subscriber belongs. NO
NO
NO
NO
Location area code (LAC). MS can freely move in the local location area with no need of location update. Reasonable local allocation can effectively lighten the signaling load and improve the call completion rate. SET Can be input in hexadecimal format. The BTSAUTOPLANCFG(Option hexadecimal format is H'****, for example, al) H'1214. NO
NO
Identity code of a cell, A cell is a wireless coverage area identified by a base station identity code and a global cell identification. SET Can be input in hexadecimal format. The BTSAUTOPLANCFG(Option hexadecimal format is H'****, for example, al) H'1214.
NO
NO
SET BTSAUTOPLANCFG(Option al) Route area of the current cell
NO
NO
If this switch is on, it indicates that the frequency SET and BSIC are generated automatically. If this BTSAUTOPLANCFG(Option switch is off, it indicates that the data must be al) configured manually. NO
NO
If this switch is on, it indicates that the frequency SET and BSIC are generated automatically. If this BTSAUTOPLANCFG(Option switch is off, it indicates that the data must be al) configured manually. NO
NO
Maximum number of TRXs that can be configured for one cell. For the BTS3900B GSM, when the "Frequency and BSIC Plan Switch" is ON, the "Maximum TRX Number" (one or two, one by default) can be selected. For the BTS3900E GSM, when the "Capacity and SET Coverage Optimize Switch" is OFF, the BTSAUTOPLANCFG(Option "Maximum TRX Number" (one or two, one by al) default) can be selected. NO
NO
When this switch is on, it indicates that the data SET of the adjacent cell is generated automatically. BTSAUTOPLANCFG(Option When this switch is off, it indicates that these al) data must be configured manually.
NO
NO
SET BTSAUTOPLANCFG(Option Whether to generate the frequency and BSIC by al) using the automatic optimization algorithm NO
NO
SET Whether to enable the capacity and coverage of BTSAUTOPLANCFG(Option the BTS to be automatically optimized according al) to the actual situation of the incumbent network. NO
NO
Maximum number of TRXs that can be configured for one cell. For the BTS3900B GSM, when the "Frequency and BSIC Plan Switch" is ON, the "Maximum TRX Number" (one or two, one by default) can be selected. For the BTS3900E GSM, when the "Capacity and SET Coverage Optimize Switch" is OFF, the BTSAUTOPLANCFG(Option "Maximum TRX Number" (one or two, one by al) default) can be selected. NO
NO
Local mobile country code (MCC). It is used to SET identify the country that the mobile subscriber BTSAUTOPLANCFG(Option belongs to. For example, the MCC of China is al) 460.
NO
NO
SET BTSAUTOPLANCFG(Option Mobile network code (MNC). It is used to identify al) the PLMN that the mobile subscriber belongs to. NO
NO
Location area code (LAC). The MS can move within the local location area without location update. The reasonable classification of the SET location area is very important for reducing the BTSAUTOPLANCFG(Option signaling load and improving the put-through al) rate.
NO
NO
SET Cell identity code. The cell is a radio coverage BTSAUTOPLANCFG(Option area that is identified by the BTS identity code al) and global cell identity code.
NO
NO
SET BTSAUTOPLANCFG(Option al) Route area of the current cell
NO
NO
SET The Self Organise Network finds out the BTSAUTOPLANCFG(Option redundant or missing neighboring cells by al) analyzing the measurement reports.
NO
NO
When this parameter is set to YES, a singlefrequency cell is configured and it has a O1 configuration. The pico BTS scans frequency bands A and B. Based on the frequency scanning result reported by the pico BTS, the Self Organise Network selects the optimum frequency as the working frequency. That is, the SET frequency with the minimum interference is BTSAUTOPLANCFG(Option planned as the working frequency of the pico al) BTS. NO
NO
SET BTSAUXEQP(Mandatory)
Type of an index.
YES
SET BTSAUXEQP(Mandatory)
Index of the BTS, uniquely identifying a BTS in a BSC. YES
NO
YES
Name of the BTS, uniquely identifying a BTS in a BSC. This parameter cannot contain the following invalid characters: ,;="'
SET BTSAUXEQP(Mandatory)
In addition, cell names cannot contain two or more consecutive %, two or more consecutive spaces, or more than two consecutive +.
NO
YES
Auxiliary devices of rack 0. This parameter contains eight bits. The eight bits, from the most significant bit to the least significant bit, indicate whether to install a voltage stabilizer, internal battery, transmission power supply, temperature control unit, auxiliary device 5, auxiliary device 6, auxiliary device 7, and auxiliary device 8. When a bit is set to 1, the relevant auxiliary device is installed. When a bit is set to 0, the relevant auxiliary device is not installed. For example, if this parameter is set to 10000000, rack 0 is configured with an auxiliary SET BTSAUXEQP(Optional) voltage stabilizer. NO
NO
Auxiliary devices of rack 1. This parameter contains eight bits. The eight bits, from the most significant bit to the least significant bit, indicate whether to install a voltage stabilizer, internal battery, transmission power supply, temperature control unit, auxiliary device 5, auxiliary device 6, auxiliary device 7, and auxiliary device 8. When a bit is set to 1, the relevant auxiliary device is installed. When a bit is set to 0, the relevant auxiliary device is not installed. For example, if this parameter is set to 10000000, rack 1 is configured with an auxiliary SET BTSAUXEQP(Optional) voltage stabilizer. NO
NO
Auxiliary devices of rack 2. This parameter contains eight bits. The eight bits, from the most significant bit to the least significant bit, indicate whether to install a voltage stabilizer, internal battery, transmission power supply, temperature control unit, auxiliary device 5, auxiliary device 6, auxiliary device 7, and auxiliary device 8. When a bit is set to 1, the relevant auxiliary device is installed. When a bit is set to 0, the relevant auxiliary device is not installed. For example, if this parameter is set to 10000000, rack 2 is configured with an auxiliary SET BTSAUXEQP(Optional) voltage stabilizer. NO
NO
SET BTSBAKPWR(Mandatory)
Type of an index.
YES
SET BTSBAKPWR(Mandatory)
Index of the BTS, uniquely identifying a BTS in a BSC. YES
NO
YES
Name of the BTS, uniquely identifying a BTS in a BSC. This parameter cannot contain the following invalid characters: ,;="'
SET BTSBAKPWR(Mandatory)
In addition, cell names cannot contain two or more consecutive %, two or more consecutive spaces, or more than two consecutive +.
NO
YES
SET BTSBAKPWR(Mandatory)
This parameter specifies the method of saving the BTS backup power. When this parameter is set to "Turn off TRX", the BSC preferentially shuts down some TRXs when the BTS experiences a power failure. When this parameter is set to "Reduce Backup Power", the BSC saves the power according to the configured "Backup Power Saving Policy" when the BTS experiences a power failure.
NO
YES
This parameter specifies the backup power saving policy of the BTS. When this parameter is set to "Cover Priority", the BTS shuts down some TRXs, waits for a certain period of time, and then decreases the power of the BCCH TRX. When this parameter is set to "Capability Priority", the BTS decreases the power of the BCCH TRX, waits for a certain period of time, and then shuts down some TRXs. When this parameter is set to "Saving Priority", the BTS shuts down some TRXs and meanwhile SET BTSBAKPWR(Optional) decreases the power of the BCCH TRX. NO
NO
This parameter specifies the delay time before SET BTSBAKPWR(Optional) decreasing the power of the TRXs.
NO
NO
This parameter specifies the delay time before shutting down the TRXs when the BTS SET BTSBAKPWR(Optional) experiences a power failure.
NO
NO
This parameter specifies the interval at which the SET BTSBAKPWR(Optional) power of a TRX is continually decreased. NO
NO
This parameter specifies the step by which the SET BTSBAKPWR(Optional) power of a TRX is decreased at a time.
NO
NO
This parameter specifies the largest step of each SET BTSBAKPWR(Optional) TRX power reduction. NO
NO
Time interval between the time when the BTS detects that the external power supply is shut down and the time when the backup power decrease function is started. This parameter is valid in the BTSs that support the backup power SET BTSBAKPWR(Optional) decrease function. NO
NO
SET BTSBAT(Mandatory)
Type of an index.
YES
SET BTSBAT(Mandatory)
Index of the BTS, uniquely identifying a BTS in a BSC. YES
NO
YES
Name of the BTS, uniquely identifying a BTS in a BSC. This parameter cannot contain the following invalid characters: ,;="'
SET BTSBAT(Mandatory)
In addition, cell names cannot contain two or more consecutive %, two or more consecutive spaces, or more than two consecutive +. NO Type of the cabinet. The slot and subrack arrangements in a cabinet vary according to the cabinet type. NO
SET BTSBAT(Optional)
Bus voltage of the battery rack of the BTS
NO
NO
SET BTSBAT(Optional)
Whether to configure a battery rack for rack 0
NO
NO
SET BTSBAT(Mandatory)
Type of the battery rack configured for rack 0
NO
YES
SET BTSBAT(Mandatory)
YES
YES
SET BTSBAT(Mandatory)
Capacity of the battery rack configured for rack 0 NO
YES
SET BTSBAT(Mandatory)
Ratio of the maximum charging current of the battery pack configured for rack 0 to the capacity of the battery pack. For example, assume that the battery pack has a capacity of 200 AH. If this parameter is set to 0.15C, the maximum charging current of the battery pack is 30 A (= 0.15 x 200). NO
YES
SET BTSBAT(Optional)
Whether to configure a battery rack for rack 1
NO
NO
SET BTSBAT(Mandatory)
Type of the battery rack configured for rack 1
NO
YES
SET BTSBAT(Mandatory)
Capacity of the battery rack configured for rack 1 NO
YES
SET BTSBAT(Mandatory)
Ratio of the maximum charging current of the battery pack configured for rack 1 to the capacity of the battery pack. For example, assume that the battery pack has a capacity of 200 AH. If this parameter is set to 0.15C, the maximum charging current of the battery pack is 30 A (= 0.15 x 200). NO
YES
SET BTSBAT(Optional)
Whether to configure a battery rack for rack 2
NO
NO
SET BTSBAT(Mandatory)
Type of the battery rack configured for rack 2
NO
YES
SET BTSBAT(Mandatory)
Capacity of the battery rack configured for rack 2 NO
YES
SET BTSBAT(Mandatory)
Ratio of the maximum charging current of the battery pack configured for rack 2 to the capacity of the battery pack. For example, assume that the battery pack has a capacity of 200 AH. If this parameter is set to 0.15C, the maximum charging current of the battery pack is 30 A (= 0.15 x 200). NO
YES
SET BTSBAT(Optional)
Threshold for interrupting the power supply to the TRXs. If the BTS works with the battery power supply, when the battery voltage is less than this threshold, the BTS interrupts the power supply to the TRXs to protect the lower-level BTSs from being affected. NO
NO
Threshold for interrupting the power supply to the TMU. If the BTS works with the battery power supply, when the battery voltage is less than this threshold, the BTS interrupts the power supply to the TMU. NO
NO
Type of an index.
YES
SET BTSBAT(Optional) ADD BTSBFD(Mandatory) MOD BTSBFD(Mandatory) RMV BTSBFD(Mandatory) ADD BTSBFD(Mandatory) MOD BTSBFD(Mandatory) RMV BTSBFD(Mandatory)
NO
Index of the BTS, uniquely identifying a BTS in a BSC. YES
YES
Name of the BTS, uniquely identifying a BTS in a BSC. This parameter cannot contain the following invalid characters: ,;="' ADD BTSBFD(Mandatory) MOD BTSBFD(Mandatory) RMV BTSBFD(Mandatory)
In addition, cell names cannot contain two or more consecutive %, two or more consecutive spaces, or more than two consecutive +.
NO
YES
ADD BTSBFD(Optional)
Number of the cabinet
NO
NO
ADD BTSBFD(Optional)
Number of the subrack where the BTS board is located
NO
NO
Number of the slot where the BTS board is located
NO
NO
BFD Session No.
YES
YES
ADD BTSBFD(Mandatory)
Source IP address of BFD Session.
NO
YES
ADD BTSBFD(Mandatory)
Destination IP address of BFD Session.
NO
YES
ADD BTSBFD(Mandatory)
Bidirectional Forwarding Detection Hop Type.
NO
YES
ADD BTSBFD(Optional) MOD BTSBFD(Optional)
Time for which the BTS waits to restore a BFD session
NO
NO
ADD BTSBFD(Optional) MOD BTSBFD(Optional)
Minimum interval at which the BTS sends BFD packets
NO
NO
ADD BTSBFD(Optional) MOD BTSBFD(Optional)
Minimum interval at which the BTS receives BFD packets NO
NO
ADD BTSBFD(Optional) MOD BTSBFD(Optional)
Maximum number of periods in which the local end does not receive BFD packets from the peer end. If the number of periods in which the local end does not receive BFD packets from the peer end reaches this parameter, the BTS reports a BFD session fail. NO
NO
ADD BTSBFD(Optional) ADD BTSBFD(Mandatory) MOD BTSBFD(Mandatory) RMV BTSBFD(Mandatory)
MOD BTSBFD(Optional) RMV BTSBFD(Optional)
Number of the cabinet.
NO
NO
MOD BTSBFD(Optional) RMV BTSBFD(Optional)
Number of the subrack where the BTS board is located
NO
NO
MOD BTSBFD(Optional) RMV BTSBFD(Optional)
Number of the slot where the BTS board is located
NO
NO
NO
YES
ADD BTSBIND2HDLCPATH(Mand atory) RMV BTSBIND2HDLCPATH(Mand atory) MOD BTSBIND2HDLCPATH(Mand Index type. BYNAME: query by name; BYID: atory) query by index.
ADD BTSBIND2HDLCPATH(Mand atory) RMV BTSBIND2HDLCPATH(Mand atory) MOD BTSBIND2HDLCPATH(Mand Index of the BTS, uniquely identifying a BTS in a atory) BSC. YES
YES
ADD BTSBIND2HDLCPATH(Mand atory) RMV BTSBIND2HDLCPATH(Mand atory) MOD BTSBIND2HDLCPATH(Mand atory)
NO
YES
ADD BTSBIND2HDLCPATH(Mand atory) RMV BTSBIND2HDLCPATH(Mand atory) MOD BTSBIND2HDLCPATH(Mand Number of a BTS HDLC path. It is unique in one atory) [BTS]. NO
YES
Name of the BTS, uniquely identifying a BTS in a BSC. This parameter cannot contain the following invalid characters: ,;="' In addition, cell names cannot contain two or more consecutive %, two or more consecutive spaces, or more than two consecutive +.
ADD BTSBINDLOCGRP(Mandator y) RMV BTSBINDLOCGRP(Mandator Index type of the BTS. BYNAME: query by BTS y) name; BYID: query by BTS index.
NO
ADD BTSBINDLOCGRP(Mandator y) RMV BTSBINDLOCGRP(Mandator Index of the BTS, uniquely identifying a BTS in a y) BSC. YES
YES
YES
Name of the BTS, uniquely identifying a BTS in a BSC. This parameter cannot contain the following invalid characters: ADD BTSBINDLOCGRP(Mandator y) RMV BTSBINDLOCGRP(Mandator y)
,;="' In addition, cell names cannot contain two or more consecutive %, two or more consecutive spaces, or more than two consecutive +.
NO
YES
ADD BTSBINDLOCGRP(Mandator Number of main location group. Each cell y) contains only one main location group.
NO
YES
ADD BTSBINDLOCGRP(Mandator y) RMV BTSBINDLOCGRP(Mandator No. of the location group under the BTS. The y) location group No. is unique for each BTS.
YES
YES
The ID of TRX added in the main location group,the TRX ID must be globally unique. The same TRX cannot be bound by the TRX boards in a same location group for multiple times. YES
YES
Number of the cabinet.
NO
YES
Number of the subrack where the BTS board is located
NO
YES
Number of the slot where the BTS board is located
NO
YES
ADD BTSBINDLOCGRP(Mandator y) RMV BTSBINDLOCGRP(Mandator y)
ADD BTSBINDLOCGRP(Mandator y) ADD BTSBINDLOCGRP(Mandator y) ADD BTSBINDLOCGRP(Mandator y)
ADD TRX board pass number in the sub-location BTSBINDLOCGRP(Mandator group to which the TRX of the main location y) group is bound
NO
YES
Antenna pass No. of the RXU of a sub-location group. The parameter is configured only when ADD the MRRU or GRRU is used in the sub-location BTSBINDLOCGRP(Optional) group.
NO
NO
ADD BTSBRD(Mandatory) RMV BTSBRD(Mandatory) MOD BTSBRD(Mandatory) TST BTSBRD(Mandatory)
Index type. BYNAME: query by name; BYID: query by index.
NO
YES
ADD BTSBRD(Mandatory) RMV BTSBRD(Mandatory) MOD BTSBRD(Mandatory) TST BTSBRD(Mandatory)
Index of the BTS, uniquely identifying a BTS in a BSC. YES
YES
Name of the BTS, uniquely identifying a BTS in a BSC. This parameter cannot contain the following invalid characters: ,;="' ADD BTSBRD(Mandatory) RMV BTSBRD(Mandatory) MOD BTSBRD(Mandatory) TST BTSBRD(Mandatory)
ADD BTSBRD(Optional) RMV BTSBRD(Optional) MOD BTSBRD(Optional) ADD BTSBRD(Mandatory) RMV BTSBRD(Mandatory) MOD BTSBRD(Mandatory) ADD BTSBRD(Mandatory) RMV BTSBRD(Mandatory) MOD BTSBRD(Mandatory)
In addition, cell names cannot contain two or more consecutive %, two or more consecutive spaces, or more than two consecutive +.
NO
YES
Number of the cabinet.
YES
NO
Number of the subrack where the BTS board is located
YES
YES
Number of the slot where the BTS board is located
YES
YES
ADD BTSBRD(Mandatory)
Type of the newly added board
NO
YES
ADD BTSBRD(Optional) MOD BTSBRD(Optional)
Card Frequency Attribute.
NO
NO
MOD BTSBRD(Optional)
Type of the board
NO
NO
OPR BTSBRDPWR(Mandatory)
Index type. BYNAME: query by name; BYID: query by index.
NO
YES
OPR BTSBRDPWR(Mandatory)
Index of the BTS, uniquely identifying a BTS in a BSC. NO
YES
Name of the BTS, uniquely identifying a BTS in a BSC. This parameter cannot contain the following invalid characters: ,;="'
OPR BTSBRDPWR(Mandatory)
In addition, cell names cannot contain two or more consecutive %, two or more consecutive spaces, or more than two consecutive +.
NO
YES
OPR BTSBRDPWR(Mandatory)
Number of the cabinet.
NO
YES
OPR BTSBRDPWR(Mandatory)
Number of the subrack where the BTS board is located
NO
YES
OPR BTSBRDPWR(Mandatory)
Number of the slot where the BTS board is located.
NO
YES
NO
YES
NO
YES
OPR BTSBRDPWR(Mandatory) Power switch state. SET BTSBREAKPOINT(Mandator Index type of the BTS. BYNAME: query by BTS y) name; BYID: query by BTS index.
SET BTSBREAKPOINT(Mandator Index of the BTS, uniquely identifying a BTS in a y) BSC. YES
YES
Name of the BTS, uniquely identifying a BTS in a BSC. This parameter cannot contain the following invalid characters: ,;="' SET In addition, cell names cannot contain two or BTSBREAKPOINT(Mandator more consecutive %, two or more consecutive y) spaces, or more than two consecutive +.
NO
Number of the RXU chain or ring. The value scope is 0~11 for Non-SingleRAN BTS and SET 0~249 for SingleRAN BTS. The RXU chain No. BTSBREAKPOINT(Mandator is unique in the same BTS. A maximum of 12 y) RXU chains can be configured in one BTS. YES Position of break point 1 in an RXU chain. The SET number of break points must not be greater than BTSBREAKPOINT(Optional) the number of RXU boards in the RXU chain. NO Position of break point 2 in an RXU chain. The SET number of break points must not be greater than BTSBREAKPOINT(Optional) the number of RXU boards in the RXU chain. NO
YES
YES
NO
NO
SET BTSBWPARA(Mandatory)
Index type. BYNAME: query by name; BYID: query by index.
SET BTSBWPARA(Mandatory)
Index of the BTS, uniquely identifying a BTS in a BSC. YES
NO
YES
YES
Name of the BTS, uniquely identifying a BTS in a BSC. This parameter cannot contain the following invalid characters: ,;="'
SET BTSBWPARA(Mandatory)
In addition, cell names cannot contain two or more consecutive %, two or more consecutive spaces, or more than two consecutive +.
NO
YES
SET BTSBWPARA(Mandatory)
Transmission Type.
NO
YES
SET BTSBWPARA(Mandatory)
Average up-bandwidth of RSL link in BTS.
NO
YES
SET BTSBWPARA(Mandatory)
Average down-bandwidth of RSL link in BTS.
NO
YES
SET BTSBWPARA(Mandatory)
The summation of average up-bandwidth of OML&ESL link in BTS.
NO
YES
SET BTSBWPARA(Mandatory)
The summation of average down-bandwidth of OML&ESL link in BTS.
NO
YES
SET BTSBWPARA(Optional) BTS compress rate.
NO
NO
ADD BTSCABINET(Mandatory) RMV BTSCABINET(Mandatory) MOD BTSCABINET(Mandatory)
Index type of the BTS. BYNAME: query by BTS name; BYID: query by BTS index.
NO
YES
ADD BTSCABINET(Mandatory) RMV BTSCABINET(Mandatory) MOD BTSCABINET(Mandatory)
Index of the BTS, uniquely identifying a BTS in a BSC. YES
YES
Name of the BTS, uniquely identifying a BTS in a BSC. This parameter cannot contain the following invalid characters: ADD BTSCABINET(Mandatory) RMV BTSCABINET(Mandatory) MOD BTSCABINET(Mandatory) ADD BTSCABINET(Mandatory) RMV BTSCABINET(Mandatory) MOD BTSCABINET(Mandatory)
,;="' In addition, cell names cannot contain two or more consecutive %, two or more consecutive spaces, or more than two consecutive +.
NO
YES
Number of the cabinet.
YES
YES
Whether the data configuration of the SingleRAN BTS supports normalized SingleRAN mode. Normalized SingleRAN mode means that the rules of defining cabinet number, subrack number, and slot number of the SingleRAN BTS ADD BTSCABINET(Optional) are normalized. NO
NO
Type of a cabinet. The virtual cabinet can be used for office deployment. For example, a BBU that is installed in an open rack can be considered to be installed in a virtual cabinet. Any board can be hold by a virtual cabinet, but not all the subracks in the virtual cabinet can be ADD BTSCABINET(Optional) displayed on the device panel of LMT. NO ADD BTSCABINET(Optional) MOD BTSCABINET(Mandatory) Descriptive information of the BTS cabinet NO SET BTSCABPARA(Mandatory)
Index type of the BTS. BYNAME: query by BTS name; BYID: query by BTS index.
SET BTSCABPARA(Mandatory)
Index of the BTS, uniquely identifying a BTS in a BSC. YES
NO
NO
NO
YES
YES
Name of the BTS, uniquely identifying a BTS in a BSC. This parameter cannot contain the following invalid characters: ,;="'
SET BTSCABPARA(Mandatory)
In addition, cell names cannot contain two or more consecutive %, two or more consecutive spaces, or more than two consecutive +.
NO
YES
SET BTSCABPARA(Mandatory)
Number of the cabinet.
YES
YES
SET BTSCABPARA(Mandatory)
Whether to enable the board parameters to be configured. If this parameter is set to "YES", the user can set board parameters of the BTS cabinet. Otherwise, the user cannot set the board parameters. NO
YES
SET BTSCABPARA(Optional)
Temperature threshold of the derating function of the cabinet
NO
NO
SET BTSCABPARA(Optional)
Normal work temperature threshold of the cabinet
NO
NO
SET BTSCABPARA(Optional)
Minimum number of reserved working status TRXs of the cabinet
NO
NO
SET BTSCAVFRQ(Mandatory)
Index type. BYNAME: query by name; BYID: query by index.
NO
YES
SET BTSCAVFRQ(Mandatory)
Index of the BTS, uniquely identifying a BTS in a BSC. NO
YES
Name of the BTS, uniquely identifying a BTS in a BSC. This parameter cannot contain the following invalid characters: ,;="'
SET BTSCAVFRQ(Mandatory)
In addition, cell names cannot contain two or more consecutive %, two or more consecutive spaces, or more than two consecutive +.
SET BTSCAVFRQ(Optional) Number of the cabinet
NO
YES
NO
NO
SET BTSCAVFRQ(Mandatory)
Number of the subrack where the BTS board is located
SET Number of the slot where the BTS board is BTSCAVFRQ(Mandatory) located SET BTSCHNFALLBACK(Mandat ory) Type of an index.
NO
YES
NO
YES
NO
YES
SET BTSCHNFALLBACK(Mandat Index of the BTS, uniquely identifying a BTS in a ory) BSC. YES
YES
Name of the BTS, uniquely identifying a BTS in a BSC. This parameter cannot contain the following invalid characters: ,;="' SET In addition, cell names cannot contain two or BTSCHNFALLBACK(Mandat more consecutive %, two or more consecutive ory) spaces, or more than two consecutive +.
NO
YES
SET BTSCHNFALLBACK(Mandat ory) Number of the channel in the TRX
YES
YES
Channel type of the timeslot on the TRX. The channel type of timeslot 0 must not be set, SET because the combined BCCH is configured by BTSCHNFALLBACK(Mandat default. The channel type of other timeslots can ory) be set to full-rate TCH or half-rate TCH.
NO
YES
Number of the VGCS call that the BTS originates in the timeslot in the TRX in fallback mode. This parameter is represented in decimal, such as SET 10000569. If this parameter is set to 100000000, BTSCHNFALLBACK(Mandat the channel is not configured with any fixed ory) group call. NO
YES
SET Speech version mode that the BTS uses for the BTSCHNFALLBACK(Mandat VGCS call number in the timeslot in the TRX in ory) fallback mode
NO
YES
Number of the VGCS call that the BTS originates in the timeslot in the TRX in fallback mode. This parameter is represented in decimal, such as SET 10000569. If this parameter is set to 100000000, BTSCHNFALLBACK(Mandat the channel is not configured with any fixed ory) group call. NO
YES
SET Speech version mode that the BTS uses for the BTSCHNFALLBACK(Mandat VGCS call number in the timeslot in the TRX in ory) fallback mode
NO
YES
Speech version configured on the TRX timeslot when the BTS works in fallback mode. When "CHNTYPE" of the TRX timeslot is set to "FULLTCH", value 0 of this parameter indicates SET FR and value 1 indicates EFR; when BTSCHNFALLBACK(Mandat "CHNTYPE" of the TRX timeslot is set to ory) "HALFRCH", this parameter is invalid.
NO
YES
SET BTSCLK(Mandatory)
Type of an index.
NO
YES
SET BTSCLK(Mandatory)
Index of the BTS, uniquely identifying a BTS in a BSC. YES
YES
Name of the BTS, uniquely identifying a BTS in a BSC. This parameter cannot contain the following invalid characters: ,;="'
SET BTSCLK(Mandatory)
In addition, cell names cannot contain two or more consecutive %, two or more consecutive spaces, or more than two consecutive +.
NO
YES
SET BTSCLK(Mandatory)
Clock mode of the BTS. If this parameter is set to INT_CLK, the BTS does not track any external clock. The internal high precision clock works in free-run mode. If this parameter is set to TRCBSC_CLK, the BTS tracks the clock signals received from the BSC. If this parameter is set to EXCLK, the BTS tracks the clock signals received from the external input clock. If this parameter is set to IP_TIME, the BTS shakes hands through the IP network with the IP clock server for synchronization. If this parameter is set to IP_TRANSFER, the BTS extracts the clock from an E1 when there is not an IP clock after the BTS upgrades the transmission mode from E1 transmission to IP transmission. If this parameter is set to TRCGPS_CLK, the BTS extracts the clock through the DGPS from the GPS. If this parameter is set to UM_CLK, the BTS keeps pace with the signals broadcast on the downlink main BCCH of a neighboring BTS. If this parameter is set to PEER_CLK, the multimode BTS(GSM) keeps pace with the signals that the other mode offer. If this parameter is set to SYNETH_CLK, the multimode BTS(GSM) keeps pace with the SynEth Clock. NO
YES
SET BTSCLK(Optional)
Type of trans from which the BTS extracts the transport clock. This parameter is valid only when the clock type is set to "Trace Transport Clock" and "SynEth Clock".
NO
SET BTSCLK(Mandatory)
Number of port from which the BTS extracts the transport clock. This parameter is valid only when the clock type is set to "Trace Transport Clock" and "SynEth Clock". NO
NO
YES
SET BTSCLK(Optional)
Number of cabinet from which the BTS extracts the transport clock. This parameter is valid only when the clock type is set to "Trace Transport Clock" and "SynEth Clock".
NO
NO
SET BTSCLK(Optional)
Number of subrack from which the BTS extracts the transport clock. This parameter is valid only when the clock type is set to "Trace Transport Clock" and "SynEth Clock". NO
NO
SET BTSCLK(Optional)
Number of slot from which the BTS extracts the transport clock. This parameter is valid only when the clock type is set to "Trace Transport Clock" and "SynEth Clock".
NO
NO
SAV BTSCLKPARA(Mandatory) SET BTSCLKPARA(Mandatory)
Index type. BYNAME: query by name; BYID: query by index.
NO
YES
SAV BTSCLKPARA(Mandatory) SET BTSCLKPARA(Mandatory)
Index of the BTS, uniquely identifying a BTS in a BSC. NO
YES
Name of the BTS, uniquely identifying a BTS in a BSC. This parameter cannot contain the following invalid characters: ,;="' SAV BTSCLKPARA(Mandatory) SET BTSCLKPARA(Mandatory)
In addition, cell names cannot contain two or more consecutive %, two or more consecutive spaces, or more than two consecutive +.
NO
YES
SET BTSCLKPARA(Optional) Number of the cabinet
NO
NO
SET BTSCLKPARA(Mandatory)
Number of the subrack where the BTS board is located
NO
YES
SET BTSCLKPARA(Mandatory)
Number of the slot where the BTS board is located
NO
YES
SET BTSCLKPARA(Mandatory)
Clock mode of the BTS. If this parameter is set to INCLK, the BTS does not track any external clock. The internal high precision clock works in free-run mode. If this parameter is set to BSCCLK, the BTS tracks the clock signals received from the BSC. If this parameter is set to EXCLK, the BTS tracks the clock signals received from the external input clock. If this parameter is set to IPCLK, the BTS shakes hands through the IP network with the IP clock server for synchronization. If this parameter is set to TRANSCLK, the BTS extracts the clock from an E1 when there is not an IP clock after the BTS upgrades the transmission mode from E1 transmission to IP transmission. If this parameter is set to GPSCLK, the BTS extracts the clock through the DGPS from the GPS. If this parameter is set to UMCLK, the BTS keeps pace with the signals broadcast on the downlink main BCCH of a neighboring BTS. If this parameter is set to PEERCLK, the multimode BTS(GSM) keeps pace with the signals that the other mode offer. NO
YES
SET BTSCLKPARA(Mandatory)
Whether to enable the limit of the tracing range
NO
YES
SET BTSCLKPARA(Mandatory)
Calibration value of the BTS clock
NO
YES
ADD BTSCONNECT(Mandatory) RMV BTSCONNECT(Mandatory) MOD BTSCONNECT(Mandatory)
Index type. BYNAME: query by name; BYID: query by index.
NO
YES
ADD BTSCONNECT(Mandatory) RMV BTSCONNECT(Mandatory) MOD BTSCONNECT(Mandatory)
Index of the BTS, uniquely identifying a BTS in a BSC. YES
YES
Name of the BTS, uniquely identifying a BTS in a BSC. This parameter cannot contain the following invalid characters: ADD BTSCONNECT(Mandatory) RMV BTSCONNECT(Mandatory) MOD BTSCONNECT(Mandatory)
,;="' In addition, cell names cannot contain two or more consecutive %, two or more consecutive spaces, or more than two consecutive +.
NO
YES
ADD BTSCONNECT(Mandatory) RMV BTSCONNECT(Mandatory) MOD BTSCONNECT(Mandatory)
Number of a BTS port
YES
YES
ADD BTSCONNECT(Optional) RMV BTSCONNECT(Optional) MOD BTSCONNECT(Optional)
Number of the in-port cabinet on a BTS
YES
NO
ADD BTSCONNECT(Optional) RMV BTSCONNECT(Optional) MOD BTSCONNECT(Optional)
Number of the in-port subrack on a BTS
YES
NO
ADD BTSCONNECT(Optional) RMV BTSCONNECT(Optional) MOD BTSCONNECT(Optional)
Number of the in-port slot on a BTS
YES
NO
ADD BTSCONNECT(Mandatory) MOD BTSCONNECT(Mandatory)
Type of the object the BTS is connected to. Value range: BTS, BSC, and DXX
NO
YES
ADD BTSCONNECT(Mandatory) MOD BTSCONNECT(Mandatory)
Subrack number of the BSC board that is connected to the BTS
NO
YES
ADD BTSCONNECT(Mandatory) MOD BTSCONNECT(Mandatory)
Slot number of the BSC board that is connected to the BTS NO
YES
ADD BTSCONNECT(Mandatory) MOD BTSCONNECT(Mandatory)
Number of the port through which the BTS is connected to the BSC
NO
YES
ADD BTSCONNECT(Mandatory) MOD BTSCONNECT(Mandatory)
Index type of the upper-level BTS
NO
YES
ADD BTSCONNECT(Mandatory) MOD BTSCONNECT(Mandatory)
Number of the upper-level BTS. The number is unique in a BSC.
NO
YES
ADD BTSCONNECT(Mandatory) MOD BTSCONNECT(Mandatory)
Name of the upper-level BTS. The name is unique in a BSC. The invalid characters (\, /, :, *, ?, ", <, >, |, and #) cannot appear in the name. NO
YES
ADD BTSCONNECT(Mandatory) MOD BTSCONNECT(Mandatory)
Number of the port for the destination father BTS NO
YES
ADD BTSCONNECT(Optional) MOD BTSCONNECT(Optional)
Cabinet No. for the port of the father BTS
NO
NO
ADD BTSCONNECT(Optional) MOD BTSCONNECT(Optional)
Subrack No. for the port of the father BTS
NO
NO
ADD BTSCONNECT(Optional) MOD BTSCONNECT(Optional)
Slot No. for the port of the father BTS
NO
NO
ADD BTSCONNECT(Mandatory) MOD BTSCONNECT(Mandatory)
Number of a DXX. It is unique in one BSC and uniquely identifies a DXX.
NO
YES
ADD BTSCONNECT(Mandatory) MOD BTSCONNECT(Mandatory)
Number of the upper DXX port
NO
YES
SET BTSCRC4(Mandatory)
Type of an index.
NO
SET BTSCRC4(Mandatory)
Index of the BTS, uniquely identifying a BTS in a BSC. YES
YES
YES
Name of the BTS, uniquely identifying a BTS in a BSC. This parameter cannot contain the following invalid characters: ,;="'
SET BTSCRC4(Mandatory)
In addition, cell names cannot contain two or more consecutive %, two or more consecutive spaces, or more than two consecutive +.
NO
YES
SET BTSCRC4(Mandatory)
Whether to enable the BTS to support CRC4 check
NO
YES
SET BTSCTRL(Mandatory)
Index type. BYNAME: query by name; BYID: query by index.
NO
YES
SET BTSCTRL(Mandatory)
Index of the BTS, uniquely identifying a BTS in a BSC. NO
YES
Name of the BTS, uniquely identifying a BTS in a BSC. This parameter cannot contain the following invalid characters: ,;="'
SET BTSCTRL(Mandatory)
In addition, cell names cannot contain two or more consecutive %, two or more consecutive spaces, or more than two consecutive +.
NO
YES
SET BTSCTRL(Mandatory)
Number of the BSC subrack where the XPU of the control plane is located
NO
YES
SET BTSCTRL(Mandatory)
Number of the BSC slot where the XPU of the control plane is located
NO
YES
SET BTSDATUBP(Mandatory)
Index type of the BTS. BYNAME: query by BTS name; BYID: query by BTS index.
NO
YES
SET BTSDATUBP(Mandatory)
Index of the BTS, uniquely identifying a BTS in a BSC. YES
YES
Name of the BTS, uniquely identifying a BTS in a BSC. This parameter cannot contain the following invalid characters: ,;="'
SET BTSDATUBP(Mandatory)
In addition, cell names cannot contain two or more consecutive %, two or more consecutive spaces, or more than two consecutive +.
NO
YES
SET BTSDATUBP(Optional)
Number of the cabinet.
YES
NO
SET BTSDATUBP(Mandatory)
Number of the subrack where the BTS board is located
YES
YES
SET BTSDATUBP(Mandatory)
Number of the slot where the BTS board is located
YES
YES
SET BTSDATUBP(Mandatory)
Whether to allow the configuration of board parameters. The value "YES" indicates that the configuration is allowed, and the value "NO" indicates that the configuration is not allowed. If the parameter is set to "YES", all the other parameters controlled by it are reset to the default values in this command. In multi-mode scenario, the value of this parameter in this mode must be the same as the value of the corresponding parameter in another mode. NO
YES
SET BTSDATUBP(Optional)
Whether to supply power to the TMA on tributary 0 NO
NO
SET BTSDATUBP(Optional)
Alarm mode of feed tributary 0. There are three alarm modes. Alarm mode 1 has only one type of alarms. The alarm current is fixed and greater than the normal working current. Alarm mode 2 has two types of alarms: warning alarms and critical alarms. The alarm current is fixed and greater than the normal working current. Alarm mode 3 has two types of alarms: warning alarms and critical alarms. The warning alarm current is periodical pulse current, while the critical alarm current is fixed.
NO
NO
SET BTSDATUBP(Optional)
Critical alarm threshold against excessive TMA feed current of feed tributary 0. When the actual current is greater than the specified value, a TMA feed current critical alarm is generated. NO
NO
SET BTSDATUBP(Optional)
Warning alarm threshold against excessive TMA feed current of feed tributary 0. When the actual current is greater than the specified value, a TMA feed current warning alarm is generated. NO
NO
SET BTSDATUBP(Optional)
If the feed current of the TMA on tributary 0 is smaller than the value of this parameter, the TMA Low Temperature alarm is triggered.
NO
NO
SET BTSDATUBP(Optional)
Whether to supply power to the TMA on tributary 1 NO
NO
SET BTSDATUBP(Optional)
Alarm mode of feed tributary 1. There are three alarm modes. Alarm mode 1 has only one type of alarms. The alarm current is fixed and greater than the normal working current. Alarm mode 2 has two types of alarms: warning alarms and critical alarms. The alarm current is fixed and greater than the normal working current. Alarm mode 3 has two types of alarms: warning alarms and critical alarms. The warning alarm current is periodical pulse current, while the critical alarm current is fixed.
NO
NO
SET BTSDATUBP(Optional)
Critical alarm threshold against excessive TMA feed current of feed tributary 1. When the actual current is greater than the specified value, the TMA feed current critical alarm is generated. NO
NO
SET BTSDATUBP(Optional)
Warning alarm threshold against excessive TMA feed current of feed tributary 1. When the actual current is greater than the specified value, the TMA feed current warning alarm is generated. NO
NO
SET BTSDATUBP(Optional)
If the feed current of the TMA on tributary 1 is smaller than the value of this parameter, the TMA Low Temperature alarm is triggered.
NO
NO
SET BTSDATUBP(Optional)
Whether to supply power to the TMA on tributary 2 NO
NO
SET BTSDATUBP(Optional)
Alarm mode of feed tributary 2. There are three alarm modes. Alarm mode 1 has only one type of alarms. The alarm current is fixed and greater than the normal working current. Alarm mode 2 has two types of alarms: warning alarms and critical alarms. The alarm current is fixed and greater than the normal working current. Alarm mode 3 has two types of alarms: warning alarms and critical alarms. The warning alarm current is periodical pulse current, while the critical alarm current is fixed.
NO
NO
SET BTSDATUBP(Optional)
Critical alarm threshold against excessive TMA feed current of feed tributary 2. When the actual current is greater than the specified value, the TMA feed current critical alarm is generated. NO
NO
SET BTSDATUBP(Optional)
Warning alarm threshold against excessive TMA feed current of feed tributary 2. When the actual current is greater than the specified value, the TMA feed current warning alarm is generated. NO
NO
SET BTSDATUBP(Optional)
If the feed current of the TMA on tributary 2 is smaller than the value of this parameter, the TMA Low Temperature alarm is triggered.
NO
NO
SET BTSDATUBP(Optional)
Whether to supply power to the TMA on tributary 3 NO
NO
SET BTSDATUBP(Optional)
Alarm mode of feed tributary 3. There are three alarm modes. Alarm mode 1 has only one type of alarms. The alarm current is fixed and greater than the normal working current. Alarm mode 2 has two types of alarms: warning alarms and critical alarms. The alarm current is fixed and greater than the normal working current. Alarm mode 3 has two types of alarms: warning alarms and critical alarms. The warning alarm current is periodical pulse current, while the critical alarm current is fixed.
NO
NO
SET BTSDATUBP(Optional)
Critical alarm threshold against excessive TMA feed current of feed tributary 3. When the actual current is greater than the specified value, the TMA feed current critical alarm is generated. NO
NO
SET BTSDATUBP(Optional)
Warning alarm threshold against excessive TMA feed current of feed tributary 3. When the actual current is greater than the specified value, the TMA feed current warning alarm is generated. NO
NO
SET BTSDATUBP(Optional)
If the feed current of the TMA on tributary 3 is smaller than the value of this parameter, the TMA Low Temperature alarm is triggered.
NO
NO
SET BTSDATUBP(Optional)
Whether to supply power to the TMA on tributary 4 NO
NO
SET BTSDATUBP(Optional)
Alarm mode of feed tributary 4. There are three alarm modes. Alarm mode 1 has only one type of alarms. The alarm current is fixed and greater than the normal working current. Alarm mode 2 has two types of alarms: warning alarms and critical alarms. The alarm current is fixed and greater than the normal working current. Alarm mode 3 has two types of alarms: warning alarms and critical alarms. The warning alarm current is periodical pulse current, while the critical alarm current is fixed.
NO
NO
SET BTSDATUBP(Optional)
Critical alarm threshold against excessive TMA feed current of feed tributary 4. When the actual current is greater than the specified value, the TMA feed current critical alarm is generated. NO
NO
SET BTSDATUBP(Optional)
Warning alarm threshold against excessive TMA feed current of feed tributary 4. When the actual current is greater than the specified value, the TMA feed current warning alarm is generated. NO
NO
SET BTSDATUBP(Optional)
If the feed current of the TMA on tributary 4 is smaller than the value of this parameter, the TMA Low Temperature alarm is triggered.
NO
NO
SET BTSDATUBP(Optional)
Whether to supply power to the TMA on tributary 5 NO
NO
SET BTSDATUBP(Optional)
Alarm mode of feed tributary 5. There are three alarm modes. Alarm mode 1 has only one type of alarms. The alarm current is fixed and greater than the normal working current. Alarm mode 2 has two types of alarms: warning alarms and critical alarms. The alarm current is fixed and greater than the normal working current. Alarm mode 3 has two types of alarms: warning alarms and critical alarms. The warning alarm current is periodical pulse current, while the critical alarm current is fixed.
NO
NO
SET BTSDATUBP(Optional)
Critical alarm threshold against excessive TMA feed current of feed tributary 5. When the actual current is greater than the specified value, the TMA feed current critical alarm is generated. NO
NO
SET BTSDATUBP(Optional)
Warning alarm threshold against excessive TMA feed current of feed tributary 5. When the actual current is greater than the specified value, the TMA feed current warning alarm is generated. NO
NO
SET BTSDATUBP(Optional)
If the feed current of the TMA on tributary 5 is smaller than the value of this parameter, the TMA Low Temperature alarm is triggered.
NO
NO
SET BTSDATUBP(Optional)
Cabinet No. of the management board. The management board refers to the TMU or RXU that directly communicates with the board. The configuration of this parameter must be consistent with the actual physical connection. Otherwise, the board may not work properly.
NO
NO
SET BTSDATUBP(Optional)
Number of the subrack where the board is located. The management board refers to the TMU or RXU that directly communicates with the board. The configuration of this parameter must be consistent with the actual physical connection. Otherwise, the board may not work properly. NO
NO
SET BTSDATUBP(Optional)
Number of the serial port where the board is located. The management board refers to the TMU or RXU that directly communicates with the board. The configuration of this parameter must be consistent with the actual physical connection. Otherwise, the board may not work properly. NO
NO
SET BTSDATUBP(Optional)
Communication address of the CBUS3 on the bus 485. The configuration of this parameter must be consistent with the actual physical connection. Otherwise, the board may not work properly.
NO
NO
SET BTSDDPUBP(Mandatory)
Index type of the BTS. BYNAME: query by BTS name; BYID: query by BTS index.
NO
YES
SET BTSDDPUBP(Mandatory)
Index of the BTS, uniquely identifying a BTS in a BSC. YES
YES
Name of the BTS, uniquely identifying a BTS in a BSC. This parameter cannot contain the following invalid characters: ,;="'
SET BTSDDPUBP(Mandatory)
In addition, cell names cannot contain two or more consecutive %, two or more consecutive spaces, or more than two consecutive +.
NO
YES
SET BTSDDPUBP(Mandatory)
Number of the subrack where the BTS board is located
YES
YES
SET BTSDDPUBP(Mandatory)
Number of the slot where the BTS board is located
YES
YES
SET BTSDDPUBP(Mandatory)
Whether to allow the configuration of board parameters. The value "YES" indicates that the configuration is allowed, and the value "NO" indicates that the configuration is not allowed. If the parameter is set to "YES", all the other parameters controlled by it are reset to the default values in this command. In multi-mode scenario, the value of this parameter in this mode must be the same as the value of the corresponding parameter in another mode. NO
YES
Standing wave alarm threshold. When the VSWR is greater than the value of this parameter, the TRX reports a standing wave SET BTSDDPUBP(Optional) alarm.
NO
NO
Serious standing wave alarm threshold. When the VSWR is greater than the value of this parameter, the TRX reports a serious standing SET BTSDDPUBP(Optional) wave alarm.
NO
NO
SET BTSDDPUBP(Optional) Filtering times of serious standing wave alarms
NO
NO
SET BTSDEMUBP(Mandatory)
Index type of the BTS. BYNAME: query by BTS name; BYID: query by BTS index.
NO
YES
SET BTSDEMUBP(Mandatory)
Index of the BTS, uniquely identifying a BTS in a BSC. YES
YES
Name of the BTS, uniquely identifying a BTS in a BSC. This parameter cannot contain the following invalid characters: ,;="'
SET BTSDEMUBP(Mandatory)
In addition, cell names cannot contain two or more consecutive %, two or more consecutive spaces, or more than two consecutive +.
NO
YES
SET BTSDEMUBP(Optional) Number of the cabinet.
YES
NO
SET BTSDEMUBP(Mandatory)
YES
YES
Number of the subrack where the BTS board is located
SET BTSDEMUBP(Mandatory)
Number of the slot where the BTS board is located
SET BTSDEMUBP(Mandatory)
Whether to allow the configuration of board parameters. The value "YES" indicates that the configuration is allowed, and the value "NO" indicates that the configuration is not allowed. If the parameter is set to "YES", all the other parameters controlled by it are reset to the default values in this command. In multi-mode scenario, the value of this parameter in this mode must be the same as the value of the corresponding parameter in another mode. NO
YES
YES
YES
Whether to enable the special analog alarm. In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding parameter in another SET BTSDEMUBP(Optional) mode. NO
NO
Whether to enable the special alarm switch. In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding parameter in another SET BTSDEMUBP(Optional) mode. NO
NO
Level specifications of special Boolean value alarms. Two specifications are available: high level and low level. By default, only alarms of the door status sensor are low level, and alarms of the water sensor, smoke sensor, and infrared sensor are high level. In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding parameter in another SET BTSDEMUBP(Optional) mode. NO
NO
Number of the cabinet where the associated RXU board is installed. This parameter is valid for DRRU, MRRU, GRRU, or BTS3900E board in the remote monitoring subrack of the DBS3036, DBS3900 GSM, or BTS3900E GSM. The associated RXU board cannot be associated with other boards such as DEMU, SET BTSDEMUBP(Optional) APMU, or DTCU.
NO
NO
Number of the subrack where the associated SET BTSDEMUBP(Optional) RXU board is installed.
NO
NO
Number of the slot where the associated RXU SET BTSDEMUBP(Optional) board is installed.
NO
NO
Cabinet No. of the management board. The management board refers to the TMU or RXU that directly communicates with the board. The configuration of this parameter must be consistent with the actual physical connection. SET BTSDEMUBP(Optional) Otherwise, the board may not work properly.
NO
NO
Number of the subrack where the board is located. The management board refers to the TMU or RXU that directly communicates with the board. The configuration of this parameter must be consistent with the actual physical connection. Otherwise, the board may not work SET BTSDEMUBP(Optional) properly. NO
NO
Number of the serial port where the board is located. The management board refers to the TMU or RXU that directly communicates with the board. The configuration of this parameter must be consistent with the actual physical connection. Otherwise, the board may not work SET BTSDEMUBP(Optional) properly. NO
NO
Communication address of the CBUS3 on the bus 485. The configuration of this parameter must be consistent with the actual physical connection. Otherwise, the board may not work SET BTSDEMUBP(Optional) properly. ADD BTSDEVIP(Mandatory) RMV BTSDEVIP(Mandatory) Index type. BYNAME: query by name; BYID: IMP BTSDEVIP(Mandatory) query by index.
NO
NO
NO
YES
ADD BTSDEVIP(Mandatory) RMV BTSDEVIP(Mandatory) Index of the BTS, uniquely identifying a BTS in a IMP BTSDEVIP(Mandatory) BSC. YES
YES
Name of the BTS, uniquely identifying a BTS in a BSC. This parameter cannot contain the following invalid characters: ,;="' ADD BTSDEVIP(Mandatory) In addition, cell names cannot contain two or RMV BTSDEVIP(Mandatory) more consecutive %, two or more consecutive IMP BTSDEVIP(Mandatory) spaces, or more than two consecutive +. ADD BTSDEVIP(Mandatory) RMV BTSDEVIP(Mandatory) ADD BTSDEVIP(Optional) RMV BTSDEVIP(Optional) IMP BTSDEVIP(Optional) ADD BTSDEVIP(Optional) RMV BTSDEVIP(Optional) IMP BTSDEVIP(Optional) ADD BTSDEVIP(Optional) RMV BTSDEVIP(Optional) IMP BTSDEVIP(Optional)
NO
YES
Number of the FE or GE port
YES
YES
Number of the cabinet where the port is located
YES
NO
Number of the subrack where the BTS board is located
YES
NO
Number of the slot where the BTS board is located
YES
NO
ADD BTSDEVIP(Mandatory) IP address of BTS. It cannot be the same as any IMP BTSDEVIP(Optional) IP address configured in the BSC. NO
YES
ADD BTSDEVIP(Mandatory) IMP BTSDEVIP(Optional) IP subnet mask of a BTS port
NO
YES
IMP BTSDEVIP(Mandatory)
Configuration Switch.
NO
YES
IMP BTSDEVIP(Mandatory)
Number of the FE or GE port
NO
YES
SET BTSDFCUBP(Mandatory)
Index type of the BTS. BYNAME: query by BTS name; BYID: query by BTS index.
NO
YES
SET BTSDFCUBP(Mandatory)
Index of the BTS, uniquely identifying a BTS in a BSC. YES
YES
Name of the BTS, uniquely identifying a BTS in a BSC. This parameter cannot contain the following invalid characters: ,;="'
SET BTSDFCUBP(Mandatory)
In addition, cell names cannot contain two or more consecutive %, two or more consecutive spaces, or more than two consecutive +.
NO
YES
SET BTSDFCUBP(Mandatory)
Number of the subrack where the BTS board is located
YES
YES
SET BTSDFCUBP(Mandatory)
Number of the slot where the BTS board is located
YES
YES
Whether to enable the configuration of the "Extend Connection" attribute. The "Extend Connection" attribute describes the cascading relationship of the DFCB, which helps the DFCU SET BTSDFCUBP(Optional) perform the six-in-one function. NO
NO
Number of the subrack where the DFCB is SET BTSDFCUBP(Optional) installed
NO
NO
SET BTSDFCUBP(Optional) Number of the slot where the DFCB is installed
NO
NO
Tributary Number of the DFCB that is cascaded to the DFCU. The "Extend Connection" attribute describes the cascading relationship of the DFCB, which helps the DFCU perform the six-inSET BTSDFCUBP(Optional) one function. NO
NO
Whether to enable the standing wave alarm SET BTSDFCUBP(Optional) parameters to be configured
NO
NO
Standing wave alarm threshold. When the VSWR is greater than the value of this parameter, the TRX reports a standing wave SET BTSDFCUBP(Optional) alarm.
NO
NO
Serious standing wave alarm threshold. When the VSWR is greater than the value of this parameter, the TRX reports a serious standing SET BTSDFCUBP(Optional) wave alarm.
NO
NO
SET BTSDFCUBP(Optional) Filtering times of serious standing wave alarms
NO
NO
SET BTSDGPSBP(Mandatory)
Index type of the BTS. BYNAME: query by BTS name; BYID: query by BTS index.
NO
YES
SET BTSDGPSBP(Mandatory)
Index of the BTS, uniquely identifying a BTS in a BSC. YES
YES
Name of the BTS, uniquely identifying a BTS in a BSC. This parameter cannot contain the following invalid characters: ,;="'
SET BTSDGPSBP(Mandatory)
In addition, cell names cannot contain two or more consecutive %, two or more consecutive spaces, or more than two consecutive +.
NO
YES
SET BTSDGPSBP(Mandatory)
Number of the subrack where the BTS board is located
YES
YES
SET BTSDGPSBP(Mandatory)
Number of the slot where the BTS board is located
YES
YES
Satellite card protocol that is enabled to communicate with the satellite card connecting to the DGPS. If "RGPS" is specified, it indicates that the RGPS satellite card protocol is enabled to communicate with the satellite card connecting to the DGPS. If "GPS" is specified, it indicates that the GPS satellite card protocol is enabled to communicate with the satellite card SET BTSDGPSBP(Optional) connecting to the DGPS. NO
NO
Synchronization clock adopted when two satellite cards are used together. GPS:Trace GPS only. GLONASS:Trace GLONASS only. SET BTSDGPSBP(Optional) GPSGlonass:Trace GPS and GLONASS. NO
NO
Length of the feeder cable. The GPS satellite card is connected to the antenna through feeder cables. The transmission delay on the feeder cable can be calculated on the basis of the length of the feeder cable, thus increasing the SET BTSDGPSBP(Optional) timing accuracy of the satellite card. NO
NO
SET BTSDGPSBP(Optional) Power supply switch of the GPS antenna feeder NO
NO
If the input current of the antenna feeder is greater than the value of this parameter and "GPS or RGPS" is set to "GPS", an alarm related SET BTSDGPSBP(Optional) to the GPS antenna is reported. NO
NO
If the input current of the antenna feeder is greater than the value of this parameter and "GPS or RGPS" is set to "RGPS", an alarm SET BTSDGPSBP(Optional) related to the RGPS antenna is reported. If the input current of the antenna feeder is smaller than the value of this parameter, an SET BTSDGPSBP(Optional) alarm related to the GPS antenna is reported.
NO
NO
NO
NO
ADD BTSDHCPSVRIP(Mandatory) RMV Index type. BYNAME: query by name; BYID: BTSDHCPSVRIP(Mandatory) query by index.
NO
YES
ADD BTSDHCPSVRIP(Mandatory) RMV Index of the BTS, uniquely identifying a BTS in a BTSDHCPSVRIP(Mandatory) BSC. NO
YES
Name of the BTS, uniquely identifying a BTS in a BSC. This parameter cannot contain the following invalid characters: ,;="' ADD BTSDHCPSVRIP(Mandatory) In addition, cell names cannot contain two or RMV more consecutive %, two or more consecutive BTSDHCPSVRIP(Mandatory) spaces, or more than two consecutive +.
NO
YES
ADD BTSDHCPSVRIP(Mandatory) RMV BTSDHCPSVRIP(Mandatory) DHCP Server IP.
NO
YES
SET BTSDHEUBP(Mandatory)
Index type of the BTS. BYNAME: query by BTS name; BYID: query by BTS index.
NO
YES
SET BTSDHEUBP(Mandatory)
Index of the BTS, uniquely identifying a BTS in a BSC. YES
YES
Name of the BTS, uniquely identifying a BTS in a BSC. This parameter cannot contain the following invalid characters: ,;="'
SET BTSDHEUBP(Mandatory)
In addition, cell names cannot contain two or more consecutive %, two or more consecutive spaces, or more than two consecutive +.
NO
YES
SET BTSDHEUBP(Optional) Number of the cabinet.
YES
NO
SET BTSDHEUBP(Mandatory)
Number of the subrack where the BTS board is located
YES
YES
SET BTSDHEUBP(Mandatory)
Number of the slot where the BTS board is located
YES
YES
SET BTSDHEUBP(Mandatory)
Whether to allow the configuration of board parameters. The value "YES" indicates that the configuration is allowed, and the value "NO" indicates that the configuration is not allowed. If the parameter is set to "YES", all the other parameters controlled by it are reset to the default values in this command. In multi-mode scenario, the value of this parameter in this mode must be the same as the value of the corresponding parameter in another mode. NO
YES
Temperature upper threshold of the cabinet. When the cabinet temperature is higher than this parameter, an alarm indicating the abnormal cabinet temperature is reported. In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding parameter in another SET BTSDHEUBP(Optional) mode. NO
NO
When the internal temperature of the BTS reaches the Temperature Alarm Lower Threshold, it reports a low temperature alarm. In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding parameter in another SET BTSDHEUBP(Optional) mode. NO
NO
Whether to control the temperature difference between the air inlet and air outlet and that between the air outlet and ambient by the temperature control system. In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding parameter in another SET BTSDHEUBP(Optional) mode. NO
NO
Temperature control threshold for low temperature. When the ambient temperature is less than "Low Temperature Critical Point", the temperature control system needs to control the temperature difference between the air inlet and air outlet, and that between the air inlet and ambient temperature. In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding parameter in another SET BTSDHEUBP(Optional) mode. NO
NO
If the ambient temperature is higher than "High Temperature Critical Point", the temperature control system controls the difference between the inlet and outlet temperatures. In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding parameter in another SET BTSDHEUBP(Optional) mode. NO
NO
Lowest expected value of the air outlet temperature. In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding parameter in another SET BTSDHEUBP(Optional) mode. NO Temperature error allowed when the
NO
temperature control system adjusts the temperature. In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding parameter in another SET BTSDHEUBP(Optional) mode. NO
NO
If the inlet temperature is between "High Temperature Critical Point" and "Low Temperature Critical Point" and the difference between the inlet temperature and the ambient temperature reaches the value of this parameter, the temperature control system controls the difference between the inlet and outlet temperatures as well as the difference between the inlet temperature and the ambient temperature. In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding parameter in another SET BTSDHEUBP(Optional) mode. NO
NO
If the outlet temperature is between "High Temperature Critical Point" and "Low Temperature Critical Point" and the difference between the outlet temperature and the inlet temperature reaches the value of this parameter, the temperature control system controls the difference between the inlet and outlet temperatures as well as the difference between the inlet temperature and the ambient temperature. In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding parameter in another SET BTSDHEUBP(Optional) mode. NO
NO
If the outlet temperature is higher than "High Temperature Critical Point" and the difference between the outlet temperature and ambient temperature reaches the value of this parameter, the temperature control system controls the difference between the inlet and outlet temperatures. In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding parameter in another SET BTSDHEUBP(Optional) mode. NO
NO
Whether to enable the heater. In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding parameter in another SET BTSDHEUBP(Optional) mode. NO
NO
When the environment temperature reaches the specified value of this parameter, the heater is started. In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding parameter in another SET BTSDHEUBP(Optional) mode. NO
NO
If the ambient temperature reaches the value of this parameter, the heater is shut down. In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding parameter in another SET BTSDHEUBP(Optional) mode. NO
NO
Number of the cabinet where the associated RXU board is installed. This parameter is valid for DRRU, MRRU, GRRU, or BTS3900E board in the remote monitoring subrack of the DBS3036, DBS3900 GSM, or BTS3900E GSM. The associated RXU board cannot be associated with other boards such as DEMU, SET BTSDHEUBP(Optional) APMU, or DTCU.
NO
NO
Number of the subrack where the associated SET BTSDHEUBP(Optional) RXU board is installed.
NO
NO
Number of the slot where the associated RXU SET BTSDHEUBP(Optional) board is installed.
NO
NO
Cabinet No. of the management board. The management board refers to the TMU or RXU that directly communicates with the board. The configuration of this parameter must be consistent with the actual physical connection. SET BTSDHEUBP(Optional) Otherwise, the board may not work properly.
NO
NO
Number of the subrack where the board is located. The management board refers to the TMU or RXU that directly communicates with the board. The configuration of this parameter must be consistent with the actual physical connection. Otherwise, the board may not work SET BTSDHEUBP(Optional) properly. NO
NO
Number of the serial port where the board is located. The management board refers to the TMU or RXU that directly communicates with the board. The configuration of this parameter must be consistent with the actual physical connection. Otherwise, the board may not work SET BTSDHEUBP(Optional) properly. NO
NO
Communication address of the CBUS3 on the bus 485. The configuration of this parameter must be consistent with the actual physical connection. Otherwise, the board may not work SET BTSDHEUBP(Optional) properly.
NO
NO
Whether the configuration of alarm parameters is allowed. The value "YES" indicates that the configuration is allowed, and the value "NO" SET BTSDHEUBP(Optional) indicates that the configuration is not allowed.
NO
NO
Whether to enable the dedicated Boolean alarms. Bits 0 and 1 are used to enable water sensor alarm and smog sensor alarm respectively. All the Boolean alarms are enabled by default. "0" indicates that the alarm is enabled, and "1" indicates that the alarm is SET BTSDHEUBP(Optional) disabled. NO
NO
SET BTSDOMUBP(Mandatory)
Index type of the BTS. BYNAME: query by BTS name; BYID: query by BTS index.
YES
SET BTSDOMUBP(Mandatory)
Index of the BTS, uniquely identifying a BTS in a BSC. YES
NO
YES
Name of the BTS, uniquely identifying a BTS in a BSC. This parameter cannot contain the following invalid characters: ,;="'
SET BTSDOMUBP(Mandatory)
In addition, cell names cannot contain two or more consecutive %, two or more consecutive spaces, or more than two consecutive +.
NO
YES
SET BTSDOMUBP(Mandatory)
Number of the subrack where the BTS board is located
YES
YES
SET BTSDOMUBP(Mandatory)
Number of the slot where the BTS board is located
YES
YES
SET BTSDOMUBP(Mandatory)
Whether to allow the configuration of board parameters. The value "YES" indicates that the configuration is allowed, and the value "NO" indicates that the configuration is not allowed. If the parameter is set to "YES", all the other parameters controlled by it are reset to the default values in this command. In multi-mode scenario, the value of this parameter in this mode must be the same as the value of the corresponding parameter in another mode. NO
YES
Whether to configure the optical transmission mode for E1 port 0 of the BTS3006C/BTS3002E. If the optical transmission mode is configured, the BSC can connect to the BTS through optical SET BTSDOMUBP(Optional) fibers. NO
NO
Whether to configure the optical transmission mode for E1 port 1 of the BTS3006C/BTS3002E. If the optical transmission mode is configured, the BSC can connect to the BTS through optical SET BTSDOMUBP(Optional) fibers. NO
NO
Whether to configure the optical transmission mode for E1 port 2 of the BTS3006C/BTS3002E . If the optical transmission mode is configured, the BSC can connect to the BTS through optical SET BTSDOMUBP(Optional) fibers. NO
NO
Whether to configure the optical transmission mode for E1 port 3 of the BTS3006C/BTS3002E. If the optical transmission mode is configured, the BSC can connect to the BTS through optical SET BTSDOMUBP(Optional) fibers. NO
NO
Whether to separate E1 from other optical fibers for the use of other devices. If this parameter is set to YES, other BTSs can connect to the BSC through the independent E1 port 3 of the SET BTSDOMUBP(Optional) BTS3006C/BTS3002E. NO
NO
Whether to enable the energy saving function of SET BTSDOMUBP(Optional) the TRX for the BTS3002E. NO
NO
SET BTSDOMUBP(Mandatory)
Start time when the TRX energy saving function is enabled for the BTS3002E. NO
YES
SET BTSDOMUBP(Mandatory)
End time when the TRX energy saving function is enabled for the BTS3002E.
NO
YES
SET BTSDPMUBP(Mandatory)
Index type of the BTS. BYNAME: query by BTS name; BYID: query by BTS index.
NO
YES
SET BTSDPMUBP(Mandatory)
Index of the BTS, uniquely identifying a BTS in a BSC. YES
YES
Name of the BTS, uniquely identifying a BTS in a BSC. This parameter cannot contain the following invalid characters: ,;="'
SET BTSDPMUBP(Mandatory)
In addition, cell names cannot contain two or more consecutive %, two or more consecutive spaces, or more than two consecutive +.
NO
YES
SET BTSDPMUBP(Mandatory)
Number of the subrack where the BTS board is located
YES
YES
SET BTSDPMUBP(Mandatory)
Number of the slot where the BTS board is located
YES
YES
SET BTSDPMUBP(Mandatory)
Whether to allow the configuration of board parameters. The value "YES" indicates that the configuration is allowed, and the value "NO" indicates that the configuration is not allowed. If the parameter is set to "YES", all the other parameters controlled by it are reset to the default values in this command. In multi-mode scenario, the value of this parameter in this mode must be the same as the value of the corresponding parameter in another mode. NO
YES
SET BTSDPMUBP(Mandatory)
Type of the BTS cabinet where the DMPU is installed
NO
YES
Whether to enable the DPSU0 to supply power for the BTS. In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding parameter in another SET BTSDPMUBP(Optional) mode. NO
NO
Whether to enable the DPSU1 to supply power for the BTS. In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding parameter in another SET BTSDPMUBP(Optional) mode. NO
NO
Whether to enable the DPSU2 to supply power for the BTS. In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding parameter in another SET BTSDPMUBP(Optional) mode. NO
NO
Whether to enable the DPSU3 to supply power for the BTS. In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding parameter in another SET BTSDPMUBP(Optional) mode. NO
NO
Whether to enable the DPSU4 to supply power for the BTS. In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding parameter in another SET BTSDPMUBP(Optional) mode. NO
NO
Whether to enable the DPSU5 to supply power for the BTS. In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding parameter in another SET BTSDPMUBP(Optional) mode. NO
NO
Whether to enable the DPSU6 to supply power for the BTS. In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding parameter in another SET BTSDPMUBP(Optional) mode. NO
NO
Whether to enable the DPSU7 to supply power for the BTS. In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding parameter in another SET BTSDPMUBP(Optional) mode. NO
NO
Whether the configuration of alarm parameters is allowed. In multi-mode scenario, the value of this parameter must be the same as the value of the SET BTSDPMUBP(Optional) parameter in other modes. NO
NO
The value of this parameter consists of five bits, which determines whether to enable the alarms. "0" indicates that the analog alarm is enabled, and "1" indicates that the analog alarm is disabled. In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding parameter in another SET BTSDPMUBP(Optional) mode. NO
NO
The value of this parameter consists of three bits, which determines whether to enable the alarms. "0" indicates that the alarm is enabled, and "1" indicates that the alarm is disabled. In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding parameter in another SET BTSDPMUBP(Optional) mode. NO
NO
Whether the configuration of external battery is allowed. The value "YES" indicates that the external battery can be configured, and the value "NO" indicates that the external battery cannot be configured. In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding parameter in another SET BTSDPMUBP(Optional) mode. NO
NO
Battery type. In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding parameter in another SET BTSDPMUBP(Optional) mode. NO
NO
Maximum current coefficient when the battery is charged. When the battery is charged, the maximum current can be 0.05 to 0.25 times of the capacity of the battery cabinet. That is, the charge coefficient is 0.05-0.25. For example, if the capacity of the battery cabinet is 200 A and the charge coefficient is 0.15, the maximum charge current for the battery cabinet is 30 A. In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding parameter in another SET BTSDPMUBP(Optional) mode. NO
NO
Battery capacity. In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding parameter in another SET BTSDPMUBP(Optional) mode. NO
NO
Whether to enable the configuration of power system parameters. In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding parameter in another SET BTSDPMUBP(Optional) mode. NO
NO
Load power-off voltage threshold. In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding parameter in another SET BTSDPMUBP(Optional) mode. NO
NO
Even charging voltage of the battery. The battery is charged at the voltage as specified by this parameter. In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding parameter in another SET BTSDPMUBP(Optional) mode. NO
NO
Float charging voltage of the battery. The battery is charged at the voltage as specified by this parameter. In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding parameter in another SET BTSDPMUBP(Optional) mode. NO
NO
Whether to enable load power-off. In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding parameter in another SET BTSDPMUBP(Optional) mode. NO
NO
Whether to allow the power-off of the battery. In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding parameter in another SET BTSDPMUBP(Optional) mode. NO
NO
Battery power-off voltage. In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding parameter in another SET BTSDPMUBP(Optional) mode. NO
NO
Whether to power off the TRX of a BTS when the temperature of the BTS cabinet is too low. In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding parameter in another SET BTSDPMUBP(Optional) mode. NO
NO
TRX power-off temperature threshold. If the temperature of the BTS cabinet is less than the value of this parameter while "Low Temperature Startup Allowed" is set to "Yes", the TRX is powered off. In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding parameter in another SET BTSDPMUBP(Optional) mode. NO
NO
The BTS reports an alarm if the AC voltage SET BTSDPMUBP(Optional) exceeds the value of this parameter.
NO
NO
The BTS reports an alarm if the AC voltage is SET BTSDPMUBP(Optional) lower than the value of this parameter.
NO
NO
The BTS reports an alarm if the DC voltage exceeds the value of this parameter. In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding parameter in another SET BTSDPMUBP(Optional) mode. NO
NO
The BTS reports an alarm if the DC voltage is lower than the value of this parameter. In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding parameter in another SET BTSDPMUBP(Optional) mode. NO
NO
Whether to allow the configuration of parameters related to the temperature compensation of the battery group In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding parameter in another SET BTSDPMUBP(Optional) mode. NO
NO
Upper limit of the temperature measured by the temperature sensor of the battery group 1. If the measured value is greater than the value of this parameter, the value of this parameter is reported. In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding parameter in another SET BTSDPMUBP(Optional) mode. NO
NO
Lower limit of the temperature measured by the temperature sensor of the battery group 1. If the measured value is smaller than the value of this parameter, the value of this parameter is reported. In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding parameter in another SET BTSDPMUBP(Optional) mode. NO
NO
The BTS reports an alarm if the temperature of battery group 1 exceeds the value of this parameter. In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding parameter in another SET BTSDPMUBP(Optional) mode. NO The BTS reports an alarm if the temperature of battery group 1 is lower than the value of this parameter. In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding parameter in another SET BTSDPMUBP(Optional) mode. NO Change value of the floating charge voltage of the storage battery when the temperature of the SET BTSDPMUBP(Optional) storage battery changes by 1 degree Celsius. NO
NO
NO
NO
Number of the temperature sensor corresponding to a battery group. In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding parameter in another SET BTSDPMUBP(Optional) mode. NO
NO
Whether to enable the environment temperature parameters to be configured. In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding parameter in another SET BTSDPMUBP(Optional) mode. NO
NO
When the environment temperature is greater than the value of this parameter, the BTS reports an alarm. In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding parameter in another SET BTSDPMUBP(Optional) mode. NO
NO
When the environment temperature is less than the value of this parameter, the BTS reports an alarm. In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding parameter in another SET BTSDPMUBP(Optional) mode. NO
NO
Whether to enable the environment humidity alarm parameters of the board to be configured. In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding parameter in another SET BTSDPMUBP(Optional) mode. NO
NO
When the ambient humidity is greater than the value of this parameter, the BTS reports an overhigh ambient humidity alarm. In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding parameter in another SET BTSDPMUBP(Optional) mode. NO
NO
When the ambient humidity is less than the value of this parameter, the BTS reports an overlow ambient humidity alarm. In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding parameter in another SET BTSDPMUBP(Optional) mode. NO
NO
Whether to enable the diesel engine parameters SET BTSDPMUBP(Optional) to be configured NO
NO
SET BTSDPMUBP(Optional) Whether to enable the diesel engine save switch NO
NO
SET BTSDPMUBP(Optional) Maximum output power of the diesel
NO
NO
Allowed percentage of the battery discharging. After the AC power supply is cut and the power of the battery is discharged by the value of this parameter, the diesel engine is started to supply SET BTSDPMUBP(Optional) the power. NO
NO
SET BTSDTMUBP(Mandatory)
Index type of the BTS. BYNAME: query by BTS name; BYID: query by BTS index.
YES
SET BTSDTMUBP(Mandatory)
Index of the BTS, uniquely identifying a BTS in a BSC. YES
NO
YES
Name of the BTS, uniquely identifying a BTS in a BSC. This parameter cannot contain the following invalid characters: ,;="'
SET BTSDTMUBP(Mandatory)
In addition, cell names cannot contain two or more consecutive %, two or more consecutive spaces, or more than two consecutive +.
NO
YES
SET BTSDTMUBP(Mandatory)
Number of the subrack where the BTS board is located
YES
YES
SET BTSDTMUBP(Mandatory)
Number of the slot where the BTS board is located
YES
YES
NO
YES
NO
NO
NO
NO
NO
NO
NO
NO
SET BTSDTMUBP(Optional)
Whether to allow the configuration of board parameters. The value "YES" indicates that the configuration is allowed, and the value "NO" indicates that the configuration is not allowed. If the parameter is set to "YES", all the other parameters controlled by it are reset to the default values in this command. In multi-mode scenario, the value of this parameter in this mode must be the same as the value of the corresponding parameter in another mode. Level of the accessed alarm signal. If the alarm signal has high level, this parameter should be set to 0. Otherwise, it should be set to 1. Level of the accessed alarm signal. If the alarm signal has high level, this parameter should be set to 0. Otherwise, it should be set to 1. Level of the accessed alarm signal. If the alarm signal has high level, this parameter should be set to 0. Otherwise, it should be set to 1. Level of the accessed alarm signal. If the alarm signal has high level, this parameter should be set to 0. Otherwise, it should be set to 1.
SET BTSENVALM(Mandatory)
Index type. BYNAME: query by name; BYID: query by index.
NO
YES
SET BTSENVALM(Mandatory)
Index of the BTS, uniquely identifying a BTS in a BSC. NO
YES
SET BTSDTMUBP(Mandatory)
SET BTSDTMUBP(Optional)
SET BTSDTMUBP(Optional)
SET BTSDTMUBP(Optional)
Name of the BTS, uniquely identifying a BTS in a BSC. This parameter cannot contain the following invalid characters: ,;="'
SET BTSENVALM(Mandatory)
In addition, cell names cannot contain two or more consecutive %, two or more consecutive spaces, or more than two consecutive +.
NO
YES
SET BTSENVALM(Mandatory)
Whether multiple DEMUs are configured
NO
YES
NO
NO
SET BTSENVALM(Optional) Number of the cabinet
SET BTSENVALM(Mandatory)
Number of the subrack where the BTS board is located
NO
YES
SET BTSENVALM(Mandatory) SET BTSENVALMPORT(Mandato ry)
Number of the slot where the BTS board is located
NO
YES
Index type of the BTS. BYNAME: query by BTS name; BYID: query by BTS index.
NO
YES
YES
YES
Name of the BTS, uniquely identifying a BTS in a BSC. This parameter cannot contain the following invalid characters: ,;="' SET In addition, cell names cannot contain two or BTSENVALMPORT(Mandato more consecutive %, two or more consecutive ry) spaces, or more than two consecutive +.
SET BTSENVALMPORT(Mandato Index of the BTS, uniquely identifying a BTS in a ry) BSC. NO
SET BTSENVALMPORT(Optional) SET BTSENVALMPORT(Mandato ry) SET BTSENVALMPORT(Mandato ry) SET BTSENVALMPORT(Mandato ry) SET BTSENVALMPORT(Mandato ry)
YES
Number of the cabinet.
YES
NO
Number of the subrack where the BTS board is located
YES
YES
Number of the slot where the BTS board is located
YES
YES
Alarm port number
YES
YES
Whether to enable the alarm port
NO
YES
SET BTSENVALMPORT(Optional) Alarm ID
NO
NO
SET BTSENVALMPORT(Optional) Alarm port type
NO
NO
SET BTSENVALMPORT(Optional) Alarm level. It is valid for the digital port.
NO
NO
SET Upper limit of the alarm. This parameter is valid BTSENVALMPORT(Optional) for the analog port.
NO
NO
SET Lower limit of an alarm. It is valid for the analog BTSENVALMPORT(Optional) port.
NO
NO
SET Whether to reserve the binding of the alarm ID BTSENVALMPORT(Optional) and the alarm port
NO
NO
SET BTSENVALMPORT(Optional) Sensor type. It is valid for the analog port.
NO
NO
SET Measure upper limit of sensor. It is valid for the BTSENVALMPORT(Optional) analog port.
NO
NO
SET Measure lower limit of sensor. It is valid for the BTSENVALMPORT(Optional) analog port.
NO
NO
SET Upper limit of sensor output. It is valid for the BTSENVALMPORT(Optional) analog port.
NO
NO
SET Lower limit of sensor output. It is valid for the BTSENVALMPORT(Optional) analog port.
NO
NO
ADD BTSESN(Mandatory) MOD BTSESN(Mandatory) RMV BTSESN(Mandatory)
BTS index type
NO
YES
ADD BTSESN(Mandatory) MOD BTSESN(Mandatory) RMV BTSESN(Mandatory)
Index of the BTS, uniquely identifying a BTS in a BSC. YES
YES
Name of the BTS, uniquely identifying a BTS in a BSC. This parameter cannot contain the following invalid characters: ,;="' ADD BTSESN(Mandatory) MOD BTSESN(Mandatory) RMV BTSESN(Mandatory)
In addition, cell names cannot contain two or more consecutive %, two or more consecutive spaces, or more than two consecutive +.
NO
YES
ADD BTSESN(Mandatory) MOD BTSESN(Optional)
Bard code 1 of the interface board of the BTS
NO
YES
ADD BTSESN(Optional) MOD BTSESN(Optional)
Bar code 2 of the interface board of the BTS
NO
NO
ADD BTSETHLCMEP(Mandatory) RMV Index type. BYNAME: query by name; BYID: BTSETHLCMEP(Mandatory) query by index.
NO
ADD BTSETHLCMEP(Mandatory) RMV Index of the BTS, uniquely identifying a BTS in a BTSETHLCMEP(Mandatory) BSC. YES
YES
YES
Name of the BTS, uniquely identifying a BTS in a BSC. This parameter cannot contain the following invalid characters: ,;="' ADD BTSETHLCMEP(Mandatory) In addition, cell names cannot contain two or RMV more consecutive %, two or more consecutive BTSETHLCMEP(Mandatory) spaces, or more than two consecutive +.
NO
YES
ADD BTSETHLCMEP(Mandatory) RMV BTSETHLCMEP(Mandatory) Name of the maintenance domain.
YES
YES
ADD BTSETHLCMEP(Mandatory) RMV BTSETHLCMEP(Mandatory) Name of the maintenance association.
YES
YES
ADD BTSETHLCMEP(Mandatory) RMV Identifies a maintenance end point (MEP) of a BTSETHLCMEP(Mandatory) maintenance association.
YES
YES
ADD BTSETHLCMEP(Optional)
Number of the cabinet where the port is located
NO
NO
ADD BTSETHLCMEP(Optional)
Number of the subrack where the port is located NO
NO
Number of the slot where the port is located NO Number of the Ethernet port. The number must ADD be consistent with that of the port carrying the FE BTSETHLCMEP(Mandatory) connection of the IP BTS. NO RMV BTSETHMA(Mandatory) Index type. BYNAME: query by name; BYID: ADD BTSETHMA(Mandatory) query by index. NO
NO
ADD BTSETHLCMEP(Optional)
RMV BTSETHMA(Mandatory) Index of the BTS, uniquely identifying a BTS in a ADD BTSETHMA(Mandatory) BSC. NO
YES
YES
YES
Name of the BTS, uniquely identifying a BTS in a BSC. This parameter cannot contain the following invalid characters: ,;="' RMV In addition, cell names cannot contain two or BTSETHMA(Mandatory) more consecutive %, two or more consecutive ADD BTSETHMA(Mandatory) spaces, or more than two consecutive +.
NO
YES
RMV BTSETHMA(Mandatory) ADD BTSETHMA(Mandatory) Name of the maintenance domain.
NO
YES
RMV BTSETHMA(Mandatory) ADD BTSETHMA(Mandatory) Name of the maintenance association.
NO
YES
ADD BTSETHMA(Optional)
Number of the cabinet where the port is located
NO
NO
ADD BTSETHMA(Optional)
Number of the subrack where the port is located NO
NO
ADD BTSETHMA(Optional)
Number of the slot where the port is located
NO
NO
ADD BTSETHMA(Mandatory) VLAN ID of the service type. ADD BTSETHMD(Mandatory) RMV Index type. BYNAME: query by name; BYID: BTSETHMD(Mandatory) query by index.
NO
YES
NO
YES
ADD BTSETHMD(Mandatory) RMV Index of the BTS, uniquely identifying a BTS in a BTSETHMD(Mandatory) BSC. YES
YES
Name of the BTS, uniquely identifying a BTS in a BSC. This parameter cannot contain the following invalid characters: ,;="' ADD BTSETHMD(Mandatory) In addition, cell names cannot contain two or RMV more consecutive %, two or more consecutive BTSETHMD(Mandatory) spaces, or more than two consecutive +.
NO
YES
ADD BTSETHMD(Mandatory) RMV BTSETHMD(Mandatory) Name of the maintenance domain.
YES
YES
ADD BTSETHMD(Optional)
Level of the maintenance domain.The priority of the maintenance domain ranks from 0 to 7 from low to high. NO
NO
SET BTSETHPORT(Mandatory)
Index type. BYNAME: query by name; BYID: query by index.
YES
SET BTSETHPORT(Mandatory)
Index of the BTS, uniquely identifying a BTS in a BSC. YES
NO
YES
Name of the BTS, uniquely identifying a BTS in a BSC. This parameter cannot contain the following invalid characters: ,;="'
SET BTSETHPORT(Mandatory)
In addition, cell names cannot contain two or more consecutive %, two or more consecutive spaces, or more than two consecutive +.
NO
YES
SET BTSETHPORT(Mandatory)
Number of the FE or GE port
YES
YES
SET BTSETHPORT(Optional)
Number of the cabinet where the port is located
NO
NO
SET BTSETHPORT(Optional)
Number of the subrack where the port is located NO
NO
SET BTSETHPORT(Optional)
Number of the slot where the port is located
NO
NO
SET BTSETHPORT(Optional)
Port rate of the IP interface board
NO
NO
SET BTSETHPORT(Optional)
The duplex mode of FE port is duplex or halfduplex.
NO
NO
SET BTSETHPORT(Optional)
Maximum size of a packet that can be transmitted or received on a FE port.
NO
NO
SET BTSETHPORT(Optional)
If the parameter is set to "YES", it indicates that some data packets are discarded to ensure the basic functions of the BTS are not affected when the FE port is overloaded. After the port is not overloaded, the flow control is stopped. NO
NO
SET BTSETHPORT(Optional) SET BTSETHPORT(Optional) SET BTSETHPORT(Optional) SET BTSETHPORT(Optional) SET BTSETHPORT(Optional)
Whether to enable the 3ah function on the BTS port. When the number of error frames on the MAC layer reaches the value of this parameter, the frame error alarm is generated. When the number of error frames on the MAC layer decreases to the value of this parameter, the frame error alarm is cleared. When the number of error frames on the IP layer reaches the value of this parameter, the frame error alarm is generated. When the number of error frames on the IP layer decreases to the value of this parameter, the frame error alarm is cleared.
ADD BTSETHRMMEP(Mandatory) RMV Index type. BYNAME: query by name; BYID: BTSETHRMMEP(Mandatory) query by index.
NO
NO
NO
NO
NO
NO
NO
NO
NO
NO
NO
YES
ADD BTSETHRMMEP(Mandatory) RMV Index of the BTS, uniquely identifying a BTS in a BTSETHRMMEP(Mandatory) BSC. YES
YES
Name of the BTS, uniquely identifying a BTS in a BSC. This parameter cannot contain the following invalid characters: ,;="' ADD BTSETHRMMEP(Mandatory) In addition, cell names cannot contain two or RMV more consecutive %, two or more consecutive BTSETHRMMEP(Mandatory) spaces, or more than two consecutive +.
NO
YES
ADD BTSETHRMMEP(Mandatory) RMV BTSETHRMMEP(Mandatory) Name of the maintenance domain.
YES
YES
ADD BTSETHRMMEP(Mandatory) RMV BTSETHRMMEP(Mandatory) Name of the maintenance association.
YES
YES
ADD BTSETHRMMEP(Mandatory) RMV Identifies a maintenance end point (MEP) of a BTSETHRMMEP(Mandatory) maintenance association.
YES
YES
SET Unique identifier of the Um interface software BTSEXCURSION(Mandatory) synchronization task.
NO
YES
SET BTSEXCURSION(Mandatory) Index type.
NO
YES
SET Index of the BTS, uniquely identifying a BTS in a BTSEXCURSION(Mandatory) BSC. NO
YES
Name of the BTS, uniquely identifying a BTS in a BSC. This parameter cannot contain the following invalid characters: ,;="' In addition, cell names cannot contain two or SET more consecutive %, two or more consecutive BTSEXCURSION(Mandatory) spaces, or more than two consecutive +.
NO
YES
SET Whether to adjust the BTS offset manually or BTSEXCURSION(Mandatory) automatically.
NO
YES
SET BTSEXCURSION(Mandatory) Frame offset of the BTS clock.
NO
YES
SET BTSEXCURSION(Mandatory) Bit offset in the frame of the BTS clock.
NO
YES
SET BTSEXD(Mandatory)
Type of an index.
NO
SET BTSEXD(Mandatory)
Index of the BTS, uniquely identifying a BTS in a BSC. YES
YES
YES
Name of the BTS, uniquely identifying a BTS in a BSC. This parameter cannot contain the following invalid characters: ,;="'
SET BTSEXD(Mandatory)
In addition, cell names cannot contain two or more consecutive %, two or more consecutive spaces, or more than two consecutive +.
SET BTSEXD(Optional)
Humidity Alarm Upper Threshold for the environment alarm box to report an alarm indicating that the ambient humidity is too high. If the ambient humidity of the BTS is higher than this threshold, the environment alarm box reports the alarm. In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding parameter in another mode. NO
NO
SET BTSEXD(Optional)
Humidity Alarm Lower Threshold for the environment alarm box to report an alarm indicating that the ambient humidity is too low. If the ambient humidity of the BTS is lower than this threshold, the environment alarm box reports the alarm. In multi-mode scenario, the value of this parameter in this mode must be the same as the value of the corresponding parameter in another mode. NO
NO
SET BTSEXD(Optional)
Temperature Alarm Upper Threshold for the environment alarm box to report an alarm indicating that the ambient temperature is too high. If the ambient temperature of the BTS is higher than this threshold, the environment alarm box reports the alarm. In multi-mode scenario, the value of this parameter in this mode must be the same as the value of the corresponding parameter in another mode. NO
NO
NO
YES
SET BTSEXD(Optional)
Temperature Alarm Lower Threshold for the environment alarm box to report an alarm indicating that the ambient temperature is too low. If the ambient temperature of the BTS is lower than this threshold, the environment alarm box reports the alarm. In multi-mode scenario, the value of this parameter in this mode must be the same as the value of the corresponding parameter in another mode. NO
NO
SET BTSFALLBACK(Mandatory)
Type of an index.
YES
SET BTSFALLBACK(Mandatory)
Index of the BTS, uniquely identifying a BTS in a BSC. YES
NO
YES
Name of the BTS, uniquely identifying a BTS in a BSC. This parameter cannot contain the following invalid characters: ,;="'
SET BTSFALLBACK(Mandatory)
In addition, cell names cannot contain two or more consecutive %, two or more consecutive spaces, or more than two consecutive +.
NO
YES
SET BTSFALLBACK(Optional)
Whether to enable the fallback function for the BTS
NO
NO
SET BTSFALLBACK(Optional)
Time for which the BTS waits to start the fallback function after the OML is interrupted. With this parameter, the BTS does not start the fallback function when the OML is interrupted transiently. NO
NO
SET BTSFALLBACK(Optional)
Time for which the BTS waits to stop the fallback function after the OML is set up. With this parameter, the BTS does not stop the fallback function when the OML is set up transiently. NO
NO
SET BTSFALLBACK(Optional)
Maximum time in which a user uses the uplink of its VGCS call continuously when the BTS works in fallback mode NO
NO
If the BTS works in fallback mode and uplink VGCS connection is idle for a period specified by this parameter, the BTS disables the VGCS connection automatically. This parameter is valid only for user-originated VGCS calls and is invalid for fixed VGCS calls. NO
NO
SET BTSFALLBACK(Optional) SET BTSFLEXABISPARA(Mandat Index type. BYNAME: query by name; BYID: ory) query by index.
NO
SET BTSFLEXABISPARA(Mandat Index of the BTS, uniquely identifying a BTS in a ory) BSC. YES
YES
YES
Name of the BTS, uniquely identifying a BTS in a BSC. This parameter cannot contain the following invalid characters: ,;="' SET In addition, cell names cannot contain two or BTSFLEXABISPARA(Mandat more consecutive %, two or more consecutive ory) spaces, or more than two consecutive +.
NO
YES
Whether to allow the CS services to preempt the sublink resources of PS services when the Abis resources are congested. In the current version, this parameter supports configuration consistency and configuration delivery; however, this parameter is not used in any function. This SET parameter will be removed from later versions. BTSFLEXABISPARA(Optiona Thus, it is recommended not to configure it in l) this version. NO
NO
The CS services are preferred. This parameter indicates that the CS services are permitted to preempt the dynamic Abis resources on the sublink of the current level site. In the current version, this parameter supports configuration consistency and configuration delivery; however, this parameter is not used in any function. This SET parameter will be removed from later versions. BTSFLEXABISPARA(Optiona Thus, it is recommended not to configure it in l) this version. NO
NO
This parameter specifies whether to enable the Abis resource adjustment TCHH function. It specifies whether the TCHH is preferentially allocated to the MS by the BSC when Abis resources are insufficient. If the Abis resource load is greater than "Flex Abis Prior Choose Load Thred" or "Fix Abis Prior SET Choose Abis Load Thred" when the parameter is BTSFLEXABISPARA(Optiona set to "YES", the BSC preferentially allocates the l) TCHH to the MS. NO
NO
This parameter specifies the static Abis resource load threshold. If the static Abis resource load is less than the static Abis resource load threshold, the TCHF is preferentially allocated. Otherwise, SET whether the TCHF or the TCHH should be BTSFLEXABISPARA(Optiona preferentially allocated is determined by the l) dynamic Abis resource load. NO
NO
If the static Abis resource load is greater than the value of "Fix Abis Prior Choose Abis Load Thred" and the dynamic Abis resource load is SET greater than the value of this parameter, the halfBTSFLEXABISPARA(Optiona rate channel is preferred. Otherwise, the full-rate l) channel is preferred. NO Whether the PCU supports the PREEMPT_ABIS_LINK message. If the BTS supports the FLEXABIS function, the CS service can preempt the timeslots on the Abis interface used by the PS service. After the preemption SET occurs, the BSC sends a BTSFLEXABISPARA(Optiona PREEMPT_ABIS_LINK message to the PCU if l) the PCU can process the message. NO SET Maximum number of secondary links that are BTSFLEXABISPARA(Optiona released in batches when the Abis resource l) preemption occurs on the Abis interface NO SET BTSFMUABP(Mandatory)
Index type of the BTS. BYNAME: query by BTS name; BYID: query by BTS index.
SET BTSFMUABP(Mandatory)
Index of the BTS, uniquely identifying a BTS in a BSC. YES
NO
NO
NO
NO
YES
YES
Name of the BTS, uniquely identifying a BTS in a BSC. This parameter cannot contain the following invalid characters: ,;="'
SET BTSFMUABP(Mandatory)
In addition, cell names cannot contain two or more consecutive %, two or more consecutive spaces, or more than two consecutive +.
NO
YES
SET BTSFMUABP(Optional) Number of the cabinet.
YES
NO
SET BTSFMUABP(Mandatory)
Number of the subrack where the BTS board is located
YES
YES
SET BTSFMUABP(Mandatory)
Number of the slot where the BTS board is located
YES
YES
SET BTSFMUABP(Mandatory)
Whether to allow the configuration of board parameters. The value "YES" indicates that the configuration is allowed, and the value "NO" indicates that the configuration is not allowed. If the parameter is set to "YES", all the other parameters controlled by it are reset to the default values in this command. In multi-mode scenario, the value of this parameter in this mode must be the same as the value of the corresponding parameter in another mode. NO
YES
Whether to enable the smart temperature control mechanism of the FMUA. Smart temperature control refers to the mechanism adopted by the FMUA to adjust the fan speed, and thus to regulate the temperature according to the environment temperature. In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding parameter in another SET BTSFMUABP(Optional) mode. NO
NO
The value of this parameter consists of seven bits. Each bit determines whether to enable the one-way Boolean alarm. "0" indicates that the one-way Boolean alarm is enabled, and "1" indicates that the one-way Boolean alarm is disabled. In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding parameter in another SET BTSFMUABP(Optional) mode. NO
NO
The value of this parameter consists of five bits. Each bit determines whether the one-way Boolean alarm is triggered by low level or high level. "0" indicates that the alarm is triggered by high level, and "1" indicates that the alarm is triggered by low level. In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding parameter in another SET BTSFMUABP(Optional) mode. NO
NO
Cabinet No. of the management board. The management board refers to the TMU or RXU that directly communicates with the board. The configuration of this parameter must be consistent with the actual physical connection. SET BTSFMUABP(Optional) Otherwise, the board may not work properly.
NO
NO
Number of the subrack where the board is located. The management board refers to the TMU or RXU that directly communicates with the board. The configuration of this parameter must be consistent with the actual physical connection. Otherwise, the board may not work SET BTSFMUABP(Optional) properly. NO
NO
Number of the serial port where the board is located. The management board refers to the TMU or RXU that directly communicates with the board. The configuration of this parameter must be consistent with the actual physical connection. Otherwise, the board may not work SET BTSFMUABP(Optional) properly. NO
NO
Communication address of the CBUS3 on the bus 485. The configuration of this parameter must be consistent with the actual physical connection. Otherwise, the board may not work SET BTSFMUABP(Optional) properly.
NO
NO
SET BTSFMUABP(Optional) Type of the FMUA board
NO
NO
SET BTSFORBIDTS(Mandatory)
Index type. BYNAME: query by name; BYID: query by index.
NO
YES
SET BTSFORBIDTS(Mandatory)
Index of the BTS, uniquely identifying a BTS in a BSC. YES
YES
Name of the BTS, uniquely identifying a BTS in a BSC. This parameter cannot contain the following invalid characters: ,;="'
SET BTSFORBIDTS(Mandatory)
In addition, cell names cannot contain two or more consecutive %, two or more consecutive spaces, or more than two consecutive +.
NO
YES
SET BTSFORBIDTS(Mandatory)
The operation type can be "FORBID" or "RESTORE".
NO
YES
SET BTSFORBIDTS(Mandatory)
Number of the port on the BTS side
YES
YES
SET BTSFORBIDTS(Optional)
Number of the cabinet where the port is located
NO
NO
SET BTSFORBIDTS(Optional)
Number of the subrack where the port is located NO
NO
SET BTSFORBIDTS(Optional)
Number of the slot where the port is located
NO
NO
SET BTSFORBIDTS(Mandatory)
Number of the start timeslot
NO
YES
SET BTSFORBIDTS(Optional)
Number of the start sub-timeslot
NO
NO
SET BTSFORBIDTS(Mandatory)
Number of the end timeslot
NO
YES
NO
NO
NO
YES
SET BTSFORBIDTS(Optional) Number of the end sub-timeslot SET BTSGUPWRSHRFP(Mandat Index type of the BTS. BYNAME: query by BTS ory) name; BYID: query by BTS index.
SET BTSGUPWRSHRFP(Mandat Index of the BTS, uniquely identifying a BTS in a ory) BSC. YES
YES
Name of the BTS, uniquely identifying a BTS in a BSC. This parameter cannot contain the following invalid characters: ,;="' SET In addition, cell names cannot contain two or BTSGUPWRSHRFP(Mandat more consecutive %, two or more consecutive ory) spaces, or more than two consecutive +.
NO
YES
Whether to allow the configuration of board parameters. The value "YES" indicates that the configuration is allowed, and the value "NO" indicates that the configuration is not allowed. If the parameter is set to "YES", all the other parameters controlled by it are reset to the default values in this command. In multi-mode scenario, the value of this SET parameter in this mode must be the same as the BTSGUPWRSHRFP(Mandat value of the corresponding parameter in another ory) mode. NO
YES
Start time of period 1 for enabling GU power sharing SET In the network, the period for enabling or BTSGUPWRSHRFP(Optiona disabling GU power sharing must be set l) according to the GU traffic distribution.
NO
NO
End time of period 1 for enabling GU power sharing SET In the network, the period for enabling or BTSGUPWRSHRFP(Optiona disabling GU power sharing must be set l) according to the GU traffic distribution.
NO
NO
Start time of period 2 for enabling GU power sharing SET In the network, the period for enabling or BTSGUPWRSHRFP(Optiona disabling GU power sharing must be set l) according to the GU traffic distribution.
NO
NO
End time of period 2 for enabling GU power SET sharing In the network, the period for enabling or BTSGUPWRSHRFP(Optiona disabling GU power sharing must be set l) according to the GU traffic distribution. NO
NO
Start time of period 3 for enabling GU power SET sharing In the network, the period for enabling or BTSGUPWRSHRFP(Optiona disabling GU power sharing must be set l) according to the GU traffic distribution. NO
NO
End time of period 3 for enabling GU power SET sharing In the network, the period for enabling or BTSGUPWRSHRFP(Optiona disabling GU power sharing must be set l) according to the GU traffic distribution. NO
NO
Start time of period 4 for enabling GU power SET sharing In the network, the period for enabling or BTSGUPWRSHRFP(Optiona disabling GU power sharing must be set l) according to the GU traffic distribution. NO
NO
End time of period 4 for enabling GU power SET sharing In the network, the period for enabling or BTSGUPWRSHRFP(Optiona disabling GU power sharing must be set l) according to the GU traffic distribution. NO
NO
Index type. BYNAME: query by name; BYID: SET BTSIDLETS(Mandatory) query by index.
YES
NO
Index of the BTS, uniquely identifying a BTS in a SET BTSIDLETS(Mandatory) BSC. YES
YES
Name of the BTS, uniquely identifying a BTS in a BSC. This parameter cannot contain the following invalid characters: ,;="' In addition, cell names cannot contain two or more consecutive %, two or more consecutive SET BTSIDLETS(Mandatory) spaces, or more than two consecutive +.
NO
YES
Number of the cabinet group where the idle SET BTSIDLETS(Mandatory) timeslot is located.
NO
YES
Number of idle timeslots. You can configure up to 128 idle timeslots for the BTS at a time. A BTS can be configured with up to 512 idle SET BTSIDLETS(Mandatory) timeslots.
NO
YES
NO
YES
SET BTSIP(Mandatory)
Index type. BYNAME: query by name; BYID: query by index.
SET BTSIP(Mandatory)
Index of the BTS, uniquely identifying a BTS in a BSC. YES
YES
Name of the BTS, uniquely identifying a BTS in a BSC. This parameter cannot contain the following invalid characters: ,;="'
SET BTSIP(Mandatory)
In addition, cell names cannot contain two or more consecutive %, two or more consecutive spaces, or more than two consecutive +.
NO
YES
SET BTSIP(Optional)
Communication type of a BTS
NO
NO
SET BTSIP(Optional)
IP address of a BTS. When "BTS Communication Type" is set to LOGICIP, the value of the parameter is the IP address of the BTS. When "BTS Communication Type" is set to PORTIP, the value of this parameter is the same as that of the IP address of the BTS Ethernet port parameter related to "ADD BTSDEVIP". When "BTS Communication Type" is set to PPPLNK or MPGRP, the value of the parameter is the local IP address of the BTS PPP link or BTS MLPPP group. NO
NO
SET BTSIP(Optional)
IP address of an interface board on the BSC side
NO
NO
SET BTSIP(Optional)
Host type of an IP BTS
NO
NO
SET BTSIP(Mandatory)
Identifier of the peer BTS on the homing BSC side
NO
YES
SET BTSIP(Mandatory)
IP address of the peer BSC on the homing BSC side NO
YES
SET BTSIP(Mandatory)
Subnet mask of the port IP address at the peer BSC.
YES
SET BTSIP(Optional)
IP address of the BTS security gateway. This parameter needs to be configured when the BTS connects to the BSC through the public network. NO
NO
SET BTSIP(Mandatory)
ID of the peer BSC
YES
SET BTSIP(Optional)
Indicates whether the IP path is carried on the IP logic port or the resource group. NO
NO
NO
NO
SET BTSIP(Mandatory)
Indicates the slot number for running this command
NO
YES
SET BTSIP(Mandatory)
Logical port number
NO
YES
SET BTSIP(Mandatory)
Transport resource group number
NO
YES
SET BTSIP(Optional)
BTS Gateway IP Switch
NO
NO
SET BTSIP(Mandatory)
IP address of the next hop
NO
YES
NO
YES
SET Index type. BYNAME: query by name; BYID: BTSIPCLKPARA(Mandatory) query by index.
SET Index of the BTS, uniquely identifying a BTS in a BTSIPCLKPARA(Mandatory) BSC. YES
YES
Name of the BTS, uniquely identifying a BTS in a BSC. This parameter cannot contain the following invalid characters: ,;="' In addition, cell names cannot contain two or SET more consecutive %, two or more consecutive BTSIPCLKPARA(Mandatory) spaces, or more than two consecutive +.
NO
SET BTSIPCLKPARA(Mandatory) Type of the clock protocol for the IP clock server NO Clock domain required by the slave side in the SET 1588V2 protocol. This parameter is valid when BTSIPCLKPARA(Optional) the 1588CLK type is configured. NO
YES
YES
NO
SET BTSIPCLKPARA(Optional)
The clock topology mode of 1588V2,including PTP over UDP unicast and PTP over MAC multicast
NO
NO
SET BTSIPCLKPARA(Optional)
Synchronization mode of the IP clock
NO
NO
SET BTSIPCLKPARA(Optional)
Interim synchronization period (in days). The BTS can re-initiate the synchronization only after the period. NO Interim synchronization period (in hours). The BTS can re-initiate the synchronization only after the period. NO Interim synchronization period (in minutes). The BTS can re-initiate the synchronization only after the period. NO
SET BTSIPCLKPARA(Optional)
NO
NO
NO
YES
NO
YES
SET BTSIPCLKPARA(Optional) SET BTSIPCLKPARA(Optional)
Whether to support clock reference source redundancy configuration It must be the valid address of the A, B, or C SET type and cannot be the broadcast address or BTSIPCLKPARA(Mandatory) network address. The IP address must be a valid class A, B, or C SET address, and it cannot be a broadcast address BTSIPCLKPARA(Mandatory) or network address.
NO
NO
NO
SET BTSIPCLKPARA(Optional)
Number of the cabinet.
NO
NO
SET BTSIPCLKPARA(Optional)
Number of the subrack where the BTS board is located
NO
NO
SET BTSIPCLKPARA(Optional)
Number of the slot where the BTS board is located
NO
NO
NO
YES
SET Clock Reference Source MAC Address of Clock BTSIPCLKPARA(Mandatory) Link 0,for example:11-22-33-fa-fa-ff. NO
YES
SET BTSIPCLKPARA(Mandatory) Port Number of Clock Link 1.
NO
YES
SET Clock Reference Source MAC Address of Clock BTSIPCLKPARA(Mandatory) Link 1,for example:11-22-33-fa-fa-ff. NO
YES
SET BTSIPCLKPARA(Mandatory) Port Number of Clock Link 0.
ADD BTSIPLGCPORT(Mandatory) MOD BTSIPLGCPORT(Mandatory) RMV Index type. BYNAME: query by name; BYID: BTSIPLGCPORT(Mandatory) query by index.
NO
ADD BTSIPLGCPORT(Mandatory) MOD BTSIPLGCPORT(Mandatory) RMV Index of the BTS, uniquely identifying a BTS in a BTSIPLGCPORT(Mandatory) BSC. YES
YES
YES
Name of the BTS, uniquely identifying a BTS in a BSC. This parameter cannot contain the following invalid characters: ADD BTSIPLGCPORT(Mandatory) MOD BTSIPLGCPORT(Mandatory) RMV BTSIPLGCPORT(Mandatory)
,;="' In addition, cell names cannot contain two or more consecutive %, two or more consecutive spaces, or more than two consecutive +.
NO
YES
ADD BTSIPLGCPORT(Optional) MOD BTSIPLGCPORT(Optional) RMV BTSIPLGCPORT(Optional)
Number of the cabinet where the port is located
YES
NO
ADD BTSIPLGCPORT(Optional) MOD BTSIPLGCPORT(Optional) RMV BTSIPLGCPORT(Optional)
Number of the subrack where the port is located YES
NO
ADD BTSIPLGCPORT(Optional) MOD BTSIPLGCPORT(Optional) RMV BTSIPLGCPORT(Optional)
Number of the slot where the port is located
YES
NO
ADD BTSIPLGCPORT(Mandatory) MOD BTSIPLGCPORT(Mandatory) RMV This parameter indicates the number of the BTSIPLGCPORT(Mandatory) logical port of an IP BTS board.
YES
YES
ADD BTSIPLGCPORT(Mandatory) Number of the FE or GE port
NO
YES
ADD BTSIPLGCPORT(Mandatory) MOD This parameter indicates the transmission BTSIPLGCPORT(Optional) bandwidth over the logical port.
NO
YES
ADD BTSIPLGCPORT(Mandatory) MOD This parameter indicates the maximum length of BTSIPLGCPORT(Optional) the burst sent over the logical port. NO
YES
Index type. BYNAME: query by name; BYID: IMP BTSIPPARA(Mandatory) query by index.
NO
YES
Index of the BTS, uniquely identifying a BTS in a IMP BTSIPPARA(Mandatory) BSC. NO
YES
Name of the BTS, uniquely identifying a BTS in a BSC. This parameter cannot contain the following invalid characters: ,;="' In addition, cell names cannot contain two or more consecutive %, two or more consecutive IMP BTSIPPARA(Mandatory) spaces, or more than two consecutive +.
NO
YES
IMP BTSIPPARA(Mandatory) Configuration Switch.
NO
YES
Type of IP physical transmission cable medium, IMP BTSIPPARA(Mandatory) E1 or FE/GE. NO
YES
IMP BTSIPPARA(Mandatory) Communication type of a BTS
YES
NO
IP address of a BTS. When "BTS Communication Type" is set to LOGICIP, the value of the parameter is the IP address of the BTS. When "BTS Communication Type" is set to PORTIP, the value of this parameter is the same as that of the IP address of the BTS Ethernet port parameter related to "ADD BTSDEVIP". When "BTS Communication Type" is set to PPPLNK or MPGRP, the value of the parameter is the local IP address of the BTS PPP link or IMP BTSIPPARA(Mandatory) BTS MLPPP group. NO
YES
IP address of an interface board on the BSC IMP BTSIPPARA(Mandatory) side
NO
YES
ADD BTSIPRT(Mandatory) RMV BTSIPRT(Mandatory) MOD BTSIPRT(Mandatory) IMP BTSIPRT(Mandatory)
Index type. BYNAME: query by name; BYID: query by index.
NO
YES
ADD BTSIPRT(Mandatory) RMV BTSIPRT(Mandatory) MOD BTSIPRT(Mandatory) IMP BTSIPRT(Mandatory)
Index of the BTS, uniquely identifying a BTS in a BSC. YES
YES
Name of the BTS, uniquely identifying a BTS in a BSC. This parameter cannot contain the following invalid characters: ,;="' ADD BTSIPRT(Mandatory) RMV BTSIPRT(Mandatory) MOD BTSIPRT(Mandatory) IMP BTSIPRT(Mandatory) ADD BTSIPRT(Optional) RMV BTSIPRT(Mandatory) MOD BTSIPRT(Mandatory) ADD BTSIPRT(Mandatory) MOD BTSIPRT(Optional) IMP BTSIPRT(Mandatory) ADD BTSIPRT(Mandatory) MOD BTSIPRT(Optional) IMP BTSIPRT(Mandatory) ADD BTSIPRT(Optional) MOD BTSIPRT(Optional) IMP BTSIPRT(Optional)
In addition, cell names cannot contain two or more consecutive %, two or more consecutive spaces, or more than two consecutive +.
NO
YES
Index of a route. The index is unique in a BTS.
YES
NO
Destination IP address
NO
YES
Subnet mask of BTS Route.
NO
YES
Priority of a route. A smaller value of this parameter indicates a higher priority. The BTS preferentially selects the route with a high priority to transfer information. NO
NO
ADD BTSIPRT(Mandatory) MOD BTSIPRT(Optional) IMP BTSIPRT(Mandatory) ADD BTSIPRT(Optional) MOD BTSIPRT(Optional) IMP BTSIPRT(Optional) ADD BTSIPRT(Optional) MOD BTSIPRT(Optional) IMP BTSIPRT(Optional) ADD BTSIPRT(Optional) MOD BTSIPRT(Optional) IMP BTSIPRT(Optional) ADD BTSIPRT(Mandatory) MOD BTSIPRT(Mandatory) IMP BTSIPRT(Mandatory)
ADD BTSIPRT(Mandatory) MOD BTSIPRT(Mandatory) IMP BTSIPRT(Mandatory) ADD BTSIPRT(Mandatory) MOD BTSIPRT(Mandatory) IMP BTSIPRT(Mandatory)
IMP BTSIPRT(Mandatory)
Based on which a packet is routed: next hop IP address or output port of an interface board. If the routing port of the BTS works in IP over FE mode, Route Type can be set to either NEXTHOP or OUTIF. If the routing port of the BTS works in IP over E1 mode, Route Type can be set to only OUTIF. NO
YES
Number of the cabinet where the port is located
NO
NO
Number of the subrack where the port is located NO
NO
Number of the slot where the port is located
NO
NO
IP address of the next hop
NO
YES
Type of the interface. This is determined by the type of the protocol currently used by the BTS. Point-to-Point Protocol (PPP) is a data link protocol. Multilink PPP (MP) is a bandwidth-ondemand protocol that binds multiple links together according to PPP (also called link aggregation).
NO
YES
Number of the outgoing interface of a link
NO
YES
Configuration Switch.
NO
YES
ADD BTSIPRTBIND(Mandatory) MOD BTSIPRTBIND(Mandatory) RMV BTSIPRTBIND(Mandatory)
Type of an index.
ADD BTSIPRTBIND(Mandatory) MOD BTSIPRTBIND(Mandatory) RMV BTSIPRTBIND(Mandatory)
Index of the BTS, uniquely identifying a BTS in a BSC. YES
NO
YES
YES
Name of the BTS, uniquely identifying a BTS in a BSC. This parameter cannot contain the following invalid characters: ADD BTSIPRTBIND(Mandatory) MOD BTSIPRTBIND(Mandatory) RMV BTSIPRTBIND(Mandatory)
,;="' In addition, cell names cannot contain two or more consecutive %, two or more consecutive spaces, or more than two consecutive +.
NO
YES
ADD BTSIPRTBIND(Mandatory) MOD BTSIPRTBIND(Mandatory) RMV BTSIPRTBIND(Mandatory)
Destination IP address
YES
YES
ADD BTSIPRTBIND(Mandatory) MOD BTSIPRTBIND(Mandatory) RMV BTSIPRTBIND(Mandatory)
Subnet mask of BTS Route.
YES
YES
ADD BTSIPRTBIND(Mandatory) MOD BTSIPRTBIND(Mandatory) RMV BTSIPRTBIND(Mandatory)
IP address of the next hop
YES
YES
ADD BTSIPRTBIND(Optional)
Number of the cabinet
NO
NO
ADD BTSIPRTBIND(Optional)
Number of the subrack where the BTS board is located
NO
NO
ADD BTSIPRTBIND(Optional)
Number of the slot where the BTS board is located
NO
NO
ADD BTSIPRTBIND(Mandatory) MOD BTSIPRTBIND(Optional)
BFD Session No.
NO
YES
MOD BTSIPRTBIND(Optional)
Number of the cabinet.
NO
NO
MOD BTSIPRTBIND(Optional)
Number of the subrack where the BTS board is located
NO
NO
MOD BTSIPRTBIND(Optional)
Number of the slot where the BTS board is located
NO
NO
NO
YES
ADD BTSIPTOLGCPORT(Mandat ory) RMV BTSIPTOLGCPORT(Mandat Index type. BYNAME: query by name; BYID: ory) query by index.
ADD BTSIPTOLGCPORT(Mandat ory) RMV BTSIPTOLGCPORT(Mandat Index of the BTS, uniquely identifying a BTS in a ory) BSC. YES
YES
Name of the BTS, uniquely identifying a BTS in a BSC. This parameter cannot contain the following invalid characters: ADD BTSIPTOLGCPORT(Mandat ory) RMV BTSIPTOLGCPORT(Mandat ory) ADD
,;="' In addition, cell names cannot contain two or more consecutive %, two or more consecutive spaces, or more than two consecutive +.
NO
YES
YES
NO
BTSIPTOLGCPORT(Optional ) RMV BTSIPTOLGCPORT(Optional Number of the subrack where the port is located YES
NO
BTSIPTOLGCPORT(Optional ) RMV BTSIPTOLGCPORT(Optional Number of the cabinet where the port is located ADD
ADD BTSIPTOLGCPORT(Optional ) RMV BTSIPTOLGCPORT(Optional Number of the slot where the port is located
YES
NO
ADD BTSIPTOLGCPORT(Mandat ory) RMV BTSIPTOLGCPORT(Mandat This parameter indicates the number of the ory) logical port of an IP BTS board.
YES
YES
YES
YES
NO
YES
NO
YES
ADD BTSIPTOLGCPORT(Mandat ory) RMV BTSIPTOLGCPORT(Mandat ory) ADD BTSIPTOLGCPORT(Mandat ory)
This parameter indicates the destination IP address for data transmission from the BTS. This parameter indicates the mask of the destination IP address for data transmission from the BTS.
SET BTSJBF(Mandatory)
Index type of the BTS. BYNAME: query by BTS name; BYID: query by BTS index.
SET BTSJBF(Mandatory)
Index of the BTS, uniquely identifying a BTS in a BSC. YES
YES
Name of the BTS, uniquely identifying a BTS in a BSC. This parameter cannot contain the following invalid characters: ,;="'
SET BTSJBF(Mandatory)
In addition, cell names cannot contain two or more consecutive %, two or more consecutive spaces, or more than two consecutive +.
NO
YES
SET BTSJBF(Mandatory)
Whether to enable the LAPD Jitter Buffer algorithm. This algorithm adds a buffering adaptation layer under the LAPD layer at the receiving end. The function at this layer is to delay the I frame (first received, last sent) currently received. If an I frame is received within the delayed duration, the frame is sent to the LAPD layer. In this way, the frame disorder is avoided. NO
YES
SET BTSLAPDWS(Mandatory)
Index type of the BTS. BYNAME: query by BTS name; BYID: query by BTS index.
YES
NO
SET BTSLAPDWS(Mandatory)
Index of the BTS, uniquely identifying a BTS in a BSC. YES
YES
Name of the BTS, uniquely identifying a BTS in a BSC. This parameter cannot contain the following invalid characters: ,;="'
SET BTSLAPDWS(Mandatory)
In addition, cell names cannot contain two or more consecutive %, two or more consecutive spaces, or more than two consecutive +.
NO
YES
Size of the OML/ESL/EML Downlink LAPD SET BTSLAPDWS(Optional) window
NO
NO
SET BTSLAPDWS(Optional) Size of the RSL LAPD window
NO
NO
SET BTSLAPDWS(Optional) Size of the OML/ESL/EML Uplink LAPD Window NO
NO
SET Index type. BYNAME: query by name; BYID: BTSLOADCTRL(Mandatory) query by index.
NO
YES
SET Index of the BTS, uniquely identifying a BTS in a BTSLOADCTRL(Mandatory) BSC. NO
YES
Name of the BTS, uniquely identifying a BTS in a BSC. This parameter cannot contain the following invalid characters: ,;="' In addition, cell names cannot contain two or SET more consecutive %, two or more consecutive BTSLOADCTRL(Mandatory) spaces, or more than two consecutive +.
NO
YES
SET BTSLOADCTRL(Mandatory) Control Flag
NO
YES
SET BTSLOADCTRL(Mandatory) Effect Immediately Flag
NO
YES
SET BTSLOADCTRL(Mandatory) Self Software Version
NO
YES
SET BTSLOADCTRL(Mandatory) Peer Software Version
NO
YES
ADD BTSLOCGRP(Mandatory) MOD BTSLOCGRP(Mandatory) RMV BTSLOCGRP(Mandatory)
Index type of the BTS. BYNAME: query by BTS name; BYID: query by BTS index.
NO
YES
ADD BTSLOCGRP(Mandatory) MOD BTSLOCGRP(Mandatory) RMV BTSLOCGRP(Mandatory)
Index of the BTS, uniquely identifying a BTS in a BSC. YES
YES
Name of the BTS, uniquely identifying a BTS in a BSC. This parameter cannot contain the following invalid characters: ADD BTSLOCGRP(Mandatory) MOD BTSLOCGRP(Mandatory) RMV BTSLOCGRP(Mandatory)
,;="' In addition, cell names cannot contain two or more consecutive %, two or more consecutive spaces, or more than two consecutive +.
NO
YES
ADD BTSLOCGRP(Mandatory) MOD BTSLOCGRP(Mandatory) RMV BTSLOCGRP(Mandatory)
Number of the location group under the BTS. It is unique for each BTS.
YES
YES
ADD BTSLOCGRP(Mandatory)
Whether this location group is the main location group. If the value is Yes, this location group is the main location group. If the value is No, this location group is the slave location group.
NO
YES
ADD BTSLOCGRP(Optional) Minimum voltage level for accessing CS services MOD BTSLOCGRP(Optional) of the location group NO
NO
ADD BTSLOCGRP(Optional) Minimum voltage level for accessing PS services MOD BTSLOCGRP(Optional) of the location group NO
NO
ADD BTSLOCGRP(Optional) MOD BTSLOCGRP(Optional) Output power unit of the location group.
NO
NO
ADD BTSLOCGRP(Mandatory) MOD BTSLOCGRP(Mandatory)
Output power of the location group. For a location group that consists of MRRU or GRRU boards, the default output power is 15W. For a location group that consists of DRRU boards, the default output power varies with frequency bands. That is, when the frequency band is 850M/900M, the default output power is 18W; when the frequency band is 1800M/1900M, the default output power is 15W. NO
YES
ADD BTSLOCGRP(Mandatory) MOD BTSLOCGRP(Mandatory)
Output power of the location group
NO
YES
NO
YES
SET BTSLOCKBCCH(Mandatory) Type of an index.
SET Index of the BTS, uniquely identifying a BTS in a BTSLOCKBCCH(Mandatory) BSC. YES
YES
Name of the BTS, uniquely identifying a BTS in a BSC. This parameter cannot contain the following invalid characters: ,;="' In addition, cell names cannot contain two or SET more consecutive %, two or more consecutive BTSLOCKBCCH(Mandatory) spaces, or more than two consecutive +.
NO
YES
This parameter specifies whether the BSC is allowed to shut down the BCCH TRX that is configured as "Shut Down Enabled" to save power after the BSC receives a power failure message from the BTS. When this parameter is set to Yes, the BSC shuts down all the TRXs that are configured as "Shut Down Enabled", including the BCCH TRX, after receiving a power failure message from the BTS. When this parameter is set to No, the BSC shuts down only the non-BCCH TRXs that are SET configured as "Shut Down Enabled" after BTSLOCKBCCH(Mandatory) receiving a power failure message from the BTS. NO
YES
SET BTSLSW(Mandatory)
Type of an index.
YES
SET BTSLSW(Mandatory)
Index of the BTS, uniquely identifying a BTS in a BSC. YES
NO
YES
Name of the BTS, uniquely identifying a BTS in a BSC. This parameter cannot contain the following invalid characters: ,;="'
SET BTSLSW(Mandatory)
In addition, cell names cannot contain two or more consecutive %, two or more consecutive spaces, or more than two consecutive +.
SET BTSLSW(Optional)
Whether to enable the BTS to support local switching If the BTS supports local switching, when the calling and called MSs are both within the BTS or BTS group, the voice signals are looped back to the MSs within the BTS or BTS group instead of being sent over the Abis interface to the BSC and MSC. In this way, the Abis resources between the convergence BTS and the BSC are released and saved. NO
NO
Region information of the IP BTS configured with local switching. Local switching can be performed between only the BTSs that have the same region information. NO
NO
SET ADD BTSLSW(Optional) BTSMONITORTS(Mandatory ) MOD BTSMONITORTS(Mandatory ) Index type. BYNAME: query by name; BYID: RMV query by index. ADD
NO
NO
YES
YES
BTSMONITORTS(Mandatory ) MOD BTSMONITORTS(Mandatory ) Index of the BTS, uniquely identifying a BTS in a RMV BSC. YES
YES
ADD BTSMONITORTS(Mandatory ) MOD BTSMONITORTS(Mandatory ) RMV BTSMONITORTS(Mandatory )
YES
Name of the BTS, uniquely identifying a BTS in a BSC. This parameter cannot contain the following invalid characters: ,;="' In addition, cell names cannot contain two or more consecutive %, two or more consecutive spaces, or more than two consecutive +.
NO
ADD BTSMONITORTS(Optional) MOD BTSMONITORTS(Mandatory ) RMV Index of the monitoring timeslot. The index is BTSMONITORTS(Mandatory unique in a BTS.
YES
NO
ADD BTSMONITORTS(Mandatory ) MOD BTSMONITORTS(Optional) Rate of the monitoring timeslot ADD
NO
YES
BTSMONITORTS(Mandatory ) MOD BTSMONITORTS(Optional) In-BSC subrack No. of the monitoring timeslot ADD
NO
YES
BTSMONITORTS(Mandatory ) MOD BTSMONITORTS(Optional) In-BSC slot No. of the monitoring timeslot ADD
NO
YES
BTSMONITORTS(Mandatory ) MOD BTSMONITORTS(Optional) In-BSC port No. of the monitoring timeslot ADD
NO
YES
BTSMONITORTS(Mandatory ) MOD BTSMONITORTS(Optional) In-BSC timeslot No. of the monitoring timeslot
NO
YES
In-BSC sub-timeslot No. of the monitoring timeslot. If the added monitoring timeslot works at 64 kbit/s, the sub-timeslots are numbered from 0. If the added monitoring timeslot works at 32 kbit/s, the sub-timeslots are numbered from 0 ADD or 4. If the added monitoring timeslot works at 16 BTSMONITORTS(Mandatory kbit/s, the sub-timeslots are numbered from 0, 2, ) 4, or 6. If the added monitoring timeslot works at MOD 8 kbit/s, the sub-timeslots are numbered from BTSMONITORTS(Optional) any value among 0 to 7. NO ADD BTSMONITORTS(Mandatory ) MOD Number of the outgoing port of the BTS where BTSMONITORTS(Optional) the monitoring timeslot is located NO
YES
YES
ADD BTSMONITORTS(Optional) MOD BTSMONITORTS(Optional)
Number of the cabinet where the outgoing port of the BTS is located
NO
NO
ADD BTSMONITORTS(Optional) MOD BTSMONITORTS(Optional)
Number of the subrack where the outgoing port of the BTS is located
NO
NO
ADD BTSMONITORTS(Optional) MOD BTSMONITORTS(Optional) ADD
Number of the slot where the outgoing port of the BTS is located
NO
NO
NO
YES
ADD BTSMONITORTS(Mandatory ) MOD Number of the sub-timeslot on the outgoing port BTSMONITORTS(Optional) of the BTS NO
YES
ADD BTSMPGRP(Mandatory) MOD BTSMPGRP(Mandatory) RMV BTSMPGRP(Mandatory) Index type. BYNAME: query by name; BYID: IMP BTSMPGRP(Mandatory) query by index.
YES
BTSMONITORTS(Mandatory ) MOD Number of the timeslot on the outgoing port of BTSMONITORTS(Optional) the BTS
NO
ADD BTSMPGRP(Mandatory) MOD BTSMPGRP(Mandatory) RMV BTSMPGRP(Mandatory) Index of the BTS, uniquely identifying a BTS in a IMP BTSMPGRP(Mandatory) BSC. YES
YES
ADD BTSMPGRP(Mandatory) MOD BTSMPGRP(Mandatory) RMV BTSMPGRP(Mandatory) IMP BTSMPGRP(Mandatory)
Name of the BTS, uniquely identifying a BTS in a BSC. This parameter cannot contain the following invalid characters: ,;="' In addition, cell names cannot contain two or more consecutive %, two or more consecutive spaces, or more than two consecutive +.
NO
YES
ADD BTSMPGRP(Mandatory) MOD BTSMPGRP(Mandatory) RMV Number of an MLPPP group on a BTS. It is BTSMPGRP(Mandatory) unique in a BTS.The scope of the number of the IMP BTSMPGRP(Mandatory) MLPPP group in the BTS3900 series is 0~1. YES
YES
ADD BTSMPGRP(Optional) MOD BTSMPGRP(Optional) RMV BTSMPGRP(Optional) IMP BTSMPGRP(Optional)
Number of the cabinet where the port is located
YES
NO
ADD BTSMPGRP(Optional) MOD BTSMPGRP(Optional) RMV BTSMPGRP(Optional) IMP BTSMPGRP(Optional)
Number of the subrack where the port is located YES
NO
ADD BTSMPGRP(Optional) MOD BTSMPGRP(Optional) RMV BTSMPGRP(Optional) IMP BTSMPGRP(Optional)
Number of the slot where the port is located
YES
NO
ADD BTSMPGRP(Mandatory) MOD BTSMPGRP(Optional) IMP BTSMPGRP(Mandatory) Local IP address of BTS MLPPP Group.
NO
YES
ADD BTSMPGRP(Mandatory) MOD BTSMPGRP(Optional) IMP BTSMPGRP(Mandatory) Subnet mask of BTS MLPPP Group.
NO
YES
IP address of the peer end of BTS MLPPP Group.
NO
YES
Is Support MCPPP.
NO
NO
Frame encapsulation format supported by MP/MC.
NO
NO
ADD BTSMPGRP(Mandatory) MOD BTSMPGRP(Optional) IMP BTSMPGRP(Mandatory) ADD BTSMPGRP(Optional) MOD BTSMPGRP(Optional) IMP BTSMPGRP(Optional) ADD BTSMPGRP(Optional) MOD BTSMPGRP(Optional) IMP BTSMPGRP(Optional)
ADD BTSMPGRP(Optional) MOD BTSMPGRP(Optional) IMP BTSMPGRP(Optional)
Number of MC priority levels.
NO
NO
ADD BTSMPGRP(Optional) MOD BTSMPGRP(Optional) IMP BTSMPGRP(Optional)
Type of the validation protocol for the PPP or MLPPP link negotiation
NO
NO
ADD BTSMPGRP(Mandatory) MOD BTSMPGRP(Mandatory) Validation mode of the PPP or MLPPP link IMP BTSMPGRP(Mandatory) negotiation
NO
YES
ADD BTSMPGRP(Mandatory) MOD BTSMPGRP(Mandatory) Username to validate, for the PPP or MLPPP IMP BTSMPGRP(Mandatory) link negotiation
NO
YES
ADD BTSMPGRP(Mandatory) MOD BTSMPGRP(Mandatory) Password to validate, upon PPP or MLPPP link IMP BTSMPGRP(Mandatory) negotiation
NO
YES
ADD BTSMPGRP(Optional) MOD BTSMPGRP(Optional) IMP BTSMPGRP(Optional) ADD BTSMPGRP(Optional) MOD BTSMPGRP(Optional) IMP BTSMPGRP(Optional) ADD BTSMPGRP(Optional) MOD BTSMPGRP(Optional) IMP BTSMPGRP(Optional) ADD BTSMPGRP(Optional) MOD BTSMPGRP(Optional) IMP BTSMPGRP(Optional) ADD BTSMPGRP(Optional) MOD BTSMPGRP(Optional) IMP BTSMPGRP(Optional) ADD BTSMPGRP(Optional) MOD BTSMPGRP(Optional) IMP BTSMPGRP(Optional)
Whether to compress the protocol field of the PPP link. A flag bit indicates Whether to support the compression of the address and control fields. When the number of error frames on the MP group reaches the value of this parameter, the frame error alarm is generated.
NO
NO
NO
NO
NO
NO
When the number of error frames on the MP group decreases to the value of this parameter, the frame error alarm is cleared. NO When the number of error frames on the IP layer reaches the value of this parameter, the frame error alarm is generated. NO When the number of error frames on the IP layer decreases to the value of this parameter, the frame error alarm is cleared. NO
NO
NO
NO
IMP BTSMPGRP(Mandatory) Configuration Switch.
NO
YES
ADD BTSMPLNK(Mandatory) MOD BTSMPLNK(Mandatory) RMV BTSMPLNK(Mandatory) Index type. BYNAME: query by name; BYID: IMP BTSMPLNK(Mandatory) query by index.
NO
YES
ADD BTSMPLNK(Mandatory) MOD BTSMPLNK(Mandatory) RMV BTSMPLNK(Mandatory) Index of the BTS, uniquely identifying a BTS in a IMP BTSMPLNK(Mandatory) BSC. YES
YES
Name of the BTS, uniquely identifying a BTS in a BSC. This parameter cannot contain the following invalid characters: ADD BTSMPLNK(Mandatory) MOD BTSMPLNK(Mandatory) RMV BTSMPLNK(Mandatory) IMP BTSMPLNK(Mandatory)
,;="' In addition, cell names cannot contain two or more consecutive %, two or more consecutive spaces, or more than two consecutive +.
NO
YES
ADD BTSMPLNK(Mandatory) MOD Number of an MLPPP group on a BTS. It is BTSMPLNK(Mandatory) unique in a BTS.The scope of the number of the IMP BTSMPLNK(Mandatory) MLPPP group in the BTS3900 series is 0~1. NO
YES
ADD BTSMPLNK(Mandatory) MOD BTSMPLNK(Mandatory) RMV BTSMPLNK(Mandatory) IMP BTSMPLNK(Mandatory) Number of a BTS PPP link. ADD BTSMPLNK(Mandatory) MOD BTSMPLNK(Optional) IMP BTSMPLNK(Mandatory) Number of the port on the BTS side
YES
YES
NO
YES
ADD BTSMPLNK(Optional) MOD BTSMPLNK(Optional) RMV BTSMPLNK(Optional) IMP BTSMPLNK(Optional)
Number of the cabinet where the port is located
YES
NO
ADD BTSMPLNK(Optional) MOD BTSMPLNK(Optional) RMV BTSMPLNK(Optional) IMP BTSMPLNK(Optional)
Number of the subrack where the port is located YES
NO
ADD BTSMPLNK(Optional) MOD BTSMPLNK(Optional) RMV BTSMPLNK(Optional) IMP BTSMPLNK(Optional)
Number of the slot where the port is located
NO
YES
ADD BTSMPLNK(Mandatory) MOD BTSMPLNK(Optional) IMP BTSMPLNK(Mandatory) ADD BTSMPLNK(Optional) MOD BTSMPLNK(Optional) IMP BTSMPLNK(Optional) ADD BTSMPLNK(Optional) MOD BTSMPLNK(Optional) IMP BTSMPLNK(Optional)
Timeslot of the E1/T1 link carrying the PPP link. The timeslot of an E1 port cannot be used by different PPP links. NO Maximum length of a received packet. The value of this parameter is negotiated at both ends of a communication. NO
Timer
YES
NO
NO
NO
IMP BTSMPLNK(Mandatory) Configuration Switch.
NO
YES
SET BTSNFCBBP(Mandatory)
Index type of the BTS. BYNAME: query by BTS name; BYID: query by BTS index.
NO
YES
SET BTSNFCBBP(Mandatory)
Index of the BTS, uniquely identifying a BTS in a BSC. YES
YES
Name of the BTS, uniquely identifying a BTS in a BSC. This parameter cannot contain the following invalid characters: ,;="'
SET BTSNFCBBP(Mandatory)
In addition, cell names cannot contain two or more consecutive %, two or more consecutive spaces, or more than two consecutive +.
NO
YES
SET BTSNFCBBP(Mandatory)
Number of the subrack where the BTS board is located
YES
YES
SET BTSNFCBBP(Mandatory)
Number of the slot where the BTS board is located
YES
YES
SET BTSNFCBBP(Mandatory)
Whether to allow the configuration of board parameters. The value "YES" indicates that the configuration is allowed, and the value "NO" indicates that the configuration is not allowed. If the parameter is set to "YES", all the other parameters controlled by it are reset to the default values in this command. In multi-mode scenario, the value of this parameter in this mode must be the same as the value of the corresponding parameter in another mode. NO
YES
SET BTSNFCBBP(Optional)
Whether to enable the smart temperature control mechanism of the NFCB. Smart temperature control refers to the mechanism adopted by the NFCB to adjust the fan speed, and thus to regulate the temperature according to the environment temperature. NO
NO
ADD BTSOBJALMSHLD(Mandator y) RMV BTSOBJALMSHLD(Mandator y) Type of the alarm shield object
YES
YES
ADD BTSOBJALMSHLD(Mandator y) RMV BTSOBJALMSHLD(Mandator Index type of the BTS. BYNAME: query by BTS y) name; BYID: query by BTS index.
NO
YES
Name of the BTS, uniquely identifying a BTS in a BSC. This parameter cannot contain the following invalid characters: ADD BTSOBJALMSHLD(Mandator y) RMV BTSOBJALMSHLD(Mandator y)
,;="' In addition, cell names cannot contain two or more consecutive %, two or more consecutive spaces, or more than two consecutive +.
NO
YES
ADD BTSOBJALMSHLD(Mandator y) RMV BTSOBJALMSHLD(Mandator Index of the BTS, uniquely identifying a BTS in a y) BSC. YES
YES
ADD BTSOBJALMSHLD(Mandator y) RMV BTSOBJALMSHLD(Mandator Index of a cell, uniquely identifying a cell in a y) BSC.
YES
YES
ADD BTSOBJALMSHLD(Mandator y) RMV BTSOBJALMSHLD(Mandator y) Number of a location group
YES
YES
ADD BTSOBJALMSHLD(Mandator y) RMV BTSOBJALMSHLD(Mandator y) Number of the cabinet.
YES
YES
ADD BTSOBJALMSHLD(Mandator y) RMV BTSOBJALMSHLD(Mandator Number of the subrack where the BTS board is y) located
YES
YES
ADD BTSOBJALMSHLD(Mandator y) RMV BTSOBJALMSHLD(Mandator Number of the slot where the BTS board is y) located
YES
YES
ADD BTSOBJALMSHLD(Mandator y) RMV BTSOBJALMSHLD(Mandator y) Alarm port number
YES
YES
ADD BTSOBJALMSHLD(Mandator y) RMV BTSOBJALMSHLD(Optional) Alarm selection mode
NO
YES
NO
YES
NO
YES
ADD BTSOBJALMSHLD(Mandator y) RMV BTSOBJALMSHLD(Mandator y) Alarm ID SET BTSOMLBACKUP(Mandatory ) Type of an index.
SET BTSOMLBACKUP(Mandatory Index of the BTS, uniquely identifying a BTS in a ) BSC. YES
YES
Name of the BTS, uniquely identifying a BTS in a BSC. This parameter cannot contain the following invalid characters: ,;="' SET In addition, cell names cannot contain two or BTSOMLBACKUP(Mandatory more consecutive %, two or more consecutive ) spaces, or more than two consecutive +.
NO
YES
SET BTSOMLBACKUP(Optional)
This parameter specifies whether to configure the backup OML. When "YES" is configured in the BTS, an OML is configured in timeslot 31 of port 0 and port 1 respectively. The links are established on the two ports in turn after the BTS is reset. Once the OML is established on a port, it is always used unless the BTS is reset or the OML is disconnected. If the established OML is disconnected, the BTS automatically switches the OML over to another port to re-establish the OML. NO
NO
SET BTSOMLBACKUP(Optional)
Time for which the BTS waits to swap the OML after the OML is interrupted. With this parameter, the BTS does not swap the OML when the OML is interrupted transiently.
NO
NO
Maximum time in which the BTS attempts to set up the OML after swapping the main and backup OMLs. If the BTS fails to set up the OML within this time, the BTS swaps the main and backup OMLs again. NO
SET BTSOMLBACKUP(Optional) SET BTSOMLDETECT(Mandatory Index type. BYNAME: query by name; BYID: ) query by index.
NO
SET BTSOMLDETECT(Mandatory Index of the BTS, uniquely identifying a BTS in a ) BSC. YES
NO
YES
YES
Name of the BTS, uniquely identifying a BTS in a BSC. This parameter cannot contain the following invalid characters: ,;="' SET In addition, cell names cannot contain two or BTSOMLDETECT(Mandatory more consecutive %, two or more consecutive ) spaces, or more than two consecutive +.
NO
YES
If OML Detection Switch is set to OFF, then the OML timeslot automatic detection is not supported. In this case, the OML is carried on the default timeslots. If OML Detection Switch is set to ON, then the OML timeslot automatic SET detection is supported. In this case, you can run BTSOMLDETECT(Mandatory the "SET BTSOMLTS" command to allocate the ) OML to the specified timeslots. NO
YES
SET BTSOMLDETECT(Mandatory ) Bard code of BTS BBU board.
NO
YES
Index type. BYNAME: query by name; BYID: SET BTSOMLTS(Mandatory) query by index.
NO
YES
Index of the BTS, uniquely identifying a BTS in a SET BTSOMLTS(Mandatory) BSC. YES
YES
Name of the BTS, uniquely identifying a BTS in a BSC. This parameter cannot contain the following invalid characters: ,;="' In addition, cell names cannot contain two or more consecutive %, two or more consecutive SET BTSOMLTS(Mandatory) spaces, or more than two consecutive +.
NO
YES
SET BTSOMLTS(Mandatory) Number of the port on the BTS side
NO
YES
SET BTSOMLTS(Optional)
Number of the cabinet where the port is located
NO
NO
SET BTSOMLTS(Optional)
Number of the subrack where the port is located NO
NO
SET BTSOMLTS(Optional)
Number of the slot where the port is located
NO
NO
SET BTSOMLTS(Mandatory) Number of the timeslot on the port
NO
YES
SET BTSOMLTS(Mandatory) Number of the sub-timeslot on the port
NO
YES
ADD BTSOP(Mandatory) RMV BTSOP(Mandatory)
Base station index, 65535 indicate all base stations.
NO
YES
SET BTSOTHPARA(Mandatory)
Index type of the BTS. BYNAME: query by BTS name; BYID: query by BTS index.
NO
YES
SET BTSOTHPARA(Mandatory)
Index of the BTS, uniquely identifying a BTS in a BSC. NO
YES
Name of the BTS, uniquely identifying a BTS in a BSC. This parameter cannot contain the following invalid characters: ,;="'
SET BTSOTHPARA(Mandatory)
In addition, cell names cannot contain two or more consecutive %, two or more consecutive spaces, or more than two consecutive +.
SET BTSOTHPARA(Optional)
Site synchronization method. AISS stands for the air-interface soft synchronization method, and GPS stands for the GPS synchronization method. NO
NO
YES
NO
SET BTSOTHPARA(Optional)
This parameter specifies whether the BTS is allowed to enable the PSU Smart Control feature. When this parameter is set to YES, the BTS automatically enables or disables the PSU according to the traffic volume to improve the efficiency of the PSU. When this parameter is set to NO, the PSUs of the BTS are all working. The following types of BTS support the PSU Smart Control feature: BTS3012AE BTS3900A GSM, BTS3900 GSM, DBS3900 GSM, and BTS3900L GSM: support the PSU Smart Control feature through the matching APM30.
NO
NO
SET BTSOTHPARA(Optional)
BTS detection switch. If the parameter is set to "CLOSE", the function of detecting the BTS is disabled. If the parameter is set to "OPEN", the function of detecting the BTS is enabled. When the function of detecting the BTS is enabled, the BSC performs addressing according to the BTS IP address and sends the UDP packet carrying the VLANID to the BTS. NO
NO
SET BTSOTHPARA(Optional)
This parameter specifies whether the multicarrier transceiver unit supports the Multi-Carrier Intelligent Voltage Regulation feature. When this parameter is set to YES, the multicarrier transceiver unit automatically regulates its working voltage according to the power requirements of a service. When this parameter is set to NO, the multi-carrier transceiver unit works at a fixed working voltage.This parameter applies only to BTS3036, BTS3036A, DBS3036, BTS3900 GSM, BTS3900L GSM, BTS3900A GSM, DBS3900 GSM, BTS3900E base stations. For other base stations, this parameter is not displayed and cannot be configured (the fixed value is Null). NO
NO
SET BTSOTHPARA(Optional)
The waiting time from BTS detect OML disconnect to BTS reset.
NO
NO
SET BTSOTHPARA(Optional)
The time for BTS reset.
NO
NO
SET BTSOTHPARA(Optional)
ISSUPERBTS
NO
NO
SET BTSOTHPARA(Optional)
SET BTSOTHPARA(Optional)
Default receive delay of the PS Jitter Buffer on the BTS. A greater value of this parameter indicates a longer end-to-end delay for the PS service.
NO
NO
NO
NO
SET BTSOTHPARA(Mandatory)
Port detection sequence used during BTS startup. Number of customized detection types involved when the customized sequence is used for port detection.
NO
YES
SET BTSOTHPARA(Mandatory)
Preferential customized detection type when the customized sequence is used for port detection. NO
YES
SET BTSOTHPARA(Mandatory)
Subsidiary customized detection type when the customized sequence is used for port detection. This parameter is valid only when Number of Customized Detection Types is set to 2. NO
YES
SET BTSOTHPARA(Optional)
Minimum number of Abis resources requested for PS channels in the site. When this parameter is set to 16K, a minimum of 16 kbit/s bandwidth is required for this channel. When this parameter is set to 32K, a minimum of 32 kbit/s bandwidth is required for this channel. When this parameter is set to 48K, a minimum of 48 kbit/s bandwidth is required for this channel. When this parameter is set to 64K, a minimum of 64 kbit/s bandwidth is required for this channel. To handle services on the channel at a great coding scheme as soon as possible, you need to set this parameter to a great value. NO
NO
SET BTSOTHPARA(Optional)
The parameter determines which priority policy on power decrease is used by the MCPA function. If the parameter is set to "No Priority", power is decreased evenly regardless of different service types. But power is not decreased on the BCCH. If the parameter is set to "CS Prior to PS", power is decreased preferentially for the PS service. Power is decreased because the total demand of TX power from all subscribers during a single timeslot may exceed the limited total power that is provided by a power amplifier. Thus, the algorithm for decreasing power is introduced to prevent the RF device from being damaged. For BTS2X, BTS3X, this parameter is not sent. NO
NO
SET BTSOTHPARA(Optional)
When "MCPA Priority Policy on Power Decrease" is set to "CS Prior to PS", the parameter controls the power decrease range for the PS service in power decrease. NO
NO
SET BTSOTHPARA(Optional)
Enable BTS Local User Management.
NO
NO
SET BTSOTHPARA(Optional)
SET BTSOTHPARA(Optional) SET BTSOTHPARA(Optional)
This parameter controls whether the strategy for timeslot configuration and optimization is started. When this parameter is set to ON, the bundled idle timeslots for the PS channel should be allocated to the same 64 kbit/s timeslot as the primary link. When this parameter is set to OFF, the idle channels are allocated randomly in the transport pool of a site. NO
This parameter controls the strategy for idle timeslot selection and optimization by the PS channels. NO This parameter specifies whether the function of Weather Adaptive Power Management is enabled. NO
NO
NO
NO
SET BTSOTHPARA(Optional)
This parameter indicates the total number of hardware modules, excluding those of GSM.
NO
NO
SET BTSOUTPUT(Mandatory)
Type of an index.
NO
YES
SET BTSOUTPUT(Mandatory)
Index of the BTS, uniquely identifying a BTS in a BSC. YES
YES
Name of the BTS, uniquely identifying a BTS in a BSC. This parameter cannot contain the following invalid characters: ,;="'
SET BTSOUTPUT(Mandatory)
In addition, cell names cannot contain two or more consecutive %, two or more consecutive spaces, or more than two consecutive +.
NO
YES
Whether to start the refrigeration equipment of the BTS. In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding parameter in another SET BTSOUTPUT(Optional) mode. NO
NO
Whether to start the heating equipment of the BTS. In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding parameter in another SET BTSOUTPUT(Optional) mode. NO
NO
Whether to start the dehumidification equipment of the BTS. In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding parameter in another SET BTSOUTPUT(Optional) mode. NO
NO
Whether to start the humidification equipment of the BTS. In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding parameter in another SET BTSOUTPUT(Optional) mode. NO
NO
Whether to start the fire-extinguishing equipment of the BTS. In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding parameter in another SET BTSOUTPUT(Optional) mode. NO
NO
Whether to start the anti-theft equipment of the BTS. In multi-mode scenario, the value of this parameter in one mode must be the same as the value of the corresponding parameter in another SET BTSOUTPUT(Optional) mode. NO
NO
RMV BTSPATCH(Mandatory) Type of the patch operation
NO
YES
RMV BTSPATCH(Mandatory) Type of the BTS
NO
YES
NO
YES
NO
YES
NO
YES
NO
YES
Index type. BYNAME: query by name; BYID: RMV BTSPATCH(Mandatory) query by index. List of BTS indexes. You can specify multiple BTSs,separated by "&" and "&&". For example, RMV BTSPATCH(Mandatory) "1&2&3&4&5" or "1&&5". List of BTS names. You can specify multiple BTSs, separated by "&". For example, RMV BTSPATCH(Mandatory) "E001&E002". SET BTSPINGSW(Mandatory)
Index type. BYNAME: query by name; BYID: query by index.
SET BTSPINGSW(Mandatory)
Index of the BTS, uniquely identifying a BTS in a BSC. YES
YES
Name of the BTS, uniquely identifying a BTS in a BSC. This parameter cannot contain the following invalid characters: ,;="'
SET BTSPINGSW(Mandatory)
In addition, cell names cannot contain two or more consecutive %, two or more consecutive spaces, or more than two consecutive +.
NO
YES
If the parameter is set to "ON", all the Ping packets are sent. If the parameter is set to "OFF", all the Ping SET BTSPINGSW(Optional) packets are discarded.
NO
NO
SET BTSPLRALM(Mandatory)
Index type of the BTS. BYNAME: query by BTS name; BYID: query by BTS index.
NO
YES
SET BTSPLRALM(Mandatory)
Index of the BTS, uniquely identifying a BTS in a BSC. YES
YES
Name of the BTS, uniquely identifying a BTS in a BSC. This parameter cannot contain the following invalid characters: ,;="'
SET BTSPLRALM(Mandatory)
In addition, cell names cannot contain two or more consecutive %, two or more consecutive spaces, or more than two consecutive +.
NO
YES
SET BTSPLRALM(Mandatory)
Whether to allow the configuration of board parameters. The value "YES" indicates that the configuration is allowed, and the value "NO" indicates that the configuration is not allowed. If the parameter is set to "YES", all the other parameters controlled by it are reset to the default values in this command. In multi-mode scenario, the value of this parameter in this mode must be the same as the value of the corresponding parameter in another mode. NO
YES
SET BTSPLRALM(Optional)
Whether to allow the generation of the Power Lose Redundancy alarm. The PSUs needs to be configured in N+1 backup mode. When this parameter is set to "YES", the BTS reports the Power Lose Redundancy alarm if the PSUs are not configured in N+1 mode. NO
NO
Index type of the BTS. BYNAME: query by BTS SET BTSPMUBP(Mandatory) name; BYID: query by BTS index.
NO
Index of the BTS, uniquely identifying a BTS in a SET BTSPMUBP(Mandatory) BSC. YES
YES
YES
Name of the BTS, uniquely identifying a BTS in a BSC. This parameter cannot contain the following invalid characters: ,;="' In addition, cell names cannot contain two or more consecutive %, two or more consecutive SET BTSPMUBP(Mandatory) spaces, or more than two consecutive +.
NO
YES
Number of the subrack where the BTS board is SET BTSPMUBP(Mandatory) located
YES
YES
Number of the slot where the BTS board is SET BTSPMUBP(Mandatory) located
YES
YES
Whether to allow the configuration of board parameters. The value "YES" indicates that the configuration is allowed, and the value "NO" indicates that the configuration is not allowed. If the parameter is set to "YES", all the other parameters controlled by it are reset to the default values in this command. In multi-mode scenario, the value of this parameter in this mode must be the same as the value of the corresponding parameter in another SET BTSPMUBP(Mandatory) mode. NO
YES
SET BTSPMUBP(Optional)
NO
SET BTSPMUBP(Optional)
SET BTSPMUBP(Optional)
Power type managed by the PMU
NO
Even charging voltage of the battery. The battery is charged at the voltage as specified by this parameter. NO Float charging voltage of the battery. The battery is charged at the voltage as specified by this parameter. NO
NO
NO
SET BTSPMUBP(Optional)
Normal output capacity of the battery group in specific discharging conditions (such as discharge rate, temperature, and final voltage). Generally, the parameter is based on 10-hour discharge rate.
NO
NO
SET BTSPMUBP(Optional)
Maximum current coefficient when the battery is charged. When the battery is charged, the maximum current can be 0.01 to 0.99 times of the capacity of the battery cabinet. That is, the charge coefficient is 0.01-0.99. For example, if the capacity of the battery cabinet is 200 A and the charge coefficient is 0.15, the maximum charge current for the battery cabinet is 30 A. NO
NO
SET BTSPMUBP(Optional)
Load current shunt coefficient
NO
NO
SET BTSPMUBP(Optional)
Battery current shunt coefficient
NO
NO
SET BTSPMUDEF(Mandatory)
Index type. BYNAME: query by name; BYID: query by index.
NO
YES
SET BTSPMUDEF(Mandatory)
Index of the BTS, uniquely identifying a BTS in a BSC. NO
YES
Name of the BTS, uniquely identifying a BTS in a BSC. This parameter cannot contain the following invalid characters: ,;="'
SET BTSPMUDEF(Mandatory)
In addition, cell names cannot contain two or more consecutive %, two or more consecutive spaces, or more than two consecutive +.
NO
YES
SET BTSPMUDEF(Optional) Number of the cabinet
NO
NO
SET BTSPMUDEF(Mandatory)
Number of the subrack where the BTS board is located
NO
YES
SET BTSPMUDEF(Mandatory) SET BTSPOWERTYPE(Mandator y)
Number of the slot where the BTS board is located
NO
YES
Index type of the BTS. BYNAME: query by BTS name; BYID: query by BTS index.
NO
YES
SET BTSPOWERTYPE(Mandator Index of the BTS, uniquely identifying a BTS in a y) BSC. YES
YES
Name of the BTS, uniquely identifying a BTS in a BSC. This parameter cannot contain the following invalid characters: ,;="' SET In addition, cell names cannot contain two or BTSPOWERTYPE(Mandator more consecutive %, two or more consecutive y) spaces, or more than two consecutive +.
NO
YES
SET BTSPOWERTYPE(Mandator y) Number of the cabinet.
YES
YES
Whether to enable the board parameters to be SET configured. If this parameter is set to "YES", the BTSPOWERTYPE(Mandator user can set the cabinet power type. Otherwise, y) the user cannot set the cabinet power type. NO
YES
SET BTSPOWERTYPE(Optional) Type of the power supply system of the cabinet
NO
NO
ADD BTSPPPLNK(Mandatory) MOD BTSPPPLNK(Mandatory) RMV BTSPPPLNK(Mandatory) IMP BTSPPPLNK(Mandatory)
Index type. BYNAME: query by name; BYID: query by index.
NO
YES
ADD BTSPPPLNK(Mandatory) MOD BTSPPPLNK(Mandatory) RMV BTSPPPLNK(Mandatory) IMP BTSPPPLNK(Mandatory)
Index of the BTS, uniquely identifying a BTS in a BSC. YES
ADD BTSPPPLNK(Mandatory) MOD BTSPPPLNK(Mandatory) RMV BTSPPPLNK(Mandatory) IMP BTSPPPLNK(Mandatory)
YES
Name of the BTS, uniquely identifying a BTS in a BSC. This parameter cannot contain the following invalid characters: ,;="' In addition, cell names cannot contain two or more consecutive %, two or more consecutive spaces, or more than two consecutive +.
NO
YES
Number of a BTS PPP link.
YES
YES
ADD BTSPPPLNK(Mandatory) MOD BTSPPPLNK(Optional) IMP BTSPPPLNK(Mandatory) Number of the port on the BTS side
NO
YES
ADD BTSPPPLNK(Optional) MOD BTSPPPLNK(Optional) RMV BTSPPPLNK(Optional) IMP BTSPPPLNK(Optional) Number of the cabinet where the port is located
NO
NO
ADD BTSPPPLNK(Optional) MOD BTSPPPLNK(Optional) RMV BTSPPPLNK(Optional) IMP BTSPPPLNK(Optional) Number of the subrack where the port is located NO
NO
ADD BTSPPPLNK(Mandatory) MOD BTSPPPLNK(Mandatory) RMV BTSPPPLNK(Mandatory) IMP BTSPPPLNK(Mandatory)
ADD BTSPPPLNK(Optional) MOD BTSPPPLNK(Optional) RMV BTSPPPLNK(Optional) IMP BTSPPPLNK(Optional) Number of the slot where the port is located
NO
NO
ADD BTSPPPLNK(Mandatory) MOD BTSPPPLNK(Optional) Timeslot of the E1/T1 link carrying the PPP link. IMP The timeslot of an E1 port cannot be used by BTSPPPLNK(Mandatory) different PPP links. NO
YES
ADD BTSPPPLNK(Mandatory) MOD BTSPPPLNK(Optional) IMP BTSPPPLNK(Mandatory) Local IP address of BTS PPP Link.
NO
YES
ADD BTSPPPLNK(Mandatory) MOD BTSPPPLNK(Optional) IMP BTSPPPLNK(Mandatory) Subnet mask of BTS PPP link.
NO
YES
ADD BTSPPPLNK(Mandatory) MOD BTSPPPLNK(Optional) IMP BTSPPPLNK(Mandatory) ADD BTSPPPLNK(Optional) MOD BTSPPPLNK(Optional) IMP BTSPPPLNK(Optional) ADD BTSPPPLNK(Optional) MOD BTSPPPLNK(Optional) IMP BTSPPPLNK(Optional) ADD BTSPPPLNK(Optional) MOD BTSPPPLNK(Optional) IMP BTSPPPLNK(Optional)
IP address of the peer end of BTS PPP Link.
NO
YES
Whether to compress the protocol field of the PPP link.
NO
NO
A flag bit indicates Whether to support the compression of the address and control fields. NO Maximum length of a received packet. The value of this parameter is negotiated at both ends of a communication. NO
NO
NO
ADD BTSPPPLNK(Optional) MOD BTSPPPLNK(Optional) Type of the validation protocol for the PPP or IMP BTSPPPLNK(Optional) MLPPP link negotiation
NO
NO
ADD BTSPPPLNK(Mandatory) MOD BTSPPPLNK(Mandatory) IMP BTSPPPLNK(Mandatory)
Validation mode of the PPP or MLPPP link negotiation
NO
YES
ADD BTSPPPLNK(Mandatory) MOD BTSPPPLNK(Mandatory) IMP BTSPPPLNK(Mandatory)
Username to validate, for the PPP or MLPPP link negotiation
NO
YES
ADD BTSPPPLNK(Mandatory) MOD BTSPPPLNK(Mandatory) IMP BTSPPPLNK(Mandatory) ADD BTSPPPLNK(Optional) MOD BTSPPPLNK(Optional) IMP BTSPPPLNK(Optional) ADD BTSPPPLNK(Optional) MOD BTSPPPLNK(Optional) IMP BTSPPPLNK(Optional) ADD BTSPPPLNK(Optional) MOD BTSPPPLNK(Optional) IMP BTSPPPLNK(Optional) ADD BTSPPPLNK(Optional) MOD BTSPPPLNK(Optional) IMP BTSPPPLNK(Optional) ADD BTSPPPLNK(Optional) MOD BTSPPPLNK(Optional) IMP BTSPPPLNK(Optional) IMP BTSPPPLNK(Mandatory)
Password to validate, upon PPP or MLPPP link negotiation
NO
YES
Timer When the number of error frames on the PPP layer reaches the value of this parameter, the frame error alarm is generated. When the number of error frames on the PPP layer decreases to the value of this parameter, the frame error alarm is cleared. When the number of error frames on the IP layer reaches the value of this parameter, the frame error alarm is generated. When the number of error frames on the IP layer decreases to the value of this parameter, the frame error alarm is cleared.
NO
NO
NO
NO
NO
NO
NO
NO
NO
NO
Configuration Switch.
NO
YES
NO
YES
Index type of the BTS. BYNAME: query by BTS SET BTSPSUFP(Mandatory) name; BYID: query by BTS index.
Index of the BTS, uniquely identifying a BTS in a SET BTSPSUFP(Mandatory) BSC. YES
YES
Name of the BTS, uniquely identifying a BTS in a BSC. This parameter cannot contain the following invalid characters: ,;="' In addition, cell names cannot contain two or more consecutive %, two or more consecutive SET BTSPSUFP(Mandatory) spaces, or more than two consecutive +.
NO
YES
Whether to allow the configuration of board parameters. The value "YES" indicates that the configuration is allowed, and the value "NO" indicates that the configuration is not allowed. If the parameter is set to "YES", all the other parameters controlled by it are reset to the default values in this command. In multi-mode scenario, the value of this parameter in this mode must be the same as the value of the corresponding parameter in another SET BTSPSUFP(Mandatory) mode. NO
YES
SET BTSPSUFP(Optional)
Whether to configure the transmission cabinet. The BTS uses this parameter to calculate the number of TRXs to be shut down.
NO
NO
SET BTSPSUFP(Optional)
The parameter specifies which type of service TRXs should be preferentially processed when the PSU is faulty.
NO
NO
SET BTSPSUFP(Optional)
Standard for the GSM multi-carrier BTS
NO
NO
NO
YES
CHG Index of the BTS, uniquely identifying a BTS in a BTSPTUSHKTM(Mandatory) BSC. NO
YES
CHG Index type. BYNAME: query by name; BYID: BTSPTUSHKTM(Mandatory) query by index.
Name of the BTS, uniquely identifying a BTS in a BSC. This parameter cannot contain the following invalid characters: ,;="' In addition, cell names cannot contain two or CHG more consecutive %, two or more consecutive BTSPTUSHKTM(Mandatory) spaces, or more than two consecutive +.
NO
YES
CHG BTSPTUSHKTM(Optional)
NO
NO
CHG Number of the subrack where the BTS board is BTSPTUSHKTM(Mandatory) located
NO
YES
CHG Number of the slot where the BTS board is BTSPTUSHKTM(Mandatory) located
NO
YES
Number of the cabinet
CHG BTSPTUSHKTM(Optional)
Value of the first timer for the PTU handshake
NO
NO
CHG BTSPTUSHKTM(Optional)
Value of the second timer for the PTU handshake
NO
NO
CHG BTSPTUSHKTM(Optional)
Value of the third timer for the PTU handshake
NO
NO
SET BTSRACKBC(Mandatory)
Index type. BYNAME: query by name; BYID: query by index.
NO
YES
SET BTSRACKBC(Mandatory)
Index of the BTS, uniquely identifying a BTS in a BSC. NO
YES
Name of the BTS, uniquely identifying a BTS in a BSC. This parameter cannot contain the following invalid characters: ,;="'
SET BTSRACKBC(Mandatory)
In addition, cell names cannot contain two or more consecutive %, two or more consecutive spaces, or more than two consecutive +. List of all the cabinet numbers in the BTS.You can specify multiple cabinets,separated by "&". For example, "1&2".
SET BTSRACKBC(Mandatory)
List of bar codes of all the cabinets in the BTS.You can specify multiple bar codes,separated by "&". For example, "1234&5678".
NO
YES
ADD BTSRET(Mandatory) RMV BTSRET(Mandatory) MOD BTSRET(Mandatory) CLB BTSRET(Mandatory)
Index type. BYNAME: query by name; BYID: query by index.
NO
YES
ADD BTSRET(Mandatory) RMV BTSRET(Mandatory) MOD BTSRET(Mandatory) CLB BTSRET(Mandatory)
Index of the BTS, uniquely identifying a BTS in a BSC. YES
SET BTSRACKBC(Mandatory)
NO
YES
NO
YES
YES
Name of the BTS, uniquely identifying a BTS in a BSC. This parameter cannot contain the following invalid characters: ,;="' ADD BTSRET(Mandatory) RMV BTSRET(Mandatory) MOD BTSRET(Mandatory) CLB BTSRET(Mandatory)
In addition, cell names cannot contain two or more consecutive %, two or more consecutive spaces, or more than two consecutive +.
NO
YES
ADD BTSRET(Mandatory) RMV BTSRET(Mandatory) MOD BTSRET(Mandatory) CLB BTSRET(Optional)
Number of the RET antenna.
YES
YES
ADD BTSRET(Optional) MOD BTSRET(Optional)
Name of the RET antenna
NO
NO
ADD BTSRET(Mandatory) MOD BTSRET(Optional)
Number of the cabinet which controls RET antenna.
NO
YES
ADD BTSRET(Mandatory) MOD BTSRET(Optional)
Number of the subrack where the BTS board is located
NO
YES
ADD BTSRET(Mandatory) MOD BTSRET(Optional)
Number of the slot where the board controlling the RET antenna is located. For SingleRAN BTSs, the valid value ranges from 0 to 5. For non-SingleRAN BTSs, the valid value ranges from 0 to 23.
NO
YES
ADD BTSRET(Mandatory) MOD BTSRET(Optional)
Control port No. of RET antenna. The number of RET antenna which connect to same feed tributary cannot be more than 6.For GATM boards, the valid value ranges from 0 to 5. For RXU boards, the valid value ranges from 0 to 2. NO
YES
ADD BTSRET(Mandatory) MOD BTSRET(Optional)
NO
YES
ADD BTSRET(Optional) MOD BTSRET(Optional)
Type of the RET antenna Number of subunits of the RET antenna. This parameter is valid when Ret Type is set to Multi Ret.
NO
NO
ADD BTSRET(Optional) MOD BTSRET(Optional)
Type of the antenna polarization.
NO
NO
ADD BTSRET(Mandatory) MOD BTSRET(Optional)
Scenario in which an antenna is connected. The scenario depends on the physical connection of the antenna. Vendor code and ESN are required when the antenna is connected in daisy-chain mode. NO
YES
ADD BTSRET(Optional) MOD BTSRET(Optional)
Vendor code of the RET antenna.
NO
NO
ADD BTSRET(Optional) MOD BTSRET(Optional)
Delivery serial number of the RET antenna
NO
NO
CLB BTSRET(Optional)
Number of the RET antenna subunit.
NO
NO
SET BTSRETANTENB(Mandatory Index type. BYNAME: query by name; BYID: ) query by index.
NO
YES
SET BTSRETANTENB(Mandatory Index of the BTS, uniquely identifying a BTS in a ) BSC. NO
YES
Name of the BTS, uniquely identifying a BTS in a BSC. This parameter cannot contain the following invalid characters: ,;="' SET In addition, cell names cannot contain two or BTSRETANTENB(Mandatory more consecutive %, two or more consecutive ) spaces, or more than two consecutive +.
NO
YES
SET BTSRETANTENB(Mandatory ) Number of the RET antenna.
NO
YES
NO
YES
NO
YES
NO
YES
Index of the BTS, uniquely identifying a BTS in a BSC. NO
YES
Index type of the cell. BYNAME: query by cell name; BYID: query by cell index.
YES
SET BTSRETANTTILT(Mandatory ) Operation Mode. SET BTSRETANTTILT(Mandatory Index type of the BTS. BYNAME: query by BTS ) name; BYID: query by BTS index. Name of the BTS, uniquely identifying a BTS in a BSC. This parameter cannot contain the following invalid characters: ,;="' SET In addition, cell names cannot contain two or BTSRETANTTILT(Mandatory more consecutive %, two or more consecutive ) spaces, or more than two consecutive +. SET BTSRETANTTILT(Mandatory ) SET BTSRETANTTILT(Mandatory )
NO
Name of a cell. This parameter uniquely identifies a cell in a BSC. Cell names cannot contain the following invalid characters: ,;="' SET In addition, cell names cannot contain two or BTSRETANTTILT(Mandatory more consecutive %, two or more consecutive ) spaces, or more than two consecutive +. SET BTSRETANTTILT(Mandatory Index of a cell, uniquely identifying a cell in a ) BSC.
NO
YES
NO
YES
Number of the RET antenna.
NO
YES
Tilt.
NO
YES
Index type of the BTS. BYNAME: query by BTS name; BYID: query by BTS index.
NO
YES
MOD BTSRETDEVICEDATA(Mand Index of the BTS, uniquely identifying a BTS in a atory) BSC. NO
YES
SET BTSRETANTTILT(Mandatory ) SET BTSRETANTTILT(Mandatory ) MOD BTSRETDEVICEDATA(Mand atory)
Name of the BTS, uniquely identifying a BTS in a BSC. This parameter cannot contain the following invalid characters: ,;="' MOD In addition, cell names cannot contain two or BTSRETDEVICEDATA(Mand more consecutive %, two or more consecutive atory) spaces, or more than two consecutive +.
NO
YES
MOD BTSRETDEVICEDATA(Mand atory) Number of the RET antenna.
NO
YES
Number of the RET antenna subunit. Horizontal azimuth angle of the RET antenna. This parameter determines the coverage direction of a cell.
NO
YES
NO
NO
Model of the RET antenna.
NO
NO
MOD BTSRETDEVICEDATA(Mand atory) MOD BTSRETDEVICEDATA(Optio nal) MOD BTSRETDEVICEDATA(Optio nal)
MOD BTSRETDEVICEDATA(Optio nal) Customized base station ID.
MOD BTSRETDEVICEDATA(Optio nal) Supported frequency band 1. MOD BTSRETDEVICEDATA(Optio nal) Lobe width of frequency band 1. MOD BTSRETDEVICEDATA(Optio nal) Gain of frequency band 1.
MOD BTSRETDEVICEDATA(Optio nal) Supported frequency band 2. MOD BTSRETDEVICEDATA(Optio nal) Lobe width of frequency band 2. MOD BTSRETDEVICEDATA(Optio nal) Gain of frequency band 2.
MOD BTSRETDEVICEDATA(Optio nal) Supported frequency band 3. MOD BTSRETDEVICEDATA(Optio nal) Lobe width of frequency band 3. MOD BTSRETDEVICEDATA(Optio nal) Gain of frequency band 3.
NO
NO
NO
NO
NO
NO
NO
NO
NO
NO
NO
NO
NO
NO
NO
NO
NO
NO
NO
NO
MOD BTSRETDEVICEDATA(Optio nal) MOD BTSRETDEVICEDATA(Optio nal) MOD BTSRETDEVICEDATA(Optio nal) MOD BTSRETDEVICEDATA(Optio nal) MOD BTSRETDEVICEDATA(Optio nal) MOD BTSRETDEVICEDATA(Optio nal) MOD BTSRETDEVICEDATA(Optio nal) MOD BTSRETDEVICEDATA(Optio nal) MOD BTSRETSUBUNIT(Mandator y)
Supported frequency band 4.
NO
NO
Lobe width of frequency band 4.
NO
NO
Gain of frequency band 4.
NO
NO
Installed Date.
NO
NO
Installed Mechanical Tilt[0.1degree].
NO
NO
Installer ID.
NO
NO
Sector ID.
NO
NO
Delivery serial number of the RET antenna
NO
NO
Index type of the BTS. BYNAME: query by BTS name; BYID: query by BTS index.
NO
YES
MOD BTSRETSUBUNIT(Mandator Index of the BTS, uniquely identifying a BTS in a y) BSC. NO
YES
Name of the BTS, uniquely identifying a BTS in a BSC. This parameter cannot contain the following invalid characters: ,;="' MOD In addition, cell names cannot contain two or BTSRETSUBUNIT(Mandator more consecutive %, two or more consecutive y) spaces, or more than two consecutive +.
NO
YES
MOD BTSRETSUBUNIT(Mandator y) Number of the RET antenna.
NO
YES
MOD BTSRETSUBUNIT(Mandator y) Number of the RET antenna subunit.
NO
YES
MOD Number of the cabinet that holds the board BTSRETSUBUNIT(Optional) connected to antenna port 1.
NO
NO
MOD Number of the subrack that holds the board BTSRETSUBUNIT(Optional) connected to antenna port 1.
NO
NO
MOD Number of the slot where the board connected to BTSRETSUBUNIT(Optional) antenna port 1 is installed. NO
NO
MOD Number of the port of the board connected to BTSRETSUBUNIT(Optional) antenna port 1.
NO
NO
MOD Number of the cabinet that holds the board BTSRETSUBUNIT(Optional) connected to antenna port 2.
NO
NO
MOD Number of the subrack that holds the board BTSRETSUBUNIT(Optional) connected to antenna port 2.
NO
NO
MOD Number of the slot where the board connected to BTSRETSUBUNIT(Optional) antenna port 2 is installed. NO
NO
MOD Number of the port of the board connected to BTSRETSUBUNIT(Optional) antenna port 2. MOD BTSRETSUBUNIT(Optional) Tilt of the RET antenna.
NO
NO
NO
NO
Error range of the alarm about the tilt of the RET antenna subunit. The system determines the error between the configured tilt and the actual MOD one. If the error exceeds the value specified by BTSRETSUBUNIT(Optional) this parameter, an alarm will be reported. NO
NO
MOD BTSRETSUBUNIT(Optional) Index type of the cell MOD BTSRETSUBUNIT(Mandator Index of a cell, uniquely identifying a cell in a y) BSC
NO
NO
NO
YES
Name of a cell. This parameter uniquely identifies a cell in a BSC. Cell names cannot contain the following invalid characters: ,;="' MOD In addition, cell names cannot contain two or BTSRETSUBUNIT(Mandator more consecutive %, two or more consecutive y) spaces, or more than two consecutive +.
NO
YES
MOD BTSRETTILT(Mandatory)
Index type of the BTS. BYNAME: query by BTS name; BYID: query by BTS index.
NO
YES
MOD BTSRETTILT(Mandatory)
Index of the BTS, uniquely identifying a BTS in a BSC. NO
YES
Name of the BTS, uniquely identifying a BTS in a BSC. This parameter cannot contain the following invalid characters: ,;="'
MOD BTSRETTILT(Mandatory)
In addition, cell names cannot contain two or more consecutive %, two or more consecutive spaces, or more than two consecutive +.
NO
YES
MOD BTSRETTILT(Mandatory)
Command operation mode.
NO
YES
MOD BTSRETTILT(Mandatory)
Number of the RET antenna.
NO
YES
MOD BTSRETTILT(Mandatory)
Index type of the cell
NO
YES
MOD BTSRETTILT(Mandatory)
Index of a cell, uniquely identifying a cell in a BSC
NO
YES
Name of a cell. This parameter uniquely identifies a cell in a BSC. Cell names cannot contain the following invalid characters: ,;="' In addition, cell names cannot contain two or more consecutive %, two or more consecutive spaces, or more than two consecutive +.
NO
YES
Tilt of the RET antenna.
NO
YES
MOD BTSRETTILT(Mandatory) MOD BTSRETTILT(Mandatory)
SET BTSRINGATTR(Mandatory)
Index type. BYNAME: query by name; BYID: query by index.
SET BTSRINGATTR(Mandatory)
Index of the BTS, uniquely identifying a BTS in a BSC. YES
NO
YES
YES
Name of the BTS, uniquely identifying a BTS in a BSC. This parameter cannot contain the following invalid characters: ,;="'
SET BTSRINGATTR(Mandatory)
In addition, cell names cannot contain two or more consecutive %, two or more consecutive spaces, or more than two consecutive +.
SET BTSRINGATTR(Optional)
Ring II function switch. The parameter should be set to "YES" when the ring II function is enabled. NO
NO
SET BTSRINGATTR(Optional)
Waiting time before establishing a link in the reverse direction after the transmission of a BTS is disrupted NO
NO
SET BTSRINGATTR(Optional)
The BTS repeatedly attempts to connect to port 0 or port 1 after the switchover. If the connection on one port fails within the time specified by this parameter, the BTS tries to connect to another port. NO
NO
SET BTSRINGATTR(Optional)
To avoid intermittent blinking, the switchover cannot be performed over a certain period of time when the OML is disconnected. That period of time is specified as ring II wait time before switch. NO
NO
NO
YES
SET BTSRINGATTR(Optional)
If the OML is not established at one port after a period of time, the OML switches to another port and tries to connect to this port. That period of time is called ring II rotating duration time. NO
NO
SET BTSRINGATTR(Optional)
When the OML is switched to a port where the connection is successfully established, the switchover cannot be performed over a certain period of time, which is specified as ring II rotating penalty time. In this manner, frequent switchover between the ports due to intermittent blinking can be avoided. NO
NO
SET BTSRINGATTR(Optional)
Timer in the LAPD protocol. The value of the timer indicates the time when the LAPD link waits for the response or acknowledgement frame after sending the command frame.
NO
NO
SET BTSRINGATTR(Optional)
Timer in the LAPD protocol. The value of the timer indicates the maximum duration for no frame exchange in the LAPD link.
NO
NO
SET BTSRINGATTR(Optional)
System parameter in the LAPD protocol. The value of this parameter specifies the maximum number of times when a frame is retransmitted.
NO
NO
ADD BTSRXU2LOCGRP(Mandato ry) RMV BTSRXU2LOCGRP(Mandato Index type of the BTS. BYNAME: query by BTS ry) name; BYID: query by BTS index.
NO
ADD BTSRXU2LOCGRP(Mandato ry) RMV BTSRXU2LOCGRP(Mandato Index of the BTS, uniquely identifying a BTS in a ry) BSC. YES
YES
YES
Name of the BTS, uniquely identifying a BTS in a BSC. This parameter cannot contain the following invalid characters: ADD BTSRXU2LOCGRP(Mandato ry) RMV BTSRXU2LOCGRP(Mandato ry)
,;="' In addition, cell names cannot contain two or more consecutive %, two or more consecutive spaces, or more than two consecutive +.
NO
YES
ADD BTSRXU2LOCGRP(Mandato ry) RMV BTSRXU2LOCGRP(Mandato Number of the location group under the BTS. It ry) is unique for each BTS.
YES
YES
ADD BTSRXU2LOCGRP(Mandato ry) RMV BTSRXU2LOCGRP(Mandato ry) Number of the cabinet.
YES
YES
ADD BTSRXU2LOCGRP(Mandato ry) RMV BTSRXU2LOCGRP(Mandato Number of the subrack where the BTS board is ry) located
YES
YES
ADD BTSRXU2LOCGRP(Mandato ry) RMV BTSRXU2LOCGRP(Mandato Number of the slot where the BTS board is ry) located
YES
YES
Index type of the BTS. BYNAME: query by BTS SET BTSRXUBP(Mandatory) name; BYID: query by BTS index.
NO
YES
Index of the BTS, uniquely identifying a BTS in a SET BTSRXUBP(Mandatory) BSC. YES
YES
Name of the BTS, uniquely identifying a BTS in a BSC. This parameter cannot contain the following invalid characters: ,;="' In addition, cell names cannot contain two or more consecutive %, two or more consecutive SET BTSRXUBP(Mandatory) spaces, or more than two consecutive +.
NO
YES
SET BTSRXUBP(Mandatory) Type of the RXU board index
NO
YES
Number of the RXU chain. The RXU chain No. is SET BTSRXUBP(Mandatory) unique in one BTS. NO
YES
SET BTSRXUBP(Mandatory) Position No. of the RXU board on the RXU chain NO
YES
Name of the RXU board. The RXU name is SET BTSRXUBP(Mandatory) unique in one BTS.
NO
YES
SET BTSRXUBP(Optional)
YES
NO
Number of the subrack where the BTS board is SET BTSRXUBP(Mandatory) located
YES
YES
Number of the slot where the BTS board is SET BTSRXUBP(Mandatory) located
YES
YES
SET BTSRXUBP(Mandatory) Type of the RXU board
NO
YES
Number of the cabinet.
SET BTSRXUBP(Optional)
The connection mode between the DRRU and the antenna.
NO
NO
SET BTSRXUBP(Optional)
The connection mode between the DRFU and the antenna.
NO
NO
SET BTSRXUBP(Optional)
The connection mode between the MRRU/GRRU and the antenna.
NO
NO
SET BTSRXUBP(Optional)
The connection mode between the MRFU/GRFU and the antenna. NO
NO
SET BTSRXUBP(Optional)
The connection mode between the BTS3900E and the antenna.
NO
NO
SET BTSRXUBP(Optional)
Radio Transceiver Inter-board Switch. Set this parameter to YES if the TRXs of an MRFU or GRFU board need to be configured with fourway diversity. Set this parameter to YES if the TRXs of an MRFU board except MRFUd need to be configured with transmit diversity. NO
NO
Number of the cabinet where the associated SET BTSRXUBP(Mandatory) RXU board is installed.
NO
YES
Number of the subrack where the associated SET BTSRXUBP(Mandatory) RXU board is installed.
NO
YES
Number of the slot where the associated RXU SET BTSRXUBP(Mandatory) board is installed.
NO
YES
SET BTSRXUBP(Optional)
The level 1 Voltage Standing Wave Ratio (VSWR) threshold. When the VSWR is higher than this parameter, the TRX will report a level-1 VSWR alarm. At this time, the BTS can provide services but its coverage rate decreases. NO
NO
SET BTSRXUBP(Optional)
The level 2 Voltage Standing Wave Ratio (VSWR) threshold. When the VSWR is higher than this parameter, the TRX will report a level-2 VSWR alarm. At this time, the BTS disables power amplification and fails to provide services. NO
NO
SET BTSRXUBP(Optional)
Upper threshold of the low noise amplifier. When the working voltage of the low noise amplifier attenuator in the RXU board is smaller than this value, an alarm is reported by the BTS. NO
NO
SET BTSRXUBP(Optional)
Lower threshold of the low noise amplifier. When the working voltage of the low noise amplifier attenuator in the RXU board is greater than this value, an alarm is reported by the BTS. NO
NO
SET BTSRXUBP(Optional)
Whether the tower-top amplifier is installed on antenna tributary 1.
NO
NO
SET BTSRXUBP(Optional)
Attenuation of antenna tributary 1. After a BTS is installed with a tower amplifier, set this parameter based on the field configuration. If this parameter is set to a great value within the valid range, the uplink level is weakened greatly, leading to limited coverage. If this parameter is set to a small value within the valid range, the uplink level is strengthened, leading to uplink cross coverage. NO
NO
SET BTSRXUBP(Optional)
Attenuation of antenna tributary 1. After a BTS is installed with a tower amplifier, set this parameter based on the field configuration. If this parameter is set to a great value within the valid range, the uplink level is weakened greatly, leading to limited coverage. If this parameter is set to a small value within the valid range, the uplink level is strengthened, leading to uplink cross coverage. NO
NO
SET BTSRXUBP(Optional)
Whether the tower-top amplifier is installed on antenna tributary 2.
NO
NO
SET BTSRXUBP(Optional)
Attenuation of antenna tributary 2. After a BTS is installed with a tower amplifier, set this parameter based on the field configuration. If this parameter is set to a great value within the valid range, the uplink level is weakened greatly, leading to limited coverage. If this parameter is set to a small value within the valid range, the uplink level is strengthened, leading to uplink cross coverage. NO
NO
SET BTSRXUBP(Optional)
Attenuation of antenna tributary 2. After a BTS is installed with a tower amplifier, set this parameter based on the field configuration. If this parameter is set to a great value within the valid range, the uplink level is weakened greatly, leading to limited coverage. If this parameter is set to a small value within the valid range, the uplink level is strengthened, leading to uplink cross coverage. NO
NO
SET BTSRXUBP(Optional)
Indication offset in the middle frequency offset configuration
NO
NO
SET BTSRXUBP(Optional)
Working mode of the RXU board
NO
NO
SET BTSRXUBP(Optional)
Whether the main operator enables the RAN Sharing function. If the RAN Sharing function is enabled, one to three co-operators can be configured to share the BSS.
NO
NO
SET BTSRXUBP(Optional)
When ANT_A ALD Power Switch is set to ON, the current alarm threshold of the port to which the antenna is connected needs to be set. The ALD system type varies according to the ALD type and connection mode. Therefore, an ALD system type needs to be selected to determine the default value of the current alarm threshold.5Except UER_SELF_DEFINE1 and UER_SELF_DEFINE2, other values of ANT_A ALD Current Alarm Threshold Type indicate one severity level. The alarm current is fixed and greater than the current required for normal operation. UER_SELF_DEFINE2 indicates two alarm severity levels: warning alarms and major alarms. The alarm current is fixed and greater than the current required for normal operation. UER_SELF_DEFINE3 indicates two alarm severity levels: warning alarms and major alarms. The warning alarm current is periodical pulse current, while the major alarm current is fixed. NO
NO
SET BTSRXUBP(Optional)
Alarm mode of the ANT_A tributary of an RXU board. There are three alarm modes. Alarm mode 1 has only one type of alarms. The alarm current is fixed and greater than the normal working current. Alarm mode 2 has two types of alarms: warning alarms and critical alarms. The alarm current is fixed and greater than the normal working current. Alarm mode 3 has two types of alarms: warning alarms and critical alarms. The warning alarm current is periodical pulse current, while the critical alarm current is fixed. When the parameter is set to 1, "ANT_A ALD Current Minor Alarm Occur Th", "ANT_A ALD Current Minor Alarm Clear Th", "A ALD CurMinor Alarm Over-Cur Duration", and "A ALD Cur-Minor Alarm N-Cur Duration" cannot be configured. When the parameter is set to 2, "A ALD Cur-Minor Alarm Over-Cur Duration", and "A ALD Cur-Minor Alarm N-Cur Duration" cannot be configured. When the parameter is set to 3, "ANT_A ALD Current Minor Alarm Occur Th", and "ANT_A ALD Current Minor Alarm Clear Th" cannot be configured. NO
NO
SET BTSRXUBP(Optional)
Abnormally alarm raise threshold triggered by too heavy current of the ANT_A tributary antenna. When the actual current is higher than the configured value, the ALD Current Abnormally Alarm is triggered with the corresponding alarm tributary No. of 0. NO
NO
SET BTSRXUBP(Optional)
Clearance threshold for the alarm triggered when the ANT_A tributary antenna is over current. When the actual current is below this threshold, the ALD Current Abnormal Alarm is cleared.
NO
NO
SET BTSRXUBP(Optional)
Abnormally alarm triggering threshold when the ANT_A tributary antenna current is too light. When the actual current is lower than the configured value, the ALD Current Abnormally Alarm is triggered with the corresponding alarm tributary No. of 1.
NO
NO
SET BTSRXUBP(Optional)
Abnormally alarm clearance triggering threshold when the ANT_A tributary antenna current is too light. When the actual current is higher than the configured value, the ALD Current Abnormally Alarm disappears with the corresponding alarm tributary No. of 1. NO
NO
SET BTSRXUBP(Optional)
Threshold for triggering prompt alarm clearance when the ANT_A tributary antenna current is too heavy. When the actual current is higher than the configured value, the ALD Current Prompt Alarm clearance is triggered. NO
NO
SET BTSRXUBP(Optional)
Threshold for triggering prompt alarm clearance when the ANT_A tributary antenna current is too heavy. When the actual current is lower than the configured value, the ALD Current Prompt Alarm clearance is triggered. NO
NO
SET BTSRXUBP(Optional)
When the ANT_A tributary antenna current abnormally check mode is set to UER_SELF_DEFINE3, the parameter ALD Current Prompt Alarm is checked by periodical pulse. The periodical pulse consists of antenna over-current duration and normal current duration. This parameter is the ANT_A tributary antenna over-current duration.
NO
NO
SET BTSRXUBP(Optional)
When the ANT_A tributary antenna current abnormally check mode is set to UER_SELF_DEFINE3, the parameter ALD Current Prompt Alarm is checked by periodical pulse. The periodical pulse consists of antenna over-current duration and normal current duration. This parameter is the ANT_A tributary antenna normal current duration.
NO
NO
SET BTSRXUBP(Optional)
When ANT_B ALD Power Switch is set to ON, the current alarm threshold of the port to which the antenna is connected needs to be set. The ALD system type varies according to the ALD type and connection mode. Therefore, an ALD type needs to be selected to determine the current alarm threshold. Except UER_SELF_DEFINE1 and UER_SELF_DEFINE2, other values of ANT_A ALD Current Alarm Threshold Type indicate one severity level. The alarm current is fixed and greater than the current required for normal working. UER_SELF_DEFINE2 indicates two alarm severity levels: warning alarms and major alarms. The alarm current is fixed and greater than the current required for normal working. UER_SELF_DEFINE3 indicates two alarm severity levels: warning alarms and major alarms. The warning alarm current is periodical pulse current, while the major alarm current is fixed. NO
NO
SET BTSRXUBP(Optional)
Alarm mode of the ANT_B tributary of an RXU board. There are three alarm modes. Alarm mode 1 has only one type of alarms. The alarm current is fixed and greater than the normal working current. Alarm mode 2 has two types of alarms: warning alarms and critical alarms. The alarm current is fixed and greater than the normal working current. Alarm mode 3 has two types of alarms: warning alarms and critical alarms. The warning alarm current is periodical pulse current, while the critical alarm current is fixed. When the parameter is set to 1, "ANT_B ALD Current Minor Alarm Occur Th", "ANT_B ALD Current Minor Alarm Clear Th", "B ALD CurMinor Alarm Over-Cur Duration", and "B ALD Cur-Minor Alarm N-Cur Duration" cannot be configured. When the parameter is set to 2, "B ALD Cur-Minor Alarm Over-Cur Duration", and "B ALD Cur-Minor Alarm N-Cur Duration" cannot be configured. When the parameter is set to 3, "ANT_B ALD Current Minor Alarm Occur Th", and "ANT_B ALD Current Minor Alarm Clear Th" cannot be configured. NO
NO
SET BTSRXUBP(Optional)
Abnormally alarm raise threshold triggered by too heavy current of the ANT_B tributary antenna. When the actual current is higher than the configured value, the ALD Current Abnormally Alarm is triggered with the corresponding alarm tributary No. of 0. NO
NO
SET BTSRXUBP(Optional)
Abnormally alarm clearance threshold triggered by too heavy current of the ANT_B tributary antenna. When the actual current is lower than the configured value, the ALD Current Abnormally Alarm clearance is triggered with the corresponding alarm tributary No. of 0. NO
NO
SET BTSRXUBP(Optional)
Abnormally alarm triggering threshold when the ANT_B tributary antenna current is too light. When the actual current is lower than the configured value, the ALD Current Abnormally Alarm is triggered with the corresponding alarm tributary No. of 1.
NO
NO
SET BTSRXUBP(Optional)
Abnormally alarm clearance triggering threshold when the ANT_B tributary antenna current is too light. When the actual current is higher than the configured value, the ALD Current Abnormally Alarm disappears with the corresponding alarm tributary No. of 1. NO
NO
SET BTSRXUBP(Optional)
Threshold for triggering prompt alarm clearance when the ANT_B tributary antenna current is too heavy. When the actual current is higher than the configured value, the ALD Current Prompt Alarm clearance is triggered. NO
NO
SET BTSRXUBP(Optional)
Threshold for triggering prompt alarm clearance when the ANT_B tributary antenna current is too heavy. When the actual current is lower than the configured value, the ALD Current Prompt Alarm clearance is triggered. NO
NO
SET BTSRXUBP(Optional)
When the ANT_B tributary antenna current abnormally check mode is set to Mode 3, the parameter ALD Current Prompt Alarm is checked by periodical pulse. The periodical pulse consists of antenna over-current duration and normal current duration. This parameter is the ANT_B tributary antenna over-current duration.
NO
NO
SET BTSRXUBP(Optional)
When the ANT_B tributary antenna current abnormally check mode is set to UER_SELF_DEFINE3, the parameter ALD Current Prompt Alarm is checked by periodical pulse. The periodical pulse consists of antenna over-current duration and normal current duration. This parameter is the ANT_B tributary antenna normal current duration.
NO
NO
Function to be performed by two associated modules NO Cabinet number of the associated module. The associated two MRFUs or GRFUs must be in the SET BTSRXUBP(Mandatory) same cell. NO SET BTSRXUBP(Optional)
NO
YES
SET BTSRXUBP(Mandatory) Subrack number of the associated module
NO
YES
SET BTSRXUBP(Mandatory) Slot number of the associated module
NO
YES
SET BTSRXUBP(Optional)
Type of the RET ALD tributary current alarm threshold. When RET ALD Current Alarm Threshold Type is set to ON, the current alarm threshold of the port to which the antenna is connected needs to be set. The value of this parameter depends on the ALD type and connection mode.
NO
NO
SET BTSRXUBP(Optional)
RET Type.
NO
NO
SET BTSRXUBP(Optional)
Abnormally alarm raise threshold triggered by too heavy current of the RET tributary antenna. When the actual current is higher than the configured value, the ALD Current Abnormally Alarm is triggered with the corresponding alarm tributary No. of 0.
NO
NO
SET BTSRXUBP(Optional)
Clearance threshold for the alarm triggered when the RET tributary antenna is over current. When the actual current is below this threshold, the ALD Current Abnormally Alarm is cleared.
NO
NO
SET BTSRXUBP(Optional)
Abnormally alarm triggering threshold when the RET tributary antenna current is too light. When the actual current is lower than the configured value, the ALD Current Abnormally Alarm is triggered with the corresponding alarm tributary No. of 1. NO
NO
SET BTSRXUBP(Optional)
Abnormally alarm clearance triggering threshold when the RET tributary antenna current is too light. When the actual current is higher than the configured value, the ALD Current Abnormally Alarm disappears with the corresponding alarm tributary No. of 1. NO
NO
SET BTSRXUBP(Optional)
The maximum power that operators 1 can use on pass A of MRRU board.
NO
NO
SET BTSRXUBP(Optional)
The maximum power that operators 2 can use on pass A of MRRU board.
NO
NO
SET BTSRXUBP(Optional)
The maximum power that operators 3 can use on pass A of MRRU board.
NO
NO
SET BTSRXUBP(Optional)
The maximum power that operators 4 can use on pass A of MRRU board.
NO
NO
SET BTSRXUBP(Optional)
The maximum power that operators 1 can use on pass B of MRRU board.
NO
NO
SET BTSRXUBP(Optional)
The maximum power that operators 2 can use on pass B of MRRU board.
NO
NO
SET BTSRXUBP(Optional)
The maximum power that operators 3 can use on pass B of MRRU board.
NO
NO
SET BTSRXUBP(Optional)
The maximum power that operators 4 can use on pass B of MRRU board.
NO
NO
SET BTSRXUBP(Optional)
GU dynamic power sharing enables the power sharing between GSM and UMTS networks when the traffic of the two networks are not in balance. In this manner, the power usage and the network quality are improved. This parameter specifies whether to enable the GU dynamic power sharing.
NO
NO
SET BTSRXUBP(Optional)
Minimum Number of Non-BCCH TRXs in GSM for GU power sharing.To enable GU power sharing, the number of non-BCCH TRXs in the GSM network must be greater than the value of this parameter because the BCCH TRX cannot be used for power sharing.
NO
NO
SET BTSRXUBP(Optional)
GU power sharing can be enabled only when the power load of the GSM network is lower than this threshold. This ensures that GU power sharing is performed only when the GSM network is in low traffic. NO
NO
SET BTSRXUBP(Optional)
After the GSM network shares power with the UMTS network, the GSM network checks the requirements for retrieving the shared power before sending each timeslot. If P out of N timeslots meet the requirements for retrieving the shared power, the GSM network retrieves the power. That is, this parameter specifies the value of N in the P/N criterion. NO
NO
SET BTSRXUBP(Optional)
After the GSM network shares power with the UMTS network, the GSM network checks the requirements for retrieving the shared power before sending each timeslot. If P out of N timeslots meet the requirements for retrieving the shared power, the GSM retrieves the power. That is, this parameter specifies the value of N in the P/N criterion. NO
NO
SET BTSRXUBP(Optional)
The requirement for retrieving the shared power is that the current GSM remaining power is smaller than GSM power reserve multiplied by this parameter. NO
NO
SET BTSRXUBP(Optional)
If current number of idle channels is not less than sum of [GSM Idle Channel Threshold for GU Power Sharing] and [GSM Idle Channel Hysteresis for GU Power Sharing]), the GSM network is in low load, and the power reserve is set to [GSM Power Reserve in Low Load for GU Power Sharing]; If current number of idle channels is less than [GSM Idle Channel Threshold for GU Power Sharing] minus [GSM Idle Channel Hysteresis for GU Power Sharing]), the GSM network is in high load, and the power reserve is set to [GSM Power Reserve in High Load for GU Power Sharing]. NO
NO
SET BTSRXUBP(Optional)
If current number of idle channels is not less than sum of [GSM Idle Channel Threshold for GU Power Sharing] and [GSM Idle Channel Hysteresis for GU Power Sharing], the GSM network is in low load, and the power reserve is set to [GSM Power Reserve in Low Load for GU Power Sharing]; If current number of idle channels is less than [GSM Idle Channel Threshold for GU Power Sharing] minus [GSM Idle Channel Hysteresis for GU Power Sharing], the GSM network is in high load, and the power reserve is set to [GSM Power Reserve in High Load for GU Power Sharing]. NO
NO
SET BTSRXUBP(Optional)
If current number of idle channels is not less than sum of [GSM Idle Channel Threshold for GU Power Sharing] and [GSM Idle Channel Hysteresis for GU Power Sharing], the GSM network is in low load, and the power reserve is set to [GSM Power Reserve in Low Load for GU Power Sharing]. NO
NO
SET BTSRXUBP(Optional)
If current number of idle channels is less than [GSM Idle Channel Threshold for GU Power Sharing] minus [GSM Idle Channel Hysteresis for GU Power Sharing], the GSM network is in high load, and the power reserve is set to [GSM Power Reserve in High Load for GU Power Sharing]. NO
NO
SET BTSRXUBP(Optional)
Maximum accumulated power that the UMTS network can accept in power sharing according to the configuration specification of UMTS TRXs The accumulated power shared by GSM with UMTS cannot exceed the value of this parameter. NO
NO
SET BTSRXUBP(Optional)
Maximum power that the UMTS network can accept in each period in power sharing. In each GU power sharing period, the GSM network checks whether there is any power that can be shared with the UMTS network. NO
NO
SET BTSRXUBP(Optional)
whether to enable each AC RRU external alarm port's customer definition switch. "0" indicates that the external alarm port's customer definition switch is disabled and this port is not defined by customer but by vendor, and "1" indicates that the external alarm port's customer definition switch is enabled. It does not take effect to DC RRU, whose external alarm ports are always defined by customer. NO
NO
SET BTSRXUBP(Optional)
This parameter specifies whether the inter-PA sharing function, including inter-PA power sharing and inter-PA RF frequency hopping, is enabled on the board.
NO
NO
ADD BTSRXUBRD(Mandatory) RMV BTSRXUBRD(Mandatory) MOD BTSRXUBRD(Mandatory)
Index type of the BTS. BYNAME: query by BTS name; BYID: query by BTS index.
NO
YES
ADD BTSRXUBRD(Mandatory) RMV BTSRXUBRD(Mandatory) MOD BTSRXUBRD(Mandatory)
Index of the BTS, uniquely identifying a BTS in a BSC. YES
YES
Name of the BTS, uniquely identifying a BTS in a BSC. This parameter cannot contain the following invalid characters: ADD BTSRXUBRD(Mandatory) RMV BTSRXUBRD(Mandatory) MOD BTSRXUBRD(Mandatory)
,;="' In addition, cell names cannot contain two or more consecutive %, two or more consecutive spaces, or more than two consecutive +.
NO
YES
ADD BTSRXUBRD(Mandatory)
Type of the newly added RXU board
NO
YES
This parameter specifies the configuration specification of an RF module, that is, the RF capability of an RF module. User need to select a configuration specification of the RF module according to the V version of the RF module. That is, the RF module of a later V version can be configured with a specification of earlier V versions, and the RF module of an early V version can be configured with a specification of only its own V version. If this parameter is set to NA, the system does not verify the TRX power or bandwidth based on the configuration specification of the RF module. As a result, the TRX power or bandwidth may exceed the RF capability of the RF module, leading to TRX failure. Or, the configured TRX power or bandwidth is lower than the RF capability of the RF module. Therefore, you are advised not to set this parameter to NA. Instead, you are advised to set this parameter according to the actual configuration of the RF module. Currently, this parameter can be set to NA when the following RF modules are configured: RRU3008_V2 (of the GRRU type), RRU3908_V2 (of the MRRU type), GRFU_V2 (of the GRFU type), and MRFU_V2 (of the MRFU type). This parameter can also be set to NA when a ADD BTSRXUBRD(Optional) BTS3900E_V1 (of the BTS3900E type) is MOD BTSRXUBRD(Optional) configured. NO
NO
ADD BTSRXUBRD(Optional) RMV BTSRXUBRD(Optional) MOD BTSRXUBRD(Optional) Number of the cabinet.
NO
YES
ADD BTSRXUBRD(Optional) RMV BTSRXUBRD(Mandatory) MOD Number of the subrack where the BTS board is BTSRXUBRD(Mandatory) located
YES
NO
ADD BTSRXUBRD(Optional) RMV BTSRXUBRD(Mandatory) MOD Number of the slot where the BTS board is BTSRXUBRD(Mandatory) located
YES
NO
ADD BTSRXUBRD(Mandatory) RMV BTSRXUBRD(Mandatory) MOD BTSRXUBRD(Mandatory)
Name of an RXU
NO
YES
ADD BTSRXUBRD(Mandatory) RMV BTSRXUBRD(Mandatory) MOD BTSRXUBRD(Mandatory)
Number of the RXU chain where the board is located
NO
YES
ADD BTSRXUBRD(Mandatory) RMV BTSRXUBRD(Mandatory) MOD BTSRXUBRD(Mandatory)
Position of the RXU board on an RXU chain
NO
YES
NO
NO
Upper threshold of total transmit bandwidth of the same transmit channel of a board. The differences of maximum frequency and minimum frequency of the TRXs that have the same antenna path No. on a board are converted into bandwidths. Then the bandwidths are compared with the value of this parameter. For example, if this parameter is set to 150, the total transmit bandwidth cannot exceed 15 MHz. All the carriers on a TRX module that is not configured ADD BTSRXUBRD(Optional) with antenna path No. are considered to be on MOD BTSRXUBRD(Optional) the same transmit channel. NO
NO
When this parameter is set to Yes, the boardlevel verification threshold is used, including the following parameters: Forward Bandwidth, Receive Bandwidth, Power Class, and TRX ADD BTSRXUBRD(Optional) Number. When this parameter is set to No, the MOD BTSRXUBRD(Optional) default BSC-level verification threshold is used.
Upper threshold of total receive bandwidth of a board. The difference of maximum frequency and minimum frequency of TRXs on a board is converted into a bandwidth. Then the bandwidth is compared with the value of this parameter. For ADD BTSRXUBRD(Optional) example, if this parameter is set to 250, the total MOD BTSRXUBRD(Optional) receive bandwidth cannot exceed 25 MHz. NO
NO
GSM multi-carrier base station standard. Together with the "Board Type" parameter, this parameter serves as an index field and uniquely determines an entry of verification threshold of the transmit bandwidth, receive bandwidth, and number of TRXs of an RXU board. This ADD BTSRXUBRD(Optional) parameter is not used in the "MOD MOD BTSRXUBRD(Optional) BTSRXUBRD" command now. NO
NO
ADD BTSRXUBRD(Optional) MOD BTSRXUBRD(Optional) Allowed number of TRXs bound to a board.
NO
NO
RMV BTSRXUBRD(Mandatory) MOD BTSRXUBRD(Mandatory)
NO
YES
NO
NO
NO
YES
MOD BTSRXUBRDPOS(Mandator Index of the BTS, uniquely identifying a BTS in a y) BSC. NO
YES
Index type for the RXU
MOD BTSRXUBRD(Optional) New name of the RXU MOD BTSRXUBRDPOS(Mandator Index type of the BTS. BYNAME: query by BTS y) name; BYID: query by BTS index.
Name of the BTS, uniquely identifying a BTS in a BSC. This parameter cannot contain the following invalid characters: ,;="' MOD BTSRXUBRDPOS(Mandator y) MOD BTSRXUBRDPOS(Mandator y) MOD BTSRXUBRDPOS(Mandator y)
In addition, cell names cannot contain two or more consecutive %, two or more consecutive spaces, or more than two consecutive +.
NO
YES
Index type for the RXU
NO
YES
Number of the RXU chain where the board is located
NO
YES
MOD BTSRXUBRDPOS(Mandator y) Position of the RXU board on an RXU chain MOD BTSRXUBRDPOS(Mandator y) Name of an RXU
NO
YES
NO
YES
Number of the cabinet.
NO
YES
Number of the subrack where the BTS board is located
NO
YES
Number of the slot where the BTS board is located
NO
YES
Number of the RXU chain where the board is located
NO
YES
Position of the RXU board on an RXU chain
NO
YES
ADD BTSRXUCHAIN(Mandatory) CBN BTSRXUCHAIN(Mandatory) MOD BTSRXUCHAIN(Mandatory) SPT BTSRXUCHAIN(Mandatory) RMV BTSRXUCHAIN(Mandatory)
Index type of the BTS. BYNAME: query by BTS name; BYID: query by BTS index.
NO
YES
ADD BTSRXUCHAIN(Mandatory) CBN BTSRXUCHAIN(Mandatory) MOD BTSRXUCHAIN(Mandatory) SPT BTSRXUCHAIN(Mandatory) RMV BTSRXUCHAIN(Mandatory)
Index of the BTS, uniquely identifying a BTS in a BSC. YES
MOD BTSRXUBRDPOS(Mandator y) MOD BTSRXUBRDPOS(Mandator y) MOD BTSRXUBRDPOS(Mandator y) MOD BTSRXUBRDPOS(Mandator y) MOD BTSRXUBRDPOS(Mandator y)
YES
ADD BTSRXUCHAIN(Mandatory) CBN BTSRXUCHAIN(Mandatory) MOD BTSRXUCHAIN(Mandatory) SPT BTSRXUCHAIN(Mandatory) RMV BTSRXUCHAIN(Mandatory)
Name of the BTS, uniquely identifying a BTS in a BSC. This parameter cannot contain the following invalid characters: ,;="' In addition, cell names cannot contain two or more consecutive %, two or more consecutive spaces, or more than two consecutive +.
NO
YES
ADD BTSRXUCHAIN(Mandatory) MOD BTSRXUCHAIN(Mandatory) SPT BTSRXUCHAIN(Mandatory) RMV BTSRXUCHAIN(Mandatory)
Number of the RXU chain or ring. The value scope is 0~11 for Non-SingleRAN BTS and 0~249 for SingleRAN BTS. The RXU chain No. is unique in the same BTS. A maximum of 12 RXU chains can be configured in one BTS.
YES
YES
ADD BTSRXUCHAIN(Mandatory) MOD BTSRXUCHAIN(Mandatory)
RXU topology type, that is, RXU ring topology or RXU chain topology. In the case of the ring topology, the optical ports of the head and tail boards must be specified. In the case of the chain topology, only the optical port of the head board must be specified. NO
YES
ADD BTSRXUCHAIN(Mandatory) MOD BTSRXUCHAIN(Mandatory)
Number of the cabinet where the main board of the RXU chain or ring is located.
NO
YES
ADD BTSRXUCHAIN(Mandatory) MOD BTSRXUCHAIN(Mandatory)
Number of the subrack where the main board of the RXU chain or ring is located. The subrack No. is unique in the same BTS. NO
YES
ADD BTSRXUCHAIN(Mandatory) MOD BTSRXUCHAIN(Mandatory)
Number of the slot where the main board of the RXU chain or ring is located. The slot No. is unique in the same BTS.
NO
YES
ADD BTSRXUCHAIN(Mandatory) MOD BTSRXUCHAIN(Mandatory)
The number of the optical port of the main board in the RXU chain or ring. NO
YES
ADD BTSRXUCHAIN(Mandatory) CBN BTSRXUCHAIN(Mandatory) MOD BTSRXUCHAIN(Mandatory)
Number of the cabinet where the main board of the RXU ring is located
YES
NO
ADD BTSRXUCHAIN(Mandatory) CBN BTSRXUCHAIN(Mandatory) MOD BTSRXUCHAIN(Mandatory)
Number of the subrack where the main board of the RXU ring is located. The subrack No. is unique in the same BTS. NO
YES
ADD BTSRXUCHAIN(Mandatory) CBN BTSRXUCHAIN(Mandatory) MOD BTSRXUCHAIN(Mandatory)
Number of the slot where the main board of the RXU ring is located. The slot No. is unique in the same BTS. NO
YES
ADD BTSRXUCHAIN(Mandatory) CBN BTSRXUCHAIN(Mandatory) MOD BTSRXUCHAIN(Mandatory)
Number of the optical port where the main board of the RXU ring is located. NO
YES
CBN BTSRXUCHAIN(Mandatory)
Combination type of chains. "CHAINTORING" indicates that one chain changes to a ring, and "COMBINECHAINS" indicates that two chains are combined into one ring.
NO
YES
CBN BTSRXUCHAIN(Mandatory)
The first RXU chain number when combining two RXU chains to be one RXU ring. NO
YES
CBN BTSRXUCHAIN(Mandatory)
The second RXU chain number when combining two RXU chains to be one RXU ring. NO
YES
SPT BTSRXUCHAIN(Mandatory)
Split position on the RXU chain
NO
YES
ADD BTSSFPMODE(Mandatory) MOD BTSSFPMODE(Mandatory) RMV BTSSFPMODE(Mandatory)
Index type. BYNAME: query by name; BYID: query by index.
NO
YES
ADD BTSSFPMODE(Mandatory) MOD BTSSFPMODE(Mandatory) RMV BTSSFPMODE(Mandatory)
Index of the BTS, uniquely identifying a BTS in a BSC. NO
YES
Name of the BTS, uniquely identifying a BTS in a BSC. This parameter cannot contain the following invalid characters: ADD BTSSFPMODE(Mandatory) MOD BTSSFPMODE(Mandatory) RMV BTSSFPMODE(Mandatory)
,;="' In addition, cell names cannot contain two or more consecutive %, two or more consecutive spaces, or more than two consecutive +.
NO
YES
ADD BTSSFPMODE(Optional) MOD BTSSFPMODE(Optional) RMV BTSSFPMODE(Optional)
Number of the cabinet where the port is located
NO
NO
ADD BTSSFPMODE(Optional) MOD BTSSFPMODE(Optional) RMV BTSSFPMODE(Optional)
Number of the subrack where the port is located NO
NO
ADD BTSSFPMODE(Optional) MOD BTSSFPMODE(Optional) RMV BTSSFPMODE(Optional)
Number of the slot where the port is located
NO
ADD BTSSFPMODE(Mandatory) MOD BTSSFPMODE(Mandatory) RMV BTSSFPMODE(Mandatory)
Number of the SFP port. If the switching relation is added on the SFP port, it indicates that the SFP port is used to connect the BBU and no RXU chain or ring can be configured on the port. NO
YES
ADD BTSSFPMODE(Optional) MOD BTSSFPMODE(Optional)
Number of the switching port. If "Link Attribute" is set to "BBU", the switching port must be configured. The value ranges from 3 to 5. NO
NO
SET BTSSHARING(Mandatory)
Index type. BYNAME: query by name; BYID: query by index.
YES
SET BTSSHARING(Mandatory)
Index of the BTS, uniquely identifying a BTS in a BSC. YES
NO
NO
YES
Name of the BTS, uniquely identifying a BTS in a BSC. This parameter cannot contain the following invalid characters: ,;="'
SET BTSSHARING(Mandatory)
In addition, cell names cannot contain two or more consecutive %, two or more consecutive spaces, or more than two consecutive +.
NO
YES
SET BTSSHARING(Optional) Whether to allow sharing
NO
NO
SET BTSSPTMODE(Mandatory)
Type of an index.
NO
YES
SET BTSSPTMODE(Mandatory)
Index of the BTS, uniquely identifying a BTS in a BSC. YES
YES
Name of the BTS, uniquely identifying a BTS in a BSC. This parameter cannot contain the following invalid characters: ,;="'
SET BTSSPTMODE(Mandatory)
In addition, cell names cannot contain two or more consecutive %, two or more consecutive spaces, or more than two consecutive +.
NO
YES
RMV BTSSW(Mandatory)
Software version number of the BTS
NO
YES
NO
YES
NO
YES
RBK BTSSW(Mandatory)
Index type. BYNAME: query by name; BYID: query by index. List of BTS indexes. You can specify multiple BTSs,separated by "&" and "&&". For example, "1&2&3&4&5" or "1&&5".
RBK BTSSW(Mandatory)
List of BTS names. You can specify multiple BTSs by &.
NO
YES
RBK BTSSW(Optional)
Software version number of the BTS after rollback
NO
NO
RBK BTSSW(Optional)
Patch version number of the BTS after rollback
NO
NO
SET BTSTHEFTALM(Mandatory)
Type of an index.
NO
YES
RBK BTSSW(Mandatory)
SET BTSTHEFTALM(Mandatory)
Index of the BTS, uniquely identifying a BTS in a BSC. YES
YES
Name of the BTS, uniquely identifying a BTS in a BSC. This parameter cannot contain the following invalid characters: ,;="'
SET BTSTHEFTALM(Mandatory) SET BTSTHEFTALM(Optional) SET BTSTHEFTALM(Optional) SET BTSTHEFTALM(Optional) ADD BTSTMA(Mandatory) MOD BTSTMA(Mandatory) RMV BTSTMA(Mandatory) ADD BTSTMA(Mandatory) MOD BTSTMA(Mandatory) RMV BTSTMA(Mandatory)
In addition, cell names cannot contain two or more consecutive %, two or more consecutive spaces, or more than two consecutive +.
NO
Whether to enable the BTS to clear the burglar alarm automatically NO Delay for which the BTS waits to run the burglar alarm clearance command after reporting the burglar alarm NO
YES
NO
NO
Interval at which the BTS runs the burglar alarm clearance command automatically NO
NO
Index type of the BTS. BYNAME: query by BTS name; BYID: query by BTS index.
YES
NO
Index of the BTS, uniquely identifying a BTS in a BSC. YES
YES
Name of the BTS, uniquely identifying a BTS in a BSC. This parameter cannot contain the following invalid characters: ,;="' ADD BTSTMA(Mandatory) MOD BTSTMA(Mandatory) RMV BTSTMA(Mandatory)
In addition, cell names cannot contain two or more consecutive %, two or more consecutive spaces, or more than two consecutive +.
NO
YES
ADD BTSTMA(Mandatory) MOD BTSTMA(Mandatory) RMV BTSTMA(Mandatory)
Number of the RET antenna.
YES
YES
ADD BTSTMA(Optional) MOD BTSTMA(Optional)
Name of the RET antenna
NO
NO
ADD BTSTMA(Mandatory) MOD BTSTMA(Optional)
Type of TMA power supply: single port or dual ports.
NO
YES
ADD BTSTMA(Mandatory) MOD BTSTMA(Optional)
Number of the cabinet which controls RET antenna.
NO
YES
ADD BTSTMA(Mandatory) MOD BTSTMA(Optional)
Number of the subrack where the BTS board is located
NO
YES
ADD BTSTMA(Mandatory) MOD BTSTMA(Optional)
Number of the slot where the board controlling the RET antenna is located. For SingleRAN BTSs, the valid value ranges from 0 to 5. For non-SingleRAN BTSs, the valid value ranges from 0 to 23.
NO
YES
NO
YES
NO
YES
MOD BTSTMADEVICEDATA(Man Index of the BTS, uniquely identifying a BTS in a datory) BSC. NO
YES
ADD BTSTMA(Mandatory) MOD BTSTMA(Optional) TMA subunit number. MOD BTSTMADEVICEDATA(Man Index type of the BTS. BYNAME: query by BTS datory) name; BYID: query by BTS index.
Name of the BTS, uniquely identifying a BTS in a BSC. This parameter cannot contain the following invalid characters: ,;="' MOD In addition, cell names cannot contain two or BTSTMADEVICEDATA(Man more consecutive %, two or more consecutive datory) spaces, or more than two consecutive +.
NO
YES
MOD BTSTMADEVICEDATA(Man datory) Number of the RET antenna.
NO
YES
NO
YES
NO
NO
MOD BTSTMADEVICEDATA(Man datory) MOD BTSTMADEVICEDATA(Optio nal)
Number of the RET antenna subunit. Horizontal azimuth angle of the RET antenna. This parameter determines the coverage direction of a cell.
MOD BTSTMADEVICEDATA(Optio nal) Customized base station ID.
MOD BTSTMADEVICEDATA(Optio nal) Supported frequency band 1. MOD BTSTMADEVICEDATA(Optio nal) Lobe width of frequency band 1. MOD BTSTMADEVICEDATA(Optio nal) Gain of frequency band 1.
MOD BTSTMADEVICEDATA(Optio nal) Supported frequency band 2. MOD BTSTMADEVICEDATA(Optio nal) Lobe width of frequency band 2. MOD BTSTMADEVICEDATA(Optio nal) Gain of frequency band 2.
MOD BTSTMADEVICEDATA(Optio nal) Supported frequency band 3. MOD BTSTMADEVICEDATA(Optio nal) Lobe width of frequency band 3. MOD BTSTMADEVICEDATA(Optio nal) Gain of frequency band 3.
NO
NO
NO
NO
NO
NO
NO
NO
NO
NO
NO
NO
NO
NO
NO
NO
NO
NO
NO
NO
MOD BTSTMADEVICEDATA(Optio nal) MOD BTSTMADEVICEDATA(Optio nal) MOD BTSTMADEVICEDATA(Optio nal) MOD BTSTMADEVICEDATA(Optio nal) MOD BTSTMADEVICEDATA(Optio nal) MOD BTSTMADEVICEDATA(Optio nal) MOD BTSTMADEVICEDATA(Optio nal) MOD BTSTMADEVICEDATA(Optio nal) MOD BTSTMADEVICEDATA(Optio nal) MOD BTSTMADEVICEDATA(Optio nal)
Supported frequency band 4.
NO
NO
Lobe width of frequency band 4.
NO
NO
Gain of frequency band 4.
NO
NO
Installed Date.
NO
NO
Installed Mechanical Tilt[0.1degree].
NO
NO
Installer ID.
NO
NO
Sector ID.
NO
NO
Delivery serial number of the RET antenna
NO
NO
Model of the RET antenna.
NO
NO
Step of gain change.
NO
NO
NO
NO
NO
NO
MOD BTSTMADEVICEDATA(Optio nal) Sub Unit Type. MOD BTSTMADEVICEDATA(Optio nal) TMA received maximum frequency.
MOD BTSTMADEVICEDATA(Optio nal) TMA received minimum frequency. MOD BTSTMADEVICEDATA(Optio nal) TMA transmit maximum frequency. MOD BTSTMADEVICEDATA(Optio nal) TMA transmit minimum frequency.
NO
NO
NO
NO
NO
NO
SET BTSTMAPWR(Mandatory)
Index type. BYNAME: query by name; BYID: query by index.
NO
YES
SET BTSTMAPWR(Mandatory)
Index of the BTS, uniquely identifying a BTS in a BSC. NO
YES
Name of the BTS, uniquely identifying a BTS in a BSC. This parameter cannot contain the following invalid characters: ,;="'
SET BTSTMAPWR(Mandatory)
In addition, cell names cannot contain two or more consecutive %, two or more consecutive spaces, or more than two consecutive +.
NO
YES
SET BTSTMAPWR(Optional) Number of the cabinet
NO
NO
SET BTSTMAPWR(Mandatory)
Number of the subrack where the BTS board is located
NO
YES
SET BTSTMAPWR(Mandatory)
Number of the slot where the BTS board is located
NO
YES
SET BTSTMAPWR(Mandatory)
Number of the tributary
NO
YES
SET BTSTMAPWR(Mandatory) Whether to enable the power supply of the TMA NO MOD BTSTMASUBUNIT(Mandator Index type of the BTS. BYNAME: query by BTS y) name; BYID: query by BTS index. NO MOD BTSTMASUBUNIT(Mandator Index of the BTS, uniquely identifying a BTS in a y) BSC. NO
YES
YES
YES
Name of the BTS, uniquely identifying a BTS in a BSC. This parameter cannot contain the following invalid characters: ,;="' MOD In addition, cell names cannot contain two or BTSTMASUBUNIT(Mandator more consecutive %, two or more consecutive y) spaces, or more than two consecutive +.
NO
YES
MOD BTSTMASUBUNIT(Mandator y) Number of the RET antenna.
NO
YES
MOD BTSTMASUBUNIT(Mandator y) Number of the RET antenna subunit.
NO
YES
MOD Number of the cabinet which connects RET BTSTMASUBUNIT(Optional) antenna Port.
NO
NO
MOD Number of the subrack which connect Ret BTSTMASUBUNIT(Optional) Antenna Port.
NO
NO
Number of the slot where the board connect the RET antenna port is located. For SingleRAN BTSs, the valid value ranges from 0 to 5. For MOD non-SingleRAN BTSs, the valid value ranges BTSTMASUBUNIT(Optional) from 0 to 23. NO
NO
Number of the port on the board that is connected to the physical port on the antenna. For the GATM board, the valid value ranges from 0 to 5. For the RXU board, the valid value ranges from 0 to 2. Up to six RET antennas can MOD be configured on the feed tributary over the BTSTMASUBUNIT(Optional) physical port. NO
NO
MOD BTSTMASUBUNIT(Optional) Working mode of the TMA subunit. MOD BTSTMASUBUNIT(Optional) TMA Sub Unit Gain. ADD BTSTOPCONFIG(Mandatory ) RMV BTSTOPCONFIG(Mandatory ) Index type. BYNAME: query by name; BYID: MOD query by index.
NO
NO
NO
NO
NO
YES
ADD BTSTOPCONFIG(Mandatory ) RMV BTSTOPCONFIG(Mandatory ) Index of the BTS, uniquely identifying a BTS in a MOD BSC. YES
YES
ADD BTSTOPCONFIG(Mandatory ) RMV BTSTOPCONFIG(Mandatory ) MOD BTSTOPCONFIG(Mandatory )
Name of the BTS, uniquely identifying a BTS in a BSC. This parameter cannot contain the following invalid characters: ,;="' In addition, cell names cannot contain two or more consecutive %, two or more consecutive spaces, or more than two consecutive +.
NO
YES
ADD BTSTOPCONFIG(Optional) RMV BTSTOPCONFIG(Optional) MOD BTSTOPCONFIG(Optional)
Number of the cabinet where the port is located
YES
NO
ADD BTSTOPCONFIG(Optional) RMV BTSTOPCONFIG(Optional) MOD BTSTOPCONFIG(Optional)
Number of the subrack where the port is located YES
NO
ADD BTSTOPCONFIG(Optional) RMV BTSTOPCONFIG(Optional) MOD BTSTOPCONFIG(Optional)
Number of the slot where the port is located
NO
YES
Number of the port extended by the backboard TOP communication mechanism of the BTS. The TOP relation can be configured between the port on the BTS board panel and the port on the ADD BTS backplane, thus extending the ports. This BTSTOPCONFIG(Mandatory function is used for the configuration of the multi) mode base station. The range 16-19 indicates RMV the number of the E1/T1 port on the backplane BTSTOPCONFIG(Mandatory of the primary BBU and the range 24-27 ) indicates the number of the E1/T1 port on the MOD backplane of the secondary BBU. A BBU BTSTOPCONFIG(Mandatory supports only the E1 port numbered from 16 to ) 19 on the backplane. YES
YES
ADD BTSTOPCONFIG(Optional) MOD BTSTOPCONFIG(Optional)
Number of the cabinet where the board is located
NO
NO
ADD BTSTOPCONFIG(Optional) MOD BTSTOPCONFIG(Optional) ADD
Number of the subrack where the board is located
NO
NO
NO
YES
Type of the port. If this parameter is set to "TOPEXTOUTPORT", the local E1/T1 ports are used to extend the transmission of other boards. That is, the timeslots on the source E1/T1 port are used by other boards through the extended E1/T1 port. If this parameter is set to ADD "TOPEXTINPORT", the local E1/T1 ports are BTSTOPCONFIG(Mandatory used to extend the transmission of local boards. ) That is, the local boards can obtain the timeslots MOD from other boards through the extended E1/T1 BTSTOPCONFIG(Optional) port. NO
YES
ADD BTSTOPCONFIG(Mandatory ) MOD BTSTOPCONFIG(Mandatory )
YES
BTSTOPCONFIG(Mandatory ) MOD BTSTOPCONFIG(Optional) Number of the slot where the board is located
If "Port Type" is set to "TOPEXTOUTPORT", this parameter determines the extended E1/T1 port through which the timeslots on the source E1/T1 port are used by other boards. If "Port Type" is set to "TOPEXTINPORT", this parameter is set 255. NO
ADD BTSTOPCONFIG(Mandatory ) MOD The 64 kbit/s timeslots on the port are numbered BTSTOPCONFIG(Optional) from 1 to 31. NO
YES
SET BTSTRANS(Mandatory) Type of an index.
YES
NO
Index of the BTS, uniquely identifying a BTS in a SET BTSTRANS(Mandatory) BSC. YES
YES
Name of the BTS, uniquely identifying a BTS in a BSC. This parameter cannot contain the following invalid characters: ,;="' In addition, cell names cannot contain two or more consecutive %, two or more consecutive SET BTSTRANS(Mandatory) spaces, or more than two consecutive +.
NO
YES
This parameter specifies the data transmission mode between the BTS and the BSC. The license control modes are different in different transmission modes. Terrestrial Transmission: The data between the BTS and the BSC is transmitted through the E1 or fiber. This transmission mode has a short delay and is not controlled by the license. Satellite Transmission: The data between the BTS and the BSC is transmitted through the satellite. This transmission mode has a long delay and is controlled by the license. Terrestrial and Satellite: In normal cases, the terrestrial transmission mode is used. When the terrestrial transmission is faulty, the satellite transmission mode is used. This transmission SET BTSTRANS(Mandatory) mode is controlled by the license. NO
YES
ADD BTSTRANSTS(Mandatory) MOD BTSTRANSTS(Mandatory) RMV BTSTRANSTS(Mandatory)
Index type of the BTS. BYNAME: query by BTS name; BYID: query by BTS index.
YES
ADD BTSTRANSTS(Mandatory) MOD BTSTRANSTS(Mandatory) RMV BTSTRANSTS(Mandatory)
Index of the BTS, uniquely identifying a BTS in a BSC. YES
NO
YES
Name of the BTS, uniquely identifying a BTS in a BSC. This parameter cannot contain the following invalid characters: ADD BTSTRANSTS(Mandatory) MOD BTSTRANSTS(Mandatory) RMV BTSTRANSTS(Mandatory) ADD
,;="' In addition, cell names cannot contain two or more consecutive %, two or more consecutive spaces, or more than two consecutive +.
NO
YES
BTSTRANSTS(Optional) MOD BTSTRANSTS(Mandatory) RMV BTSTRANSTS(Mandatory)
Index of a transparent transmission timeslot. The index is unique for a BTS. YES
NO
ADD BTSTRANSTS(Mandatory) MOD BTSTRANSTS(Optional)
Number of a BTS port
YES
NO
ADD BTSTRANSTS(Optional) MOD BTSTRANSTS(Optional) ADD BTSTRANSTS(Optional) MOD BTSTRANSTS(Optional) ADD BTSTRANSTS(Optional) MOD BTSTRANSTS(Optional)
ADD BTSTRANSTS(Mandatory) MOD BTSTRANSTS(Optional) ADD BTSTRANSTS(Mandatory) MOD BTSTRANSTS(Optional) ADD BTSTRANSTS(Optional) MOD BTSTRANSTS(Optional)
Number of the in-port cabinet on a BTS
NO
NO
Number of the in-port subrack on a BTS
NO
NO
Number of the in-port slot on a BTS
NO
NO
Timeslot carried by an input port on an E1/T1 link
NO
YES
Number of a BTS port.
NO
YES
Number of the cabinet where the out-port is located
NO
NO
ADD BTSTRANSTS(Optional) MOD BTSTRANSTS(Optional) ADD BTSTRANSTS(Optional) MOD BTSTRANSTS(Optional)
Number of the subrack where the out-port is located
NO
NO
Number of the slot where the out-port is located
NO
NO
ADD BTSTRANSTS(Mandatory) MOD BTSTRANSTS(Optional)
Timeslot carried by an output port on an E1/T1 link
NO
YES
SET BTSTRCMPR(Mandatory)
Index type. BYNAME: query by name; BYID: query by index.
NO
YES
SET BTSTRCMPR(Mandatory)
Index of the BTS, uniquely identifying a BTS in a BSC. YES
YES
Name of the BTS, uniquely identifying a BTS in a BSC. This parameter cannot contain the following invalid characters: ,;="'
SET BTSTRCMPR(Mandatory)
In addition, cell names cannot contain two or more consecutive %, two or more consecutive spaces, or more than two consecutive +.
NO
YES
SET BTSTRCMPR(Mandatory)
Transmission compression ratio of a BTS. 1. Modifying the settings of "Transfers Compress Rate" may change the bandwidth required by the BTS. That is, the current bandwidth may be excessive or insufficient. If the bandwidth is insufficient, more secondary links should be added or timeslots should be rearranged. 2. The greater the "Transfers Compress Rate" is, the smaller the compression rate is and the greater the required bandwidth is. 3. The user can get the actual value through multiplying the value of this parameter by 0.01. The default value of this parameter is 100, which means no compression. NO
YES
ADD BTSTRXBRD(Mandatory) MOD BTSTRXBRD(Mandatory) RMV BTSTRXBRD(Mandatory)
Index type of the BTS. BYNAME: query by BTS name; BYID: query by BTS index.
YES
ADD BTSTRXBRD(Mandatory) MOD BTSTRXBRD(Mandatory) RMV BTSTRXBRD(Mandatory)
Index of the BTS, uniquely identifying a BTS in a BSC. YES
NO
YES
Name of the BTS, uniquely identifying a BTS in a BSC. This parameter cannot contain the following invalid characters: ADD BTSTRXBRD(Mandatory) MOD BTSTRXBRD(Mandatory) RMV BTSTRXBRD(Mandatory)
,;="' In addition, cell names cannot contain two or more consecutive %, two or more consecutive spaces, or more than two consecutive +.
NO
YES
ADD BTSTRXBRD(Mandatory)
Type of the board.
NO
YES
ADD BTSTRXBRD(Mandatory) MOD BTSTRXBRD(Mandatory) RMV BTSTRXBRD(Mandatory)
Number of the subrack where the BTS board is located
YES
YES
ADD BTSTRXBRD(Mandatory) MOD BTSTRXBRD(Mandatory) RMV BTSTRXBRD(Mandatory)
Number of the slot where the BTS board is located
YES
YES
MOD BTSTRXBRD(Mandatory)
New board type
NO
YES
SET BTSUSCUBP(Mandatory)
Index type of the BTS. BYNAME: query by BTS name; BYID: query by BTS index.
NO
YES
SET BTSUSCUBP(Mandatory)
Index of the BTS, uniquely identifying a BTS in a BSC. YES
YES
Name of the BTS, uniquely identifying a BTS in a BSC. This parameter cannot contain the following invalid characters: ,;="'
SET BTSUSCUBP(Mandatory)
In addition, cell names cannot contain two or more consecutive %, two or more consecutive spaces, or more than two consecutive +.
NO
YES
SET BTSUSCUBP(Optional) Number of the cabinet.
YES
NO
SET BTSUSCUBP(Mandatory)
Number of the subrack where the BTS board is located
YES
YES
SET BTSUSCUBP(Mandatory)
Number of the slot where the BTS board is located
YES
YES
SET BTSUSCUBP(Mandatory)
Whether to allow the configuration of board parameters. The value "YES" indicates that the configuration is allowed, and the value "NO" indicates that the configuration is not allowed. If the parameter is set to "YES", all the other parameters controlled by it are reset to the default values in this command. In multi-mode scenario, the value of this parameter in this mode must be the same as the value of the corresponding parameter in another mode. NO
YES
Synchronization clock adopted when two satellite cards are used together. GPS:Trace GPS only. GLONASS:Trace GLONASS only. SET BTSUSCUBP(Optional) GPSGlonass:Trace GPS and GLONASS. NO
NO
Length of the feeder cable. The GPS satellite card is connected to the antenna through feeder cables. The transmission delay on the feeder cable can be calculated on the basis of the length of the feeder cable, thus increasing the SET BTSUSCUBP(Optional) timing accuracy of the satellite card. NO
NO
SET BTSUSCUBP(Optional) Power supply switch of the GPS antenna feeder NO
NO
SET BTSVLAN(Mandatory) IMP BTSVLAN(Mandatory)
YES
Type of an index.
NO
SET BTSVLAN(Mandatory) IMP BTSVLAN(Mandatory)
Index of the BTS, uniquely identifying a BTS in a BSC. YES
YES
Name of the BTS, uniquely identifying a BTS in a BSC. This parameter cannot contain the following invalid characters: ,;="'
SET BTSVLAN(Mandatory) IMP BTSVLAN(Mandatory)
In addition, cell names cannot contain two or more consecutive %, two or more consecutive spaces, or more than two consecutive +.
NO
YES
SET BTSVLAN(Mandatory) IMP BTSVLAN(Mandatory)
Service type of the BTS. The QoS processing depends on the DSCP, VLAN ID, and VLAN priority that vary according to the service type.
YES
YES
SET BTSVLAN(Optional)
DSCP to be contained in the header of an IP packet. According to this parameter, the router provides differentiated services for packet streams. If this parameter is greater, the service level is higher. This parameter is valid only when the transport type is set to IP. NO
NO
SET BTSVLAN(Optional) IMP BTSVLAN(Optional)
VLAN switch for the service type.
NO
NO
SET BTSVLAN(Optional)
VLAN ID of the service type.
NO
NO
SET BTSVLAN(Optional) IMP BTSVLAN(Optional)
VLAN priority level of the service type. This parameter helps to determine the packet service priority level at the data link layer on the Ethernet. If this parameter is set to 0, the service type has the highest VLAN priority level. If this parameter is set to 7, the service type has the lowest VLAN priority level. NO
NO
IMP BTSVLAN(Mandatory)
Configuration Switch.
YES
NO
IMP BTSVLAN(Optional)
DSCP to be contained in the header of an IP packet. According to this parameter, the router provides differentiated services for packet streams. If this parameter is greater, the service level is higher. This parameter is valid only when the transport type is set to IP. NO
NO
IMP BTSVLAN(Optional)
VLAN ID of the service type.
NO
NO
NO
YES
ADD BTSVLANCLASS(Mandatory) RMV BTSVLANCLASS(Mandatory) IMP Index type. BYNAME: query by name; BYID: BTSVLANCLASS(Mandatory) query by index.
ADD BTSVLANCLASS(Mandatory) RMV BTSVLANCLASS(Mandatory) IMP Index of the BTS, uniquely identifying a BTS in a BTSVLANCLASS(Mandatory) BSC. YES
YES
Name of the BTS, uniquely identifying a BTS in a BSC. This parameter cannot contain the following invalid characters: ADD BTSVLANCLASS(Mandatory) RMV BTSVLANCLASS(Mandatory) IMP BTSVLANCLASS(Mandatory)
,;="' In addition, cell names cannot contain two or more consecutive %, two or more consecutive spaces, or more than two consecutive +.
ADD BTSVLANCLASS(Mandatory) RMV BTSVLANCLASS(Mandatory) IMP BTSVLANCLASS(Mandatory) VLAN Group No.
NO
YES
YES
YES
YES
YES
ADD BTSVLANCLASS(Mandatory) RMV BTSVLANCLASS(Mandatory) IMP BTSVLANCLASS(Mandatory)
USERDATA:2G: OML,RSL,ESL,EML,CS voice,CS data,PS High,PS Low ;TCP:3G/4G:maintenance data; SCTP:3G/4G:Signal data; OTHERDATA:ARP,ICMP,IPCLK handshake message,DHCP message,BFD message,1588V2 arrange message.
ADD BTSVLANCLASS(Mandatory) RMV BTSVLANCLASS(Mandatory) IMP BTSVLANCLASS(Mandatory)
DSCP to be contained in the header of an IP packet. According to this parameter, the router provides differentiated services for packet streams. If this parameter is greater, the service level is higher. This parameter is valid only when the transport type is set to IP. NO
YES
ADD BTSVLANCLASS(Mandatory) IMP BTSVLANCLASS(Mandatory) VLAN ID of the service type.
ADD BTSVLANCLASS(Optional) IMP BTSVLANCLASS(Optional)
NO
VLAN priority level of the service type. This parameter helps to determine the packet service priority level at the data link layer on the Ethernet. If this parameter is set to 0, the service type has the highest VLAN priority level. If this parameter is set to 7, the service type has the lowest VLAN priority level. NO
YES
NO
IMP BTSVLANCLASS(Mandatory) Configuration Switch.
NO
YES
ADD BTSVLANMAP(Mandatory) RMV BTSVLANMAP(Mandatory) IMP BTSVLANMAP(Mandatory)
Index type. BYNAME: query by name; BYID: query by index.
NO
YES
ADD BTSVLANMAP(Mandatory) RMV BTSVLANMAP(Mandatory) IMP BTSVLANMAP(Mandatory)
Index of the BTS, uniquely identifying a BTS in a BSC. YES
YES
Name of the BTS, uniquely identifying a BTS in a BSC. This parameter cannot contain the following invalid characters: ADD BTSVLANMAP(Mandatory) RMV BTSVLANMAP(Mandatory) IMP BTSVLANMAP(Mandatory)
,;="' In addition, cell names cannot contain two or more consecutive %, two or more consecutive spaces, or more than two consecutive +.
NO
YES
ADD BTSVLANMAP(Mandatory) RMV BTSVLANMAP(Mandatory) IMP BTSVLANMAP(Mandatory)
Next Hop IP.
YES
YES
ADD BTSVLANMAP(Mandatory) IMP BTSVLANMAP(Mandatory)
VLAN Mode.
NO
YES
ADD BTSVLANMAP(Mandatory) IMP BTSVLANMAP(Mandatory)
VLAN ID of the service type.
NO
YES
VLAN priority level of the service type. This parameter helps to determine the packet service priority level at the data link layer on the Ethernet. If this parameter is set to 0, the service ADD type has the highest VLAN priority level. If this BTSVLANMAP(Optional) parameter is set to 7, the service type has the IMP BTSVLANMAP(Optional) lowest VLAN priority level. NO
NO
ADD BTSVLANMAP(Mandatory) IMP BTSVLANMAP(Mandatory)
VLAN Group No.
NO
YES
IMP BTSVLANMAP(Mandatory)
Configuration Switch.
NO
YES
NO
YES
Index type of the BTS. BYNAME: query by BTS SET BTSXMUFP(Mandatory) name; BYID: query by BTS index.
Index of the BTS, uniquely identifying a BTS in a SET BTSXMUFP(Mandatory) BSC. YES
YES
Name of the BTS, uniquely identifying a BTS in a BSC. This parameter cannot contain the following invalid characters: ,;="' In addition, cell names cannot contain two or more consecutive %, two or more consecutive SET BTSXMUFP(Mandatory) spaces, or more than two consecutive +.
NO
YES
SET BTSXMUFP(Mandatory) Power Adjust Parameter Configuration Switch.
NO
YES
ADD CAB(Mandatory) RMV CAB(Mandatory)
Number of the cabinet
YES
YES
ADD CAB(Mandatory)
Whether the added cabinet is a remote cabinet
NO
YES
ADD CCG(Mandatory) RMV CCG(Mandatory)
You can select one or more commands.
NO
YES
SET CCGN(Optional)
Name of the command group. You can define the name.
NO
NO
ADD CELLBIND2BTS(Mandatory) RMV CELLBIND2BTS(Mandatory) Type of an index.
NO
YES
ADD CELLBIND2BTS(Mandatory) RMV Index of a cell, uniquely identifying a cell in a CELLBIND2BTS(Mandatory) BSC.
YES
YES
Name of a cell. This parameter uniquely identifies a cell in a BSC. Cell names cannot contain the following invalid characters: ADD ,;="' CELLBIND2BTS(Mandatory) In addition, cell names cannot contain two or RMV more consecutive %, two or more consecutive CELLBIND2BTS(Mandatory) spaces, or more than two consecutive +.
NO
YES
ADD Index of the BTS, uniquely identifying a BTS in a CELLBIND2BTS(Mandatory) BSC. NO
YES
Name of the BTS, uniquely identifying a BTS in a BSC. This parameter cannot contain the following invalid characters: ,;="' In addition, cell names cannot contain two or ADD more consecutive %, two or more consecutive CELLBIND2BTS(Mandatory) spaces, or more than two consecutive +.
NO
YES
SET CERTFILE(Optional)
Name of the root certificate file
NO
NO
SET CERTFILE(Optional)
Name of the certificate file
NO
NO
SET CERTFILE(Optional)
Name of the private key file
NO
NO
SET CERTFILE(Optional)
Whether to enable the private key password. DISABLE: indicating that the private key password is disabled. ENABLE: indicating that the private key password is enabled.
NO
NO
SET CERTFILE(Mandatory)
Private key password
SET CERTFILE(Optional)
Whether to enable the certificate revocation list. DISABLE: indicating that the certificate revocation list is disabled. ENABLE: indicating that the certificate revocation list is enabled. NO
NO
SET CERTFILE(Mandatory)
Name of the certificate revocation list file.
NO
YES
SET CERTFILE(Optional)
Whether to enable the certificate chain DISABLE: indicating that the certificate chain is disabled ENABLE: indicating that the certificate chain is enabled
NO
NO
NO
YES
NO
NO
NO
YES
SET CERTFILE(Mandatory) Name of the certificate chain file SET CFGDATAEFFECTIVE(Optio nal) Number of the subrack SET CFGDATAINEFFECTIVE(Ma ndatory) Number of the subrack
NO
YES
ADD CFMMA(Mandatory) RMV CFMMA(Mandatory)
Number of the subrack
YES
YES
ADD CFMMA(Mandatory) RMV CFMMA(Mandatory)
Indicates the slot number for running this command
YES
YES
ADD CFMMA(Mandatory)
Identifies a maintenance domain
YES
YES
ADD CFMMA(Mandatory)
Specifies the identifier of a VLAN. Connectivity Fault Management (CFM) supports the creation of a Maintenance Association (MA) on each VLAN for each Maintenance Domain (MD) Level. The MA must be in one-to-one mapping with the VLAN ID. NO
YES
ADD CFMMA(Mandatory) RMV CFMMA(Mandatory)
Identifies a maintenance group. Maintenance group: maintenance alliance (MA), which is a component of the maintenance domain (MD). Maintenance domain is an Ethernet or a component of an Ethernet in which the connectivity failure management is performed. The maintenance domain is uniformly managed by one ISP. One MD can be divided into one or more maintenance groups. NO
YES
ADD CFMMA(Mandatory)
Name of the MA
NO
YES
ADD CFMMA(Optional)
Transmission period of the CCM packet in the MA
NO
NO
ADD CFMMD(Mandatory) RMV CFMMD(Mandatory)
Number of the subrack
YES
YES
ADD CFMMD(Mandatory) RMV CFMMD(Mandatory)
Indicates the slot number for running this command
YES
YES
ADD CFMMD(Mandatory) RMV CFMMD(Mandatory)
Identifies a maintenance domain
YES
YES
ADD CFMMD(Optional)
Class of the maintenance domain
NO
NO
ADD CFMMD(Mandatory)
name of the MD
NO
YES
ADD CFMMEP(Mandatory) RMV CFMMEP(Mandatory)
Number of the subrack
YES
YES
ADD CFMMEP(Mandatory) RMV CFMMEP(Mandatory)
Identifies a maintenance group. Maintenance group: maintenance alliance (MA), which is a component of the maintenance domain (MD). Maintenance domain is an Ethernet or a component of an Ethernet in which the connectivity failure management is performed. The maintenance domain is uniformly managed by one ISP. One MD can be divided into one or more maintenance groups. YES
YES
ADD CFMMEP(Mandatory)
The type of the maintenance point added to the maintenance group. LocalMep indicates a local maintenance point and RemoteMep indicates a remote maintenance point.
YES
YES
ADD CFMMEP(Mandatory) RMV CFMMEP(Mandatory)
Identifies a maintenance point in the maintenance alliance A maintenance point is an edge node of the MA. YES
YES
ADD CFMMEP(Mandatory)
Indicates the type of the physical port used by the local maintenance point in the maintenance group. FE indicates the FE port and TRUNK indicates the aggregation group.
NO
YES
ADD CFMMEP(Mandatory) RMV CFMMEP(Mandatory)
Indicates the slot number for running this command
NO
YES
ADD CFMMEP(Mandatory)
Specifies Ethernet port number.
NO
YES
ADD CFMMEP(Mandatory)
TRUNK group number
NO
YES
SET CLK(Mandatory)
Type of the subrack
YES
YES
SET CLK(Mandatory)
Number of the subrack
YES
YES
SET CLK(Mandatory)
Number of the slot
YES
YES
SET CLK(Mandatory)
Type of the board
NO
YES
SET CLK(Optional)
Port for output LINE1. For the EIUa board, which can be configured with two clock sources, this parameter specifies the LINE1 clock source; for boards of other types, only one clock source can be configured and this parameter specifies the clock source.(The actual value range may differ on the LMT ) NO
NO
SET CLK(Optional)
Whether to use Back-up port for LINE1. For the EIUa board, which can be configured with two clock sources, this parameter specifies whether use Back-up port for LINE1; for boards of other types, only one clock source can be configured and this parameter specifies the clock source.
NO
NO
SET CLK(Optional)
Back-up port for output LINE1. For the EIUa board, which can be configured with two clock sources, this parameter specifies the back-up port for LINE1 clock source; for boards of other types, only one clock source can be configured and this parameter specifies the clock source.(The actual value range may differ on the LMT ) NO
NO
SET CLK(Optional)
Port for output LINE2(The actual value range may differ on the LMT )
NO
NO
SET CLK(Optional)
Whether to use Back-up port for LINE2
NO
NO
SET CLK(Optional)
Back-up port for output LINE2(The actual value range may differ on the LMT )
NO
NO
SET CLK(Optional)
This parameter applies only to the Gb interface boards. When the clock sources of the SGSN and the MSC are different, set this parameter to Yes to enable the SGSN to use the clock source that is the same as the clock source of the MSC. NO
NO
SET CLK(Optional)
Switch of panel BITS1(2M)
NO
NO
SET CLK(Optional)
Switch of panel BITS2(2M)
NO
NO
SET CLK(Optional)
Switch of backplane LINE1
NO
NO
SET CLK(Optional)
Switch of backplane LINE2
NO
NO
SET CLKMODE(Mandatory)
Working mode of the system clock. Working modes of the system clock are as follows: MANUAL: In this mode, you must specify a clock source and prevent the switching of the clock source. AUTO: In this mode, you do not need to specify a clock source and the system automatically selects the clock source with the highest priority. FREE: In this mode, the crystal oscillator of board is used. NO
YES
SET CLKMODE(Mandatory)
Priority of the clock source
NO
YES
ADD CLKSRC(Mandatory) RMV CLKSRC(Mandatory)
Priority of the clock source.There are four priorities (in descending order): 1, 2, 3, 4.
YES
YES
ADD CLKSRC(Mandatory)
Type of the clock source.
NO
YES
SET CLKTYPE(Mandatory) SET CMCTRLSW(Mandatory)
Type of the clock board NO Configuration rollback control switch that is used to specify whether to support the configuration rollback function NO
YES
YES
Type of the connection between the NE and EMS or LMT. The connection can be a plain SET CONNTYPE(Mandatory) connection or SSL encryption connection.
NO
YES
SET COPTLNK(Mandatory)
Number of the subrack
YES
YES
SET COPTLNK(Mandatory)
Indicates the slot number for running this command
YES
YES
SET COPTLNK(Mandatory)
Board type
NO
YES
SET COPTLNK(Mandatory)
Port selection
NO
YES
SET COPTLNK(Optional)
Port number
YES
NO
SET COPTLNK(Optional)
E1/T1 port number
YES
NO
SET COPTLNK(Optional)
Switch for the J2 tracing mark mismatching alarm
NO
NO
SET COPTLNK(Optional)
Byte length of J2
NO
NO
SET COPTLNK(Optional)
Byte display format of J2
NO
NO
SET COPTLNK(Optional)
Sending value of J2
NO
NO
SET COPTLNK(Optional)
Expected receiving value of J2
NO
NO
SET COPTLNK(Optional)
A zero or a space used to fill in the J byte of the optical port based on the J byte of the peer equipment. If the J bytes are inconsistent, an alarm related to J byte mismatch will be reported and the negotiation of the optical port may fail, thus leading to deterioration of the services. NO
NO
SET CPUTHD(Mandatory)
Classes of boards classified according to function modules
YES
SET CPUTHD(Optional)
CPU usage alarm clearance threshold. When the CPU usage is lower than the threshold, the CPU usage alarm is cleared. "CPU occupancy alarm clearance threshold" must be smaller than "CPU occupancy alarm threshold". NO
NO
SET CPUTHD(Optional)
CPU usage alarm threshold. When the CPU usage exceeds the threshold, a CPU usage alarm is reported. "CPU occupancy alarm clearance threshold" must be smaller than "CPU occupancy alarm threshold". NO
NO
SET CPUTHD(Optional)
DSP usage alarm clearance threshold. When the DSP usage is lower than the threshold, the DSP usage alarm is cleared. "DSP occupancy alarm clearance threshold" must be smaller than "DSP occupancy alarm threshold". NO
NO
SET CPUTHD(Optional)
DSP usage alarm threshold. When the DSP usage exceeds the threshold, a DSP usage alarm is reported. "DSP occupancy alarm clearance threshold" must be smaller than "DSP occupancy alarm threshold". NO
NO
SET CPUTHD(Optional)
Throughput usage alarm clearance threshold. When the throughput usage is lower than the threshold, the throughput usage alarm is cleared. "Thruput Occupancy Alarm Clearance Threshold" must be smaller than "Thruput Occupancy Alarm Threshold".
NO
NO
SET CPUTHD(Optional)
Throughput usage alarm threshold. When the throughput usage exceeds the threshold, a throughput usage alarm is reported. "Thruput Occupancy Alarm Clearance Threshold" must be smaller than "Thruput Occupancy Alarm Threshold". NO
NO
Service priority of the CS MS-originated call SET when CS services are preferred. This parameter CSABISCONGCTRL(Optiona is used for the flow control in the case of Abis l) over IP/HDLC. NO
NO
YES
Service priority of the CS MS-terminated call SET when CS services are preferred. This parameter CSABISCONGCTRL(Optiona is used for the flow control in the case of Abis l) over IP/HDLC. NO SET CSABISCONGCTRL(Optiona l) SET CSABISCONGCTRL(Optiona l) SET CSABISCONGCTRL(Optiona l)
Service priority of the CS emergency call when CS services are preferred. This parameter is used for the flow control in the case of Abis over IP/HDLC. NO VBS service priority when CS services are preferred. This parameter is used for the flow control in the case of Abis over IP/HDLC. NO VGCS service priority when CS services are preferred. This parameter is used for the flow control in the case of Abis over IP/HDLC. NO
Priority of supplementary services when CS SET services are preferred. This parameter is used CSABISCONGCTRL(Optiona for the flow control in the case of Abis over l) IP/HDLC.
NO
NO
NO
NO
NO
NO
Service priority of call reestablishment when CS SET services are preferred. This parameter is used CSABISCONGCTRL(Optiona for the flow control in the case of Abis over l) IP/HDLC. NO
NO
Service priority of the intra-BSC handover when SET CS services are preferred. This parameter is CSABISCONGCTRL(Optiona used for the flow control in the case of Abis over l) IP/HDLC. NO
NO
Service priority of the incoming BSC handover SET when CS services are preferred. This parameter CSABISCONGCTRL(Optiona is used for the flow control in the case of Abis l) over IP/HDLC. NO
NO
SET CSABISCONGCTRL(Optiona l) SET CSABISCONGCTRL(Optiona l)
PS service priority when CS services are preferred. This parameter is used for the flow control in the case of Abis over IP/HDLC. Priority of other services when CS services are preferred. This parameter is used for the flow control in the case of Abis over IP/HDLC.
RTR DB(Mandatory)
ADD DEVIP(Mandatory)
NO
NO
NO
NO
Name of the file.
NO
YES
Number of the subrack
NO
YES
ADD DEVIP(Mandatory)
Indicates the slot number for running this command
NO
YES
ADD DEVIP(Mandatory)
Device IP Address Type
NO
YES
ADD DEVIP(Mandatory) RMV DEVIP(Mandatory)
IP address of the board
YES
YES
ADD DHCPRLY(Mandatory) RMV DHCPRLY(Mandatory)
DHCP Relay ID
NO
YES
ADD DHCPRLY(Mandatory)
This parameter indicates the IP Address of DHCP Relay Gateway.
NO
YES
SET DPUBRDTYPE(Mandatory)
Number of the subrack
YES
YES
SET DPUBRDTYPE(Mandatory)
Number of the slot
YES
YES
SET DPUBRDTYPE(Mandatory)
Type of the board
NO
YES
SET DSCPMAP(Mandatory)
Differentiated service code is used to identify the service priority of the user. YES
YES
SET DSCPMAP(Optional)
VLAN priority
YES
NO
SET DSPLVDSMODE(Mandatory) Number of the subrack
YES
YES
SET DSPLVDSMODE(Mandatory) Number of the slot
YES
YES
Number of DSPs, each of which carries 252 LVDS links on the DPUd or DPUb board. If this SET parameter is set to 0, every DSP carries 192 DSPLVDSMODE(Mandatory) LVDS links by default.
NO
YES
ADD DXX(Mandatory) RMV DXX(Mandatory)
Number of a DXX. It is unique in one BSC and uniquely identifies a DXX.
YES
YES
ADD DXX(Optional)
Maximum number of ports on the DXX
NO
NO
ADD DXXCONNECT(Mandatory) MOD DXXCONNECT(Mandatory) RMV DXXCONNECT(Mandatory)
Number of a DXX. It is unique in one BSC and uniquely identifies a DXX.
YES
YES
ADD DXXCONNECT(Mandatory) MOD DXXCONNECT(Mandatory) RMV DXXCONNECT(Mandatory)
Number of the DXX port
YES
YES
ADD DXXCONNECT(Mandatory) MOD DXXCONNECT(Mandatory)
Subrack number of the BSC board that is connected to the DXX
NO
YES
ADD DXXCONNECT(Mandatory) MOD DXXCONNECT(Mandatory)
Slot number of the BSC board that is connected to the BTS NO
YES
ADD DXXCONNECT(Mandatory) MOD DXXCONNECT(Mandatory)
Number of the port through which the DXX is connected to the BSC
NO
YES
ADD DXXTSEXGRELATION(Man datory) MOD DXXTSEXGRELATION(Man datory) RMV DXXTSEXGRELATION(Man Number of a DXX. It is unique in one BSC and datory) uniquely identifies a DXX.
YES
YES
ADD DXXTSEXGRELATION(Man datory) MOD DXXTSEXGRELATION(Man datory) RMV DXXTSEXGRELATION(Man datory) In-port number of a DXX
YES
YES
ADD DXXTSEXGRELATION(Man datory) MOD DXXTSEXGRELATION(Man datory) RMV DXXTSEXGRELATION(Man datory) Number of a DXX In-timeslot
YES
YES
ADD DXXTSEXGRELATION(Man datory) MOD DXXTSEXGRELATION(Man datory) Number of the outgoing port of the DXX
NO
YES
ADD DXXTSEXGRELATION(Man datory) MOD DXXTSEXGRELATION(Man datory) Number of the outgoing timeslot of the DXX
NO
YES
SET E1T1(Mandatory)
Number of the subrack
NO
YES
SET E1T1(Mandatory)
Indicates the slot number for running this command
NO
YES
SET E1T1(Mandatory)
Board type
NO
YES
SET E1T1(Optional)
Port selection
NO
NO
SET E1T1(Optional)
E1/T1 port number
NO
NO
SET E1T1(Optional)
Whether support the balanced mode and unbalanced mode. When this parameter is set to "YES", you can run MML commands to set the balancing mode of the interface boards. You do not need to turn the DIP bits inwards or outwards. When this parameter is set to "NO", you must run MML commands to set the working mode to T1 if the working mode needs to be set to T1. If the working mode needs to be set to E1, you must set the working mode to E1 by turning the related DIP bits inwards or outwards. NO
NO
SET E1T1(Optional)
Working mode. E1: The E1 system is recommended by the IUTT. E1 carries signals at 2.048 Mbit/s. G.703 defines the electrical specification and G.704 defines the frame format for E1 telecommunication lines. The E1 system is used in Europe and China. T1: The T1 system is recommended by the ANSI and widely used in the North America. T1 carries signals at 1.544 Mbit/s. E1_BA: A circuit that uses two wires to transmit the same but contra-directional signals. The 120ohm E1 line and 100-ohm T1 line are typical balanced circuits. The balanced circuit must use the balanced cable, that is, twisted-pair cable consisting of two wires. E1_UNBA: A circuit that uses one transmission signal cable and one common grounding cable to transmit signals. The 75-ohm E1 line is a typical unbalanced circuit. The unbalanced circuit must use the unbalanced cable, that is, coaxial cable. NO
NO
SET E1T1(Optional)
Frame structure
NO
NO
SET E1T1(Optional)
Sending frame structure
NO
NO
SET E1T1(Optional)
Receiving frame structure
NO
NO
SET E1T1(Optional)
Line coding method
NO
NO
SET E1T1(Optional)
Loop Detect Switch
NO
NO
SET E1T1(Optional)
Remark
NO
NO
SET E1T1LOP(Mandatory)
Number of the subrack
YES
YES
SET E1T1LOP(Mandatory)
Indicates the slot number for running this command
YES
YES
SET E1T1LOP(Mandatory)
Board type
NO
YES
SET E1T1LOP(Optional)
E1/T1 port number
YES
NO
SET E1T1LOP(Mandatory)
Loopback type No loop: Cancel loop back Remote loop: Remote loop back Line remote loop: Remote loop back Local loop: Local loop back Payload loop: Remote Loop back on all E1/T1 port time slots except TS0 Single channel local loop: Local Loop back on a specified TS Single channel remote loop: Remote loop back on a specified TS NO
YES
SET E1T1LOP(Optional)
The loopback channel number for loopback mode of single channel local loop
NO
NO
SET E1T1LOP(Optional)
The loopback channel number for loopback mode of single channel remote loop, it can select more than one channel NO
NO
SET E1T1LOP(Optional)
IDLE code
NO
NO
SET E1T1LOP(Optional)
It specifies the loopback duration.
NO
NO
ADD EMSIP(Mandatory)
IP address of the NE management system
YES
YES
ADD EMSIP(Mandatory)
Subnet mask of the board
NO
YES
ADD EMSIP(Optional)
External virtual IP address of the OMU
NO
NO
ADD EMSIP(Optional) ADD EMU(Mandatory) RMV EMU(Mandatory) MOD EMU(Mandatory)
Subnet mask of the OMU in the external network NO
NO
Number of the subrack
YES
YES
ADD EMU(Optional) MOD EMU(Optional)
48V voltage alarm switch
NO
NO
ADD EMU(Optional) MOD EMU(Optional)
24V voltage alarm switch
NO
NO
ADD EMU(Optional) MOD EMU(Optional)
Temperature alarm switch
NO
NO
ADD EMU(Optional) MOD EMU(Optional)
Humidity alarm switch
NO
NO
ADD EMU(Optional) MOD EMU(Optional)
Water sensor alarm switch
NO
NO
ADD EMU(Optional) MOD EMU(Optional)
Smog alarm switch
NO
NO
ADD EMU(Optional) MOD EMU(Optional)
Infrared alarm switch
NO
NO
ADD EMU(Optional) MOD EMU(Optional)
Door status alarm switch
NO
NO
ADD EMU(Optional) MOD EMU(Optional)
Sensor type of extended analog signal 1
NO
NO
ADD EMU(Optional) MOD EMU(Optional)
Sensor type of extended analog signal 2
NO
NO
ADD EMU(Optional) MOD EMU(Optional)
Sensor type of extended analog signal 3
NO
NO
ADD EMU(Optional) MOD EMU(Optional)
Sensor type of extended analog signal 4
NO
NO
ADD EMU(Optional) MOD EMU(Optional)
Upper limit for triggering a 48V voltage sensor alarm
NO
NO
ADD EMU(Optional) MOD EMU(Optional)
Lower limit for triggering a 48V voltage sensor alarm
NO
NO
ADD EMU(Optional) MOD EMU(Optional)
Upper limit for triggering a 24 V voltage sensor alarm
NO
NO
ADD EMU(Optional) MOD EMU(Optional)
Lower limit for triggering a 24 V voltage sensor alarm
NO
NO
ADD EMU(Optional) MOD EMU(Optional)
Upper limit of temperature
NO
NO
NO
NO
NO
NO
ADD EMU(Optional) MOD EMU(Optional)
Lower limit of temperature Upper limit of humidity. When the humidity exceeds the upper limit, a humidity alarm is reported. Lower limit of humidity. When the humidity is lower than the lower limit, a humidity alarm is reported.
NO
NO
ADD EMU(Optional) MOD EMU(Optional)
Upper limit of extended output analog signal 1. If "Sensor Type of External Analog 1" is set to VOLTAGE, the unit of this parameter is V; if "Sensor Type of External Analog 1" is set to CURRENT, the unit of this parameter is A.
NO
NO
ADD EMU(Optional) MOD EMU(Optional)
Lower limit of extended output analog signal 1. If "Sensor Type of External Analog 1" is set to VOLTAGE, the unit of this parameter is V; if "Sensor Type of External Analog 1" is set to CURRENT, the unit of this parameter is A. NO
NO
ADD EMU(Optional) MOD EMU(Optional)
Maximum measurement range of extended analog signal 1. If "Sensor Type of External Analog 1" is set to VOLTAGE, the unit of this parameter is V; if "Sensor Type of External Analog 1" is set to CURRENT, the unit of this parameter is A.
NO
ADD EMU(Optional) MOD EMU(Optional) ADD EMU(Optional) MOD EMU(Optional)
NO
ADD EMU(Optional) MOD EMU(Optional)
Minimum measurement range of extended analog signal 1. If "Sensor Type of External Analog 1" is set to VOLTAGE, the unit of this parameter is V; if "Sensor Type of External Analog 1" is set to CURRENT, the unit of this parameter is A.
NO
NO
ADD EMU(Optional) MOD EMU(Optional)
Upper limit of extended output analog signal 2. If "Sensor Type of External Analog 2" is set to VOLTAGE, the unit of this parameter is V; if "Sensor Type of External Analog 2" is set to CURRENT, the unit of this parameter is A. NO
NO
ADD EMU(Optional) MOD EMU(Optional)
Lower limit of extended output analog signal 2. If "Sensor Type of External Analog 2" is set to VOLTAGE, the unit of this parameter is V; if "Sensor Type of External Analog 2" is set to CURRENT, the unit of this parameter is A. NO
NO
ADD EMU(Optional) MOD EMU(Optional)
Maximum measurement range of extended analog signal 2. If "Sensor Type of External Analog 2" is set to VOLTAGE, the unit of this parameter is V; if "Sensor Type of External Analog 2" is set to CURRENT, the unit of this parameter is A.
NO
NO
ADD EMU(Optional) MOD EMU(Optional)
Minimum measurement range of extended analog signal 2. If "Sensor Type of External Analog 2" is set to VOLTAGE, the unit of this parameter is V; if "Sensor Type of External Analog 2" is set to CURRENT, the unit of this parameter is A.
NO
NO
ADD EMU(Optional) MOD EMU(Optional)
Upper limit of extended output analog signal 3. If "Sensor Type of External Analog 3" is set to VOLTAGE, the unit of this parameter is V; if "Sensor Type of External Analog 3" is set to CURRENT, the unit of this parameter is A. NO
NO
ADD EMU(Optional) MOD EMU(Optional)
Lower limit of extended output analog signal 3. If "Sensor Type of External Analog 3" is set to VOLTAGE, the unit of this parameter is V; if "Sensor Type of External Analog 3" is set to CURRENT, the unit of this parameter is A. NO
NO
ADD EMU(Optional) MOD EMU(Optional)
Maximum measurement range of extended analog signal 3. If "Sensor Type of External Analog 3" is set to VOLTAGE, the unit of this parameter is V; if "Sensor Type of External Analog 3" is set to CURRENT, the unit of this parameter is A.
NO
NO
ADD EMU(Optional) MOD EMU(Optional)
Minimum measurement range of extended analog signal 3. If "Sensor Type of External Analog 3" is set to VOLTAGE, the unit of this parameter is V; if "Sensor Type of External Analog 3" is set to CURRENT, the unit of this parameter is A.
NO
NO
ADD EMU(Optional) MOD EMU(Optional)
Upper limit of extended output analog signal 4. If "Sensor Type of External Analog 4" is set to VOLTAGE, the unit of this parameter is V; if "Sensor Type of External Analog 4" is set to CURRENT, the unit of this parameter is A. NO
NO
ADD EMU(Optional) MOD EMU(Optional)
Lower limit of extended output analog signal 4. If "Sensor Type of External Analog 4" is set to VOLTAGE, the unit of this parameter is V; if "Sensor Type of External Analog 4" is set to CURRENT, the unit of this parameter is A. NO
NO
ADD EMU(Optional) MOD EMU(Optional)
Maximum measurement range of extended analog signal 4. If "Sensor Type of External Analog 4" is set to VOLTAGE, the unit of this parameter is V; if "Sensor Type of External Analog 4" is set to CURRENT, the unit of this parameter is A.
NO
NO
ADD EMU(Optional) MOD EMU(Optional)
Minimum measurement range of extended analog signal 4. If "Sensor Type of External Analog 4" is set to VOLTAGE, the unit of this parameter is V; if "Sensor Type of External Analog 4" is set to CURRENT, the unit of this parameter is A.
NO
NO
ADD EMU(Optional) MOD EMU(Optional)
Relay switch 1
NO
NO
ADD EMU(Optional) MOD EMU(Optional)
Relay switch 2
NO
NO
ADD EMU(Optional) MOD EMU(Optional)
Relay switch 3
NO
NO
ADD EMU(Optional) MOD EMU(Optional)
Relay switch 4
NO
NO
ADD EMU(Optional) MOD EMU(Optional)
Relay switch 5
NO
NO
ADD EMU(Optional) MOD EMU(Optional)
Relay switch 6
NO
NO
SET ENVALMPARA(Optional)
New name of the alarm
NO
NO
SET ENVALMPARA(Optional)
Alarm severity. One or more severities can be selected. By default, all severities are selected.
NO
NO
Network management type of the alarm. By default, all network management types are selected.
NO
NO
Number of the subrack
YES
YES
ADD ETHIP(Mandatory) MOD ETHIP(Mandatory) RMV ETHIP(Mandatory)
Indicates the slot number for running this command
YES
YES
ADD ETHIP(Mandatory) MOD ETHIP(Mandatory) RMV ETHIP(Mandatory)
Specifies Ethernet port number.
YES
YES
ADD ETHIP(Mandatory) MOD ETHIP(Mandatory) RMV ETHIP(Mandatory)
IP address index of the Ethernet port
NO
YES
ADD ETHIP(Mandatory) MOD ETHIP(Optional)
Local IP address of the Ethernet port
YES
YES
ADD ETHIP(Mandatory)
Subnet mask of the board
NO
YES
SET ENVALMPARA(Optional) ADD ETHIP(Mandatory) MOD ETHIP(Mandatory) RMV ETHIP(Mandatory)
MOD ETHIP(Optional)
Subnet mask of the ether port
NO
NO
SET ETHPORT(Mandatory)
Number of the subrack
NO
YES
SET ETHPORT(Mandatory)
Indicates the slot number for running this command
NO
YES
SET ETHPORT(Mandatory)
Board type
NO
YES
SET ETHPORT(Mandatory)
Ethernet port type
NO
YES
SET ETHPORT(Optional)
Specifies Ethernet port number.
NO
NO
SET ETHPORT(Optional)
Whether the self-negotiation mode is adopted 1. When the FG2 board is used and the port type is GE, the self-negotiation mode must be adopted. 2. If the self-negotiation mode is adopted, the FE port rate, working mode and flow control mode must be in accordance with the negotiation result. If the self-negotiation mode is not adopted, the FE port rate, working mode and flow control mode must be specified. Make sure that the specified attributes are the same as that of the peer. Otherwise, transmission failure must be incurred. 3. If the self-negotiation mode is adopted on the local system, the peer must use the selfnegotiation mode. NO
NO
SET ETHPORT(Optional)
Rate over the GE electrical port. When this parameter is set to 1000M, the GE electrical port performs negotiation at the rate of 1000 Mbit/s. If, however, the negotiation result is not 1000 Mbit/s, the negotiation fails. When this parameter is set to AUTO, the GE electrical port performs auto negotiation, and the negotiation result can be either 100 Mbit/s or 1000 Mbit/s. NO
NO
SET ETHPORT(Optional)
Specifies the Maximum Transmission Unit size.
NO
NO
SET ETHPORT(Optional)
This parameter specifies whether to send and process the flow control frame on the physical layer, or not. The setting of this parameter must be negotiated with that on the interconnected side.
NO
NO
SET ETHPORT(Optional)
Ratio of the minimum guarantee bandwidth of the OAM stream to the port bandwidth
NO
NO
SET ETHPORT(Optional)
Port flow control switch
NO
NO
SET ETHPORT(Mandatory)
Flow control parameter index
NO
YES
SET ETHPORT(Optional)
Error-frame detect switch
NO
NO
SET ETHPORT(Optional)
Error-frame alarm threshold
NO
NO
SET ETHPORT(Optional)
Received broadcast packets alarm threshold. When a network storm occurs on the network, the quality of the services carried on the Ethernet port will be deteriorated, and the services may even be disrupted if the network storm is serious. This alarm will be generated when the number of broadcast packets received over an Ethernet port in a second is greater than the specified alarm threshold for 30 consecutive seconds. NO
NO
SET ETHPORT(Optional)
Received broadcast packets alarm clear threshold. It is automatically cleared when the number of broadcast packets received over the Ethernet port in a second is smaller than the specified alarm clear threshold for 30 consecutive seconds.
NO
NO
SET ETHPORT(Optional)
CFM protocol version. Value V7 indicates that the 1AG protocol of draft 7 is used. Value V8 indicates that the 1AG protocol of the standard version is used.
NO
NO
ADD ETHREDPORT(Mandatory) RMV ETHREDPORT(Mandatory)
Number of the subrack
YES
YES
ADD ETHREDPORT(Mandatory) RMV ETHREDPORT(Mandatory)
Slot number for running this command
YES
YES
ADD ETHREDPORT(Mandatory) RMV ETHREDPORT(Mandatory)
Specifies Ethernet port number.
YES
YES
ADD ETHTRK(Mandatory) RMV ETHTRK(Mandatory)
The subrack number for running this command
YES
YES
ADD ETHTRK(Mandatory) RMV ETHTRK(Mandatory)
Indicates the slot number for running this command
YES
YES
ADD ETHTRK(Mandatory) RMV ETHTRK(Mandatory)
Aggregation group number
YES
YES
ADD ETHTRK(Mandatory)
Aggregation mode. When this parameter is set to static aggregation, the LACP protocol is activated; otherwise, the LACP protocol is deactivated.
NO
YES
ADD ETHTRK(Optional)
Ratio of the minimum guarantee bandwidth of the OAM stream to the port bandwidth
NO
NO
ADD ETHTRK(Optional)
Port flow control switch
NO
NO
ADD ETHTRK(Optional)
Flow control parameter index
NO
NO
ADD ETHTRK(Optional)
CFM protocol version. Value V7 indicates that the 1AG protocol of draft 7 is used. Value V8 indicates that the 1AG protocol of the standard version is used.
NO
NO
ADD ETHTRKIP(Mandatory) RMV ETHTRKIP(Mandatory) MOD ETHTRKIP(Mandatory) The subrack number for running this command
YES
YES
ADD ETHTRKIP(Mandatory) RMV ETHTRKIP(Mandatory) Indicates the slot number for running this MOD ETHTRKIP(Mandatory) command
YES
YES
ADD ETHTRKIP(Mandatory) RMV ETHTRKIP(Mandatory) MOD ETHTRKIP(Mandatory) Aggregation group number
YES
YES
ADD ETHTRKIP(Mandatory) RMV ETHTRKIP(Mandatory) MOD ETHTRKIP(Mandatory) IP address index of the aggregation group
NO
YES
ADD ETHTRKIP(Mandatory) MOD ETHTRKIP(Optional) Local IP address of the aggregation group
YES
YES
ADD ETHTRKIP(Mandatory) MOD ETHTRKIP(Optional) Subnet mask
NO
YES
ADD ETHTRKLNK(Mandatory) RMV ETHTRKLNK(Mandatory)
The subrack number for running this command
YES
YES
ADD ETHTRKLNK(Mandatory)
Indicates the slot number for running this command
NO
YES
ADD ETHTRKLNK(Mandatory)
Aggregation group number
NO
YES
ADD ETHTRKLNK(Mandatory) RMV ETHTRKLNK(Mandatory)
Slot number of the aggregation member
YES
YES
Port number of the aggregation member
YES
YES
ID of the BSC that controls the external 2G neighbor cell
YES
YES
Unique name of the external BSC
NO
YES
ADD EXTBSC(Mandatory) MOD EXTBSC(Optional)
DPC of the external BSC, which is used for interBSC communication. This parameter can be represented in decimal, hexadecimal, and binary. By default, this parameter is represented in decimal. To represent this parameter in hexadecimal, precede this parameter value with H'. To represent this parameter in binary, precede this parameter value with B'. NO
YES
MOD EXTBSC(Mandatory) RMV EXTBSC(Mandatory)
Type of an index.
NO
YES
ADD EXTNCELL(Mandatory) Index type.
NO
YES
ADD EXTNCELL(Mandatory) RMV EXTNCELL(Mandatory) Index of the cell in the BSC.
YES
YES
ADD ETHTRKLNK(Mandatory) RMV ETHTRKLNK(Mandatory) ADD EXTBSC(Mandatory) MOD EXTBSC(Mandatory) RMV EXTBSC(Mandatory) ADD EXTBSC(Mandatory) MOD EXTBSC(Mandatory) RMV EXTBSC(Mandatory)
ADD EXTNCELL(Mandatory) Name of the cell in the BSC.
NO
YES
The destination signaling point (DSP) of the ADD EXTNCELL(Mandatory) adjacent BSC must be an Iur-g DSP.
NO
YES
ADD EXTNCELL(Mandatory) RMV EXTNCELL(Mandatory) Index of the cell in the adjacent BSC.
YES
YES
ADD EXTNCELL(Mandatory) Name of the cell in the adjacent BSC.
NO
YES
SET FANSPEED(Mandatory) Type of the fan
YES
YES
SET FANSPEED(Mandatory) Number of the subrack
YES
YES
SET FANSPEED(Mandatory) Fan adjustment mode
NO
YES
SET FANSPEED(Optional)
NO
NO
YES
YES
NO
NO
Duty ratio-based speed adjustment
Classes of boards classified according to SET FCCPUTHD(Mandatory) function modules
SET FCCPUTHD(Optional)
Number of CPU usage samples involved in the calculation of the average CPU usage in the sliding window Number of CPU usage sampling times for fast judgment. The value of this parameter must be of half size of "Filter window" or smaller.
NO
NO
SET FCCPUTHD(Optional)
Critical threshold of CPU usage. When the CPU usage in "Fast judgement window" reaches or exceeds the threshold, all active flow control functions are implemented. Otherwise, the corresponding flow control mechanism is used. NO
NO
SET FCCPUTHD(Optional)
Printing control threshold. If the CPU usage of sliding windows reaches or exceeds the threshold, printing flow control is triggered on the serial port. NO
NO
SET FCCPUTHD(Optional)
SET FCCPUTHD(Optional)
Printing control threshold. If the CPU usage of sliding windows is lower than the threshold, printing flow control on the serial port is stopped. NO
NO
SET FCCPUTHD(Optional)
CPU usage threshold for debugging tracing flow control. When the average CPU usage of sliding windows reaches or exceeds the threshold, debugging tracing flow control is triggered. NO
NO
SET FCCPUTHD(Optional)
CPU usage threshold for recovery from debugging tracing flow control. When the average CPU usage of smooth windows is lower than the threshold, debugging tracing flow control is stopped. NO
NO
SET FCCPUTHD(Optional)
CPU usage threshold for performance monitoring. When the average CPU usage of sliding windows reaches or exceeds the threshold, performance monitoring is triggered.
NO
NO
SET FCCPUTHD(Optional)
CPU usage threshold for recovery from performance monitoring. When the average CPU usage of sliding windows is lower than the threshold, performance monitoring is stopped.
NO
NO
SET FCCPUTHD(Optional)
CPU usage threshold for log flow control. When the average CPU usage of sliding windows reaches or exceeds the threshold, log flow control is triggered. NO
NO
SET FCCPUTHD(Optional)
CPU usage threshold for recovery from log flow control. When the average CPU usage of sliding windows is lower than the threshold, log flow control is triggered. NO
NO
SET FCCPUTHD(Optional)
CPU usage threshold for low priority service flow control. When the average CPU usage of sliding windows reaches or exceeds the threshold, low priority service flow control is triggered. NO
NO
SET FCCPUTHD(Optional)
CPU usage threshold for recovery from flow control over low priority service. When the average CPU usage of sliding windows is lower than the threshold, low priority service flow control is stopped.
NO
NO
SET FCCPUTHD(Optional)
CPU usage threshold for normal priority service flow control. When the average CPU usage of sliding windows reaches or exceeds the threshold, normal priority service flow control is triggered.
NO
NO
SET FCCPUTHD(Optional)
CPU usage threshold for recovery from flow control over normal priority service. When the average CPU usage of sliding windows is lower than the threshold, normal priority service flow control is stopped.
NO
NO
SET FCCPUTHD(Optional)
CPU usage threshold for high priority service flow control. When the average CPU usage of sliding windows reaches or exceeds the threshold, high priority service flow control is triggered.
NO
NO
SET FCCPUTHD(Optional)
CPU usage threshold for recovery from flow control over high priority service. When the average CPU usage of sliding windows is lower than the threshold, high priority service flow control is stopped.
NO
NO
SET FCMSGQTHD(Mandatory)
Classes of boards classified according to function modules
YES
YES
NO
NO
Critical threshold of packet queue usage. When the packet queue usage reaches or exceeds the threshold, all active flow control functions are SET FCMSGQTHD(Optional) implemented. NO
NO
Printing control threshold. When the packet queue usage of sliding windows reaches or exceeds the threshold, printing flow control is SET FCMSGQTHD(Optional) triggered on the serial port.
Number of CPU usage samples involved in the calculation of the average CPU usage in the SET FCMSGQTHD(Optional) sliding window
NO
NO
Printing control threshold. When the packet queue usage of sliding windows is lower than the threshold, printing flow control on the serial port SET FCMSGQTHD(Optional) is stopped. NO
NO
Packet queue usage threshold for debugging tracing flow control. When the average packet queue usage of sliding windows reaches or exceeds the threshold, debugging tracing flow SET FCMSGQTHD(Optional) control is triggered.
NO
NO
Packet queue usage threshold for recovery from debugging tracing flow control. When the average packet queue usage of smooth windows is lower than the threshold, debugging tracing SET FCMSGQTHD(Optional) flow control is stopped. NO
NO
Packet queue usage threshold for performance monitoring. When the average packet queue usage of sliding windows reaches or exceeds the threshold, performance monitoring is SET FCMSGQTHD(Optional) triggered.
NO
NO
Packet queue usage threshold for recovery from performance monitoring. When the packet queue usage of sliding windows is lower than the SET FCMSGQTHD(Optional) threshold, performance monitoring is stopped. NO
NO
Packet queue usage threshold for log flow control. When the average packet queue usage of sliding windows reaches or exceeds the SET FCMSGQTHD(Optional) threshold, log flow control is triggered.
NO
NO
Packet queue usage threshold for recovery from log flow control. When the average packet queue usage of smooth windows is lower than the SET FCMSGQTHD(Optional) threshold, log flow control is triggered. NO
NO
SET FCSW(Mandatory)
Classes of boards classified according to function modules
SET FCSW(Mandatory)
Flow control switch. Other switches are valid only when "Flow control switch" is "ON". NO
YES
SET FCSW(Optional)
Whether to control the printing flow on the serial port NO
NO
SET FCSW(Optional)
Whether to control the debugging tracing flow
NO
NO
SET FCSW(Optional)
Whether to monitor the RRM performance
NO
NO
SET FCSW(Optional)
Whether to control the log flow
NO
NO
SET FHO(Mandatory)
Object index types used when commands are executed
NO
YES
SET FHO(Mandatory)
Index type of a cell when this command is executed
NO
YES
YES
YES
SET FHO(Mandatory)
Index of a cell, uniquely identifying a cell in a BSC.
NO
YES
SET FHO(Mandatory)
Name of a cell. This parameter uniquely identifies a cell in a BSC. Cell names cannot contain the following invalid characters: ,;="' In addition, cell names cannot contain two or more consecutive %, two or more consecutive spaces, or more than two consecutive +.
NO
YES
SET FHO(Mandatory)
Index of a TRX, uniquely identifying a TRX in a BSC.
NO
YES
SET FHO(Mandatory)
Number of the channel in the TRX
NO
YES
SET FHO(Mandatory)
Type of handover in terms of connection transfer between channels or between cells NO
YES
SET FHO(Mandatory)
Type of indexing the target cell
NO
YES
SET FHO(Mandatory)
YES
SET FHO(Mandatory)
Unique name of the target cell NO Mobile country code. This parameter identifies the country where a mobile subscriber is located, for example, the Chinese MCC is 460. NO Mobile network code. This parameter identifies the public land mobile network (PLMN) to which a mobile subscriber belongs. NO
SET FHO(Mandatory)
Location area code (LAC). MS can freely move in the local location area with no need of location update. Reasonable local allocation can effectively lighten the signaling load and improve the call completion rate. Can be input in hexadecimal format. The hexadecimal format is H'****, for example, H'1214. NO
SET FHO(Mandatory)
YES
YES
YES
SET FHO(Mandatory)
Identity code of a cell, A cell is a wireless coverage area identified by a base station identity code and a global cell identification. Can be input in hexadecimal format. The hexadecimal format is H'****, for example, H'1214.
NO
YES
SET FTPCLTPORT(Mandatory)
Start data port on the FTP client.
NO
YES
SET FTPCLTPORT(Mandatory)
End data port on the FTP client.
NO
YES
MOD FTPPWD(Mandatory)
Password.
NO
YES
MOD FTPPWD(Mandatory)
Confirm password. The confirm password is required to ensure that a correct password is entered.
NO
YES
SET FTPSCLT(Optional)
Encryption mode supported when the NE serves as the FTP server. AUTO: indicating that the FTP client selects the encryption mode. PLAINTEXT: indicating that the plain text mode is used forcibly. ENCRYPTED: indicating that the encrypted mode is used forcibly. NO
Whether the FTP client supports the state SET FTPSCLT(Optional) firewall ADD FTPSCLTDPORT(Mandatory ) MOD This port is provided by the FTP server to be FTPSCLTDPORT(Mandatory visited by the FTP client.
NO
NO
NO
NO
YES
SET FTPSRVPORT(Mandatory)
Start data port on the FTP server in passive mode.
NO
YES
SET FTPSRVPORT(Mandatory)
End data port on the FTP server in passive mode.
NO
YES
SET FTPSSRV(Optional)
Encryption mode used when the NE serves as the FTP client AUTO: indicating that the FTP client automatically selects the encryption mode PLAINTEXT: indicating that the plain text mode is used forcibly. ENCRYPTED: indicating that the encrypted mode is used forcibly.
NO
NO
SET FTPSSRV(Mandatory)
Whether to use the customized port DEFAULTPORT: indicating that the FTP server uses the default port 21 as a command port and port 20 as a data port to provide FTP services CUSTOMPORT: indicating that the FTP server uses the customized port to provide FTP services NO
YES
SET FTPSSRV(Mandatory)
Number of the command listening port of the server. You should not use any port number occupied by other applications.
NO
YES
SET FTPSSRV(Mandatory)
Number of the data port of the server in active mode. You should not use any port number occupied by other applications.
NO
YES
NO
YES
A cell Index must be unique in one BSC . It is used to uniquely identify a cell.
YES
YES
Name of a cell
NO
YES
Uniform number of a cell index within a BSC , which uniquely identifies a cell.
YES
YES
Name of a cell
NO
YES
ADD G2GNCELL(Mandatory) RMV G2GNCELL(Mandatory) Mobile country code (MCC) of the source cell
NO
YES
ADD G2GNCELL(Mandatory) RMV G2GNCELL(Mandatory) Mobile network code (MNC) of the source cell
NO
YES
ADD G2GNCELL(Mandatory) RMV G2GNCELL(Mandatory) Local area code (LAC) of the source cell
NO
YES
ADD G2GNCELL(Mandatory) RMV G2GNCELL(Mandatory) Source cell ID
NO
YES
ADD G2GNCELL(Mandatory) Mobile Country Code (MCC) of a neighboring RMV G2GNCELL(Mandatory) cell
NO
YES
ADD G2GNCELL(Mandatory) Mobile Network Code (MNC) of a neighboring RMV G2GNCELL(Mandatory) cell
NO
YES
ADD G2GNCELL(Mandatory) RMV G2GNCELL(Mandatory) Index type ADD G2GNCELL(Mandatory) MOD G2GNCELL(Mandatory) RMV G2GNCELL(Mandatory) G2GNCELL(Mandatory) ADD MOD G2GNCELL(Mandatory) RMV G2GNCELL(Mandatory) G2GNCELL(Mandatory) ADD MOD G2GNCELL(Mandatory) RMV G2GNCELL(Mandatory) ADD G2GNCELL(Mandatory) MOD G2GNCELL(Mandatory) RMV G2GNCELL(Mandatory)
ADD G2GNCELL(Mandatory) RMV G2GNCELL(Mandatory) Local Area Code (LAC) of a neighboring cell
NO
YES
ADD G2GNCELL(Mandatory) RMV G2GNCELL(Mandatory) Cell ID of a neighboring cell
NO
YES
ADD G2GNCELL(Optional) MOD G2GNCELL(Optional)
The parameter indicates whether the neighboring cell is a handover neighboring cell, an IBCA neighboring cell, or a handover and IBCA neighboring cell of the serving cell. If the parameter is set to HANDOVERNCELL(Handover Neighboring Cell), the neighboring cell is the handover neighboring cell but not the IBCA neighboring cell of the serving cell. If the parameter is set to IBCANCELL(IBCA Neighboring Cell), the neighboring cell is the IBCA neighboring cell but not the handover neighboring cell of the serving cell. If the parameter is set to HANDOVERANDIBCANCELL(Handover and IBCA Neighboring Cell), the neighboring cell is the handover neighboring cell and IBCA neighboring cell of the serving cell. IBCA neighboring cells are some neighboring cells of a serving cell with its IBCA algorithm enabled. There is co-channel or adjacent-channel interference between the IBCA neighboring cells and the serving cell. Handover neighboring cells are candidate target cells of the serving cell during a handover. NO
NO
ADD G2GNCELL(Optional) MOD G2GNCELL(Optional)
Whether the currently used handover algorithm in the source cell is HO Algorithm I or HO Algorithm II
NO
NO
ADD G2GNCELL(Optional) MOD G2GNCELL(Optional)
Hysteresis value during the handovers between cells, This value is used to suppress ping-pong handovers between cells.
NO
NO
ADD G2GNCELL(Optional) MOD G2GNCELL(Optional)
Minimum receive level offset. An MS can be handed over to a neighboring cell only when the downlink level of the neighboring cell is greater than the sum of "Min DL level on candidate Cell" and the value of this parameter. NO
NO
ADD G2GNCELL(Optional) MOD G2GNCELL(Optional)
PBGT handovers to a neighboring cell are allowed only when the downlink level difference between the neighboring cell and the serving cell is larger than this parameter. When the value of this parameter is smaller than 64, handovers to a neighboring cell with a lower level than the current serving cell are allowed. NO
NO
ADD G2GNCELL(Optional) MOD G2GNCELL(Optional)
If ("downlink level of the neighbor cell after filtering" - "downlink level of the serving cell (after power control compensation)") > (("Inter-cell HO Hysteresis" - 64) - "BQ HO Margin" + 64), the BQ handover to the neighbor cell is triggered. NO
NO
ADD G2GNCELL(Optional) MOD G2GNCELL(Optional)
Whether the cell is a chain neighboring cell. The parameter is used in the quick handover algorithm. Quick handover aims to increase the handover success rate of an MS moving at a high speed and to ensure the call continuity and low call drop rate. Quick handover applies to the scenario where an MS moves fast along an urban backbone road, a selected route, or a highspeed railroad. The target cell must be a chain neighboring cell. NO
NO
ADD G2GNCELL(Optional) MOD G2GNCELL(Optional)
Hysteresis value during the handovers between cells on different layers or of different priorities. This value is used to suppress inter-layer pingpong handovers.
NO
NO
ADD G2GNCELL(Optional) MOD G2GNCELL(Optional)
Maximum signal level difference between the neighbor cell and the serving cell for triggering directed retry
NO
NO
ADD G2GNCELL(Optional) MOD G2GNCELL(Optional)
This parameter indicates the geographical relationship between the neighboring cell and the serving cell. In the BSC, if direction A is selected, then the reverse direction is B. NO
NO
ADD G2GNCELL(Optional) MOD G2GNCELL(Optional)
According to the P/N rule, if a neighbor cell meets the conditions for selecting the neighbor cell for edge handover in P of N measurement reports, the edge handover to the neighbor cell is triggered. This parameter specifies the number N. NO
NO
ADD G2GNCELL(Optional) MOD G2GNCELL(Optional)
According to the P/N rule, if a neighbor cell meets the conditions for selecting the neighbor cell for edge handover in P of N measurement reports, the edge handover to the neighbor cell is triggered. This parameter specifies the number P. NO
NO
ADD G2GNCELL(Optional) MOD G2GNCELL(Optional)
The triggering of inter-layer handovers must meet the P/N criteria, that is, when the condition for inter-layer handovers is met for a consecutive P seconds during N seconds, an inter-layer handover is triggered. This parameter corresponds to the N in the P/N criteria. NO
NO
ADD G2GNCELL(Optional) MOD G2GNCELL(Optional)
The triggering of inter-layer handovers must meet the P/N criteria, that is, when the condition for inter-layer handovers is met for a consecutive P seconds during N seconds, an inter-layer handover is triggered. This parameter corresponds to the P in the P/N criteria. NO
NO
ADD G2GNCELL(Optional) MOD G2GNCELL(Optional)
The triggering of PBGT handovers must meet the P/N criteria, that is, when the condition for PBGT handovers is met for a consecutive P seconds during N seconds, a PBGT handover is triggered. This parameter corresponds to the N in the P/N criteria. NO
NO
ADD G2GNCELL(Optional) MOD G2GNCELL(Optional)
The triggering of PBGT handovers must meet the P/N criteria, that is, when the condition for PBGT handovers is met for a consecutive P seconds during N seconds, a PBGT handover is triggered. This parameter corresponds to the P in the P/N criteria. NO
NO
ADD G2GNCELL(Optional) MOD G2GNCELL(Optional)
According to the P/N rule, if the conditions for the handover to a better cell due to interference are met for P seconds within N seconds, the handover is triggered. This parameter specifies the number N.
NO
NO
ADD G2GNCELL(Optional) MOD G2GNCELL(Optional)
According to the P/N rule, if the conditions for the handover to a better cell due to interference are met for P seconds within N seconds, the handover is triggered. This parameter specifies the number P.
NO
NO
ADD G2GNCELL(Optional) MOD G2GNCELL(Optional)
According to the P/N rule, if the conditions for fast handover are met in P of N measurement reports, the handover is triggered. This parameter specifies the number N.
NO
NO
ADD G2GNCELL(Optional) MOD G2GNCELL(Optional)
According to the P/N rule, if the conditions for fast handover are met in P of N measurement reports, the handover is triggered. This parameter specifies the number P.
NO
NO
ADD G2GNCELL(Optional) MOD G2GNCELL(Optional)
According to the P/N rule, if the conditions for the handover to a different micro cell due to fast movement are met in P of N measurement reports, the handover is triggered. This parameter specifies the number N. NO
NO
ADD G2GNCELL(Optional) MOD G2GNCELL(Optional)
According to the P/N rule, if the conditions for the handover to a different micro cell due to fast movement are met in P of N measurement reports, the handover is triggered. This parameter specifies the number P. NO
NO
ADD G2GNCELL(Optional) MOD G2GNCELL(Optional)
According to the P/N rule, if the conditions for emergency BQ handover are met in P of N measurement reports, the handover is triggered. This parameter specifies the number N. NO
NO
ADD G2GNCELL(Optional) MOD G2GNCELL(Optional)
According to the P/N rule, if the conditions for emergency BQ handover are met in P of N measurement reports, the handover is triggered. This parameter specifies the number P. NO
NO
ADD G2GNCELL(Optional) MOD G2GNCELL(Optional)
The P/N criterion must be met for triggering a TA handover. That is, the TA handover can be triggered only if P measurement reports among N measurement reports meet the triggering conditions. This parameter corresponds to N in the P/N criterion. NO
NO
ADD G2GNCELL(Optional) MOD G2GNCELL(Optional)
The P/N criterion must be met for triggering a TA handover. That is, the TA handover can be triggered only if P measurement reports among N measurement reports meet the triggering conditions. This parameter corresponds to P in the P/N criterion. NO
NO
ADD G2GNCELL(Optional) MOD G2GNCELL(Optional)
The P/N criterion must be met for triggering a UL BQ handover. That is, the UL BQ handover can be triggered only if P measurement reports among N measurement reports meet the triggering conditions. This parameter corresponds to N in the P/N criterion. NO
NO
ADD G2GNCELL(Optional) MOD G2GNCELL(Optional)
The P/N criterion must be met for triggering a UL BQ handover. That is, the UL BQ handover can be triggered only if P measurement reports among N measurement reports meet the triggering conditions. This parameter corresponds to P in the P/N criterion. NO
NO
ADD G2GNCELL(Optional) MOD G2GNCELL(Optional)
Whether to measure the IBCA neighbor cells of the serving cell dynamically. If the dynamic measurement is enabled, when a call uses a channel, the BSC sends the SACCH Modify message to modify the frequencies in the BA2 table in System Information 5, 5bis, and 5ter to the frequencies at which the IBCA neighbor cells operate. Thus, the call measures and reports only these frequencies to the BSC. NO
NO
ADD G2GNCELL(Optional) MOD G2GNCELL(Optional)
Estimates the receive level of the unmeasured IBCA neighboring cells. When a consecutive "IBCA Non Measurement Ncell Stat. Num" measurement reports cover less than six neighboring cells (or the number of the reported neighboring cells is smaller than that of the actually configured neighboring cells), this parameter is used to estimate the receive level of the unmeasured IBCA neighboring cells. The estimated value is "IBCA Pathloss Est of Non. MR Ncell". Otherwise, the signal strength of the unmeasured IBCA neighboring cells is the signal strength of the measured neighboring cells (including non-IBCA neighboring cells) subtracted by "IBCA RxLev Offset". NO
NO
ADD G2GNCELL(Optional) MOD G2GNCELL(Optional)
If the path loss in the serving cell minus that in a handover candidate cell is not smaller than the parameter value, the handover to the candidate cell is allowed. The parameter loosens the requirement of the PBGT handover threshold when the load of the serving cell reaches a certain level. Some traffic that could not be handed over to a neighboring cell through the PBGT handover can be handed over now. The value "0" indicates that the enhanced load handover to the neighboring cell is not allowed. NO
NO
ADD G2GNCELL(Optional) MOD G2GNCELL(Optional)
Priority of the neighboring 2G cell. Value 0 indicates the lowest priority, and value 7 indicates the highest priority. Value 255 is invalid.
MOD G2GNCELL(Mandatory) ADD G3GNCELL(Mandatory) Type of an index. MOD G3GNCELL(Mandatory) RMV G3GNCELL(Mandatory) Type of an index.
NO
NO
NO
YES
NO
YES
ADD G3GNCELL(Mandatory) MOD G3GNCELL(Mandatory) RMV G3GNCELL(Mandatory) G3GNCELL(Mandatory) ADD MOD G3GNCELL(Mandatory) RMV G3GNCELL(Mandatory)
A source cell index must be unique in one BSC. It is used to uniquely identify a source cell. The value of this parameter ranges from 0 to 2047. YES
YES
Name of a source cell
NO
YES
ADD G3GNCELL(Mandatory) MOD G3GNCELL(Mandatory) RMV G3GNCELL(Mandatory) G3GNCELL(Mandatory) ADD MOD G3GNCELL(Mandatory) RMV G3GNCELL(Mandatory)
Uniform number of a neighboring cell index within a BSC, which uniquely identifies a cell. The value range of the index of a 3G external cell is 5048 to 8047.
YES
YES
Name of a neighboring cell
NO
YES
ADD G3GNCELL(Optional) MOD G3GNCELL(Optional)
This parameter adjusts "Min RSCP threshold" to enable the selection of 3G candidate cells based on cell priorities NO
NO
ADD G3GNCELL(Optional) MOD G3GNCELL(Optional)
As a performance counter for 3G cells, Ec/No indicates the ratio of the energy per received chip to the spectral noise power density. If the Ec/No of a 3G neighbor cell is greater than "HOECNOTH3G" plus this parameter, the neighbor cell is listed in the candidate cell queue. NO
NO
ADD G3GNCELL(Optional) MOD G3GNCELL(Optional)
According to the P/N rule, if the conditions for the handover to a better 3G cell are met in P of N measurement reports, the handover is triggered. This parameter specifies the number N.
NO
NO
ADD G3GNCELL(Optional) MOD G3GNCELL(Optional)
According to the P/N rule, if the conditions for the handover to a better 3G cell are met for P seconds within N seconds, the handover is triggered. This parameter specifies the number P.
NO
NO
ADD G3GNCELL(Optional) MOD G3GNCELL(Optional)
According to the P/N rule, if the conditions for the handover to a better 3G cell are met in P of N measurement reports, the handover is triggered. This parameter specifies the number N.
NO
NO
ADD G3GNCELL(Optional) MOD G3GNCELL(Optional)
According to the P/N rule, if the conditions for the handover to a better 3G cell are met for P seconds within N seconds, the handover is triggered. This parameter specifies the number P.
NO
NO
ADD G3GNCELL(Optional) MOD G3GNCELL(Optional)
Priority of the neighboring 3G cell. Value 0 indicates the lowest priority, and value 7 indicates the highest priority. Value 255 is invalid.
SET GBSCREDGRP(Mandatory)
Index of the BSC Node Redundancy Group. It identifies a BSC redundancy group. The BSC node redundancy is a function through which two BSCs form a redundancy group. The two BSCs in a redundancy group work in 1+1 load sharing mode. When one BSC in a redundancy group is faulty or all the signaling links on the A interface are faulty, the other BSC in this group takes over the voice and data services. In this manner, the reliability and robustness of the network are improved, the service disruption time due to BSC failure is reduced, and the quality of service (QoS) is improved. YES
YES
SET GBSCREDGRP(Optional)
Name of a BSC node redundancy group. Group names cannot contain the following invalid characters: ,;="' In addition, group names cannot contain two or more consecutive %, two or more consecutive spaces, or more than two consecutive +. NO
NO
SET GBSCREDGRP(Optional)
Time interval for sending a handshake message between BSCs. The parameter checks whether the communication among BSCs in a redundancy group is normal. NO
NO
SET GBSCREDGRP(Optional)
If no handshake message is received from the peer within the delay, the master service is activated. A master service object provides services at the local BSC and its configuration data is backed up at the peer BSC. A master service object provides services at the peer BSC only when the local BSC is faulty or when all the signaling links on the A interface of the local BSC are faulty. NO
NO
NO
NO
SET GBSCREDGRP(Optional)
If no handshake message is received from the peer within the delay, the slave service is activated. A slave service object provides services at the peer BSC and its configuration data is backed up at the local BSC. A slave service object provides services at the local BSC only when the peer BSC is faulty or when all the signaling links on the A interface of the peer BSC are faulty. NO
NO
SET GBSCREDGRP(Optional)
Time delay in the detection of core network interface failure. Within the preset value of this parameter, the BSC continuously detects core network interface failures and then releases the management right of service objects.
NO
NO
SET GBSCREDGRP(Optional)
Policy of the BSC for judging whether the interface status of the core network is normal. If the value is NONE, the BSC does not change the service management right. If the value is AINTFBLOCK, the BSC releases the service management right when detecting disconnection at the A interface. NO
NO
SET GBSCREDGRP(Mandatory)
ID of the local BSC in the BSC node redundancy group. NO
YES
SET GBSCREDGRP(Mandatory)
ID of the peer BSC in the BSC node redundancy group. NO
YES
ADD GCBSADDR(Mandatory) RMV GCBSADDR(Mandatory) MOD GCBSADDR(Mandatory)
Uniquely identifying a cell broadcast center (CBC)
YES
YES
Indicates the set to which the operator index belongs. Each telecom operator is expressed through the sixteen bits of the operator index. When the bit is set to 1, it indicates that the operator share this CBC. When the bit is set to 0, it indicates that the operator does not share this CBC.
NO
YES
Subrack number. Subrack number is used to uniquely identify a subrack. GSM services are mainly carried on the XPUa, XPUb, XPUi, and ADD DPU boards. You can specify the subrack GCBSADDR(Mandatory) number to query the information about the MOD GCBSADDR(Optional) specific board.
NO
YES
ADD GCBSADDR(Mandatory) MOD GCBSADDR(Mandatory)
Slot number. Subrack number and slot number uniquely identify a board. GSM services are ADD mainly carried on the XPUa, XPUb, XPUi, and GCBSADDR(Mandatory) DPU boards. You can specify the slot number to MOD GCBSADDR(Optional) query the information about the specific board. NO ADD Number of a CPU on the XPU board. The CPU GCBSADDR(Mandatory) number ranges from 0 to 3 on the XPUa board MOD GCBSADDR(Optional) and from 0 to 7 on the XPUb board. NO
YES
YES
IP address of the BSC. If the connection mode of the BSC and the CBC is to lead cables out of the PIU, the value of this parameter must be the same as the preset IP address of the PIU port. If the connection mode is to lead cables out of ADD the XPU panel, the value of this parameter must GCBSADDR(Mandatory) be the same as the preset IP address of the MOD GCBSADDR(Optional) XPU panel. NO
YES
ADD GCBSADDR(Mandatory) Port number used for the communication MOD GCBSADDR(Optional) between the BSC and the CBC
NO
YES
Gateway IP address of the BSC. When the BSC ADD provides the function of simple cell broadcast, GCBSADDR(Mandatory) the BSC sends cell broadcast messages through MOD GCBSADDR(Optional) this IP address defined by this parameter. NO
YES
ADD GCBSADDR(Mandatory) MOD GCBSADDR(Optional) IP address of a CBC
NO
YES
ADD GCBSADDR(Mandatory) MOD GCBSADDR(Optional) Subnet mask of the CBC
NO
YES
ADD GCBSADDR(Mandatory) Port number at the CBC side in the MOD GCBSADDR(Optional) communication with the BSC
NO
YES
Whether the handshake mechanism is enabled at the Cb interface. Currently, the BSC and the CBC communications through the TCP/IP protocol. Thus, the BSC may not detect communication link disconnection in some cases. The handshake mechanism is used for ADD GCBSADDR(Optional) checking whether a communication link is MOD GCBSADDR(Optional) normal.
NO
NO
CBC interface parameter, whose setting should be adjusted according to the actual situations. The value of this parameter must be translated into binary digits. The following describes each bit of the value: Bit 0: phase flag. The value 0 indicates phase II+; the value 1 indicates phase II. Bit 1: message type flag. The value 0 indicates little-endian; the value 1 indicates big-endian. Bit 2: whether to carry the number of cells in the cell-list information element. The value 0 indicates that the number of cells is not carried in the cell list information element; the value 1 indicates that the number of cells is carried in the cell list information element. Bit 3: whether to carry a recovery indication. The value 0 indicates the recovery indication is not carried in the restart-indication message; the value 1 indicates that the recovery indication is carried in the restart-indication message. Bit 4: whether the bsc supports repetitive message references. The value 0 indicates that the bsc supports repetitive message references; the value 1 indicates that the bsc does not support repetitive message references. Bit 5: content of the recovery indication in the restart-indication message during the reset procedure. The value 0 indicates that the data is ADD GCBSADDR(Optional) lost; the value 1 indicates that the data is MOD GCBSADDR(Optional) available. NO MOD GCELL(Mandatory) RMV GCELL(Mandatory) MOD GCELL(Mandatory) RMV GCELL(Mandatory) ADD GCELL(Mandatory)
NO
Type of an index.
NO
YES
Index of a cell, uniquely identifying a cell in a BSC.
NO
YES
MOD GCELL(Mandatory) RMV GCELL(Mandatory) ADD GCELL(Mandatory)
Name of a cell. This parameter uniquely identifies a cell in a BSC. Cell names cannot contain the following invalid characters: ,;="' In addition, cell names cannot contain two or more consecutive %, two or more consecutive spaces, or more than two consecutive +.
NO
YES
MOD GCELL(Optional)
Modified name of the cell
NO
NO
MOD GCELL(Optional) ADD GCELL(Mandatory)
This parameter specifies the frequency band of cells. Each cell can be allocated frequencies of only one frequency band. GSM900_DCS1800: The cell supports GSM900 and DCS1800 frequency bands. GSM850_1800: The cell supports GSM850 and DCS1800 frequency bands. GSM850_1900: The cell supports GSM850 and PCS1900 frequency bands. NO Mobile country code. This parameter identifies the country where a mobile subscriber is located, for example, the Chinese MCC is 460. NO Mobile network code. This parameter identifies the public land mobile network (PLMN) to which a mobile subscriber belongs. NO
MOD GCELL(Optional) ADD GCELL(Mandatory)
Location area code (LAC). MS can freely move in the local location area with no need of location update. Reasonable local allocation can effectively lighten the signaling load and improve the call completion rate. Can be input in hexadecimal format. The hexadecimal format is H'****, for example, H'1214. NO
NO
MOD GCELL(Optional) ADD GCELL(Mandatory)
Identity code of a cell, A cell is a wireless coverage area identified by a base station identity code and a global cell identification. Can be input in hexadecimal format. The hexadecimal format is H'****, for example, H'1214.
NO
NO
MOD GCELL(Optional) ADD GCELL(Optional)
Network color code that is provided by the telecom operator. The NCC is used to identify networks from area to area. The NCC is unique nationwide. The BCC and the NCC form the BSIC.
NO
NO
MOD GCELL(Optional)
Base station color code (BCC) of a cell, provided by the network planning department. It is used for differentiating the neighboring cells using the same BCCH frequency. A BCC and a network color code (NCC) compose a base station identity code (BSIC). NO
NO
MOD GCELL(Optional) ADD GCELL(Optional)
Whether a cell is an extension cell. A double-timeslot extension cell regards an additional TDMA frame as access delay extension. In theory, the supported TA value is 219, that is, a time delay of about 120 kilometers.
NO
MOD GCELL(Optional) MOD GCELL(Optional) ADD GCELL(Mandatory)
NO
NO
NO
NO
MOD GCELL(Optional) ADD GCELL(Optional)
Whether a cell is a normal cell, concentric cell, or enhanced dual band network cell. In a concentric cell, the coverage areas of different TRXs form concentric circles of different radiuses. Owing to different coverage areas of the overlaid and underlaid parts, the two parts can be logically regarded as two cells. With many channels, the overlaid part is the major traffic bearer layer, recruiting most MSs in its coverage area. The underlaid part is used for coverage, providing services for the areas that the overlaid part cannot cover. The underlaid part covers the overlaid part, and thus the underlaid part can also share some traffic. An enhanced dual band network is amelioration to the existing dual band network. In such a network, two cells physically with a collocation site but different coverage areas form a cell group logically, namely, an inner cell and an extra cell. Channel resource sharing and cell load balancing is realized in the two cells through the algorithm of enhanced dual band network. NO
MOD GCELL(Mandatory) ADD GCELL(Mandatory)
Whether to enable the enhanced concentric cell algorithm in a concentric cell. If a cell supports the enhanced concentric cell function, when an overlaid-to-underlaid handover or an underlaid-to-overlaid handover is decided, the MS compares the receive level value respectively with the values of "OtoU HO Received Level Threshold" and "UtoO HO Received Level Threshold" in "SET GCELLHOIUO" to decide whether to trigger an enhanced concentric cell handover. If the cell does not support the enhanced concentric cell function, the MS compares the actual receive level value with the threshold of receive level to decide whether to trigger a concentric cell handover. In addition, when an underlaid-to-overlaid handover is decided, the underlay cell load is considered. NO This parameter specifies whether a cell is the OL subcell or the UL subcell. This parameter is applied to the enhanced dualband cell. NO
MOD GCELL(Mandatory) ADD GCELL(Mandatory)
Index type of a same group cell in an enhanced dual band network
MOD GCELL(Mandatory) ADD GCELL(Mandatory)
NO
NO
YES
YES
YES
MOD GCELL(Mandatory) ADD GCELL(Mandatory)
Index of a same group cell in an enhanced dual band network
NO
YES
MOD GCELL(Mandatory) ADD GCELL(Mandatory)
Name of a same group cell in an enhanced dual band network NO
YES
MOD GCELL(Optional) ADD GCELL(Mandatory)
Whether the primary BCCH is configured on the inner or extra part of an intelligent underlayoverlay (IUO) cell NO
NO
MOD GCELL(Optional) ADD GCELL(Optional)
Whether to enable the function of Flex mobile allocation index offset (MAIO). In the tight frequency reuse case of the GSM system, adjacent-channel interference and co-channel interference easily occur between channels. If the frequency hopping function and the Flex MAIO function are enabled in a cell, adjacentchannel or co-channel interference between channels can be reduced partially.
NO
NO
MOD GCELL(Optional) ADD GCELL(Optional)
Whether dynamic use of HSNs is enabled. If the functions of frequency hopping and Flex MAIO are enabled in a cell and the value of this parameter is ON, adjacent-channel interference between channels can be reduced. NO
NO
MOD GCELL(Optional) ADD GCELL(Optional)
Priority of a speech service in the CS(Circuit Switched) domain. The parameter is used for BSC flow control. The smaller the value of this parameter, the higher the priority.
NO
NO
MOD GCELL(Optional) ADD GCELL(Optional)
Priority of the CS(Circuit Switched) data service. The parameter is used for BSC flow control. The smaller the value of this parameter, the higher the priority. NO
NO
MOD GCELL(Optional) ADD GCELL(Optional)
Priority for PS services over the Abis interface in IP, IP over E1, or HDLC mode when PS preferred. When "Level of Preempting Dynamic Channel" is set to "No preempt of service TCHF" through the "SET GCELLPSCHM" command, PS services are assigned with a high priority. If "PS High PRI Service PRI" is set to a great value, the priority for PS services becomes low. NO
NO
MOD GCELL(Optional) ADD GCELL(Optional)
Priority for PS services over the Abis interface in IP, IP over E1, or HDLC mode when CS preferred. When "Level of Preempting Dynamic Channel" is set to "Preempt all dynamic TCHFs" or "No preempt of CCHs" through the "SET GCELLPSCHM" command, CS services are assigned with a high priority. If "PS Low PRI Service PRI" is set to a great value, the priority for PS services becomes low. NO
NO
MOD GCELL(Optional) ADD GCELL(Optional)
Number of PBCCH blocks
NO
NO
MOD GCELL(Optional) ADD GCELL(Optional)
Number of PAGCH blocks
NO
NO
MOD GCELL(Optional) ADD GCELL(Optional)
Number of PRACH blocks
NO
NO
MOD GCELL(Optional) ADD GCELL(Optional)
Name of the operator. This parameter uniquely identifies an operator.
NO
NO
MOD GCELL(Optional) ADD GCELL(Optional)
Is VIP Cell.The parameter is used for BSC flow control.
NO
NO
MOD GCELL(Optional) ADD GCELL(Optional)
When MOCN is enabled, multiple operators can share the resources of a cell. The identifiers of public operators are broadcast in the cell. In this manner, subscribers in the cell can select a core network from the operators that share the resources of the cell and then connect to the core network. NO
NO
MOD GCELL(Optional) ADD GCELL(Optional)
Whether the BSC supports simultaneous configuration of DCS1800 cells and PCS1900 cells. If the BSC does not support the simultaneous configuration and a cell is configured on the high frequency band, the high frequency band of the cell must be the same as the value of Support High Frequency Band of the BSC. If the BSC supports the simultaneous configuration, the preceding restriction is lifted. NO
NO
ADD GCELL(Mandatory)
This parameter specifies the frequency band of new cells. Each new cell can be allocated frequencies of only one frequency band. Once the frequency band is selected, it cannot be changed. GSM900: The cell supports GSM900 frequency band. DCS1800: The cell supports DCS1800 frequency band. GSM900_DCS1800: The cell supports GSM900 and DCS1800 frequency bands. GSM850: The cell supports GSM850 frequency band. GSM850_DCS1800: The cell supports GSM850 and DCS1800 frequency bands. PCS1900: The cell supports PCS1900 frequency band. GSM850_PCS1900: The cell supports GSM850 and PCS1900 frequency bands. TGSM810: The cell supports TGSM810 frequency band. NO
YES
ADD GCELL(Optional)
Base station color code (BCC) of a cell, provided by the network planning department. It is used for differentiating the neighboring cells using the same BCCH frequency. A BCC and a network color code (NCC) compose a base station identity code (BSIC). NO
NO
ADD GCELL(Optional)
Name of a cell template, uniquely identifying a cell template in a BSC.
NO
NO
SET GCELL2GBA1(Mandatory)
Type of an index.
NO
YES
SET GCELL2GBA1(Mandatory)
Index of a cell, uniquely identifying a cell in a BSC.
YES
YES
SET GCELL2GBA1(Mandatory)
Name of a cell. This parameter uniquely identifies a cell in a BSC. Cell names cannot contain the following invalid characters: ,;="' In addition, cell names cannot contain two or more consecutive %, two or more consecutive spaces, or more than two consecutive +.
NO
YES
SET GCELL2GBA1(Mandatory)
Whether to generate the 2G BA1 table automatically according to neighbor cell relations or to input the 2G BA1 table manually. Recording the BCCH frequencies of 2G neighbor cells that MSs can measure in idle mode, the BA1 table is sent in System Information 2, 2bis, and 2ter. NO
YES
SET GCELL2GBA1(Mandatory)
Number of a row to be changed in a BA list
NO
YES
SET GCELL2GBA1(Mandatory)
Used for parameter control
NO
YES
BCCH frequency of a 2G neighbor cell that MSs can measure in idle mode. Recording the BCCH frequencies of 2G neighbor cells that MSs can measure in idle mode, the BA1 table is sent in System Information 2, 2bis, and 2ter. NO
YES
NO
YES
NO
YES
SET GCELL2GBA1(Mandatory) SET GCELLADMSTAT(Mandatory ) Type of an index. SET GCELLADMSTAT(Mandatory Index of a cell, uniquely identifying a cell in a ) BSC.
Name of a cell. This parameter uniquely identifies a cell in a BSC. Cell names cannot contain the following invalid characters: ,;="' SET In addition, cell names cannot contain two or GCELLADMSTAT(Mandatory more consecutive %, two or more consecutive ) spaces, or more than two consecutive +.
NO
YES
Administrative state of a cell. The value LOCK indicates that a cell is blocked. Such a cell is unavailable. All calls in the blocked cell are handed over to another available cell. The value SHUTDOWN indicates that a cell is shut down. Such a cell is unavailable. Existing calls remain processed in this cell but new calls cannot be admitted. When all calls of a cell are SET terminated, the cell is blocked automatically. GCELLADMSTAT(Mandatory The value UNLOCK indicates that a cell is ) available. NO
YES
SET GCELLAMRQUL(Mandatory) Type of an index.
NO
YES
SET Index of a cell, uniquely identifying a cell in a GCELLAMRQUL(Mandatory) BSC.
YES
YES
Name of a cell. This parameter uniquely identifies a cell in a BSC. Cell names cannot contain the following invalid characters: ,;="' In addition, cell names cannot contain two or SET more consecutive %, two or more consecutive GCELLAMRQUL(Mandatory) spaces, or more than two consecutive +.
NO
YES
SET GCELLAMRQUL(Optional)
Threshold for the interference handover of NonAMR FR voice services. AMRFR refers to Adaptive Multi-Rate Full Rate. NO
NO
SET GCELLAMRQUL(Optional)
Threshold for the interference handover of NonAMR FR voice services. AMRFR refers to Adaptive Multi-Rate Full Rate. NO
NO
SET GCELLAMRQUL(Optional)
Threshold for the interference handover of NonAMR FR voice services. AMRFR refers to Adaptive Multi-Rate Full Rate. NO
NO
SET GCELLAMRQUL(Optional)
Threshold for the interference handover of NonAMR FR voice services. AMRFR refers to Adaptive Multi-Rate Full Rate. NO
NO
SET GCELLAMRQUL(Optional)
Threshold for the interference handover of NonAMR FR voice services. AMRFR refers to Adaptive Multi-Rate Full Rate. NO
NO
SET GCELLAMRQUL(Optional)
Threshold for the interference handover of NonAMR FR voice services. AMRFR refers to Adaptive Multi-Rate Full Rate. NO
NO
SET GCELLAMRQUL(Optional)
Threshold for the interference handover of NonAMR FR voice services. AMRFR refers to Adaptive Multi-Rate Full Rate. NO
NO
SET GCELLAMRQUL(Optional)
Threshold for the interference handover of NonAMR FR voice services. AMRFR refers to Adaptive Multi-Rate Full Rate. NO
NO
SET GCELLAMRQUL(Optional)
Threshold for the interference handover of NonAMR FR voice services. AMRFR refers to Adaptive Multi-Rate Full Rate. NO
NO
SET GCELLAMRQUL(Optional)
Threshold for the interference handover of NonAMR FR voice services. AMRFR refers to Adaptive Multi-Rate Full Rate. NO
NO
SET GCELLAMRQUL(Optional)
Threshold for the interference handover of NonAMR FR voice services. AMRFR refers to Adaptive Multi-Rate Full Rate. NO
NO
SET GCELLAMRQUL(Optional)
Threshold for the interference handover of NonAMR FR voice services. AMRFR refers to Adaptive Multi-Rate Full Rate. NO
NO
SET GCELLAMRQUL(Optional)
For AMR FR voice services, a fixed amount of offset is added to the corresponding grade of the received signal quality for the interference handover of non-AMR FR voice services. NO
NO
SET GCELLAMRQUL(Optional)
Downlink quality limit for emergency handover in an AMR full rate call. The value of this parameter corresponds to the quality levels (0 to 7) multiplied by 10. An emergency handover can be triggered only when the downlink reception quality of an MS is higher than the value of this parameter, which indicates a poor quality. NO
NO
SET GCELLAMRQUL(Optional)
The value of this parameter corresponds to multiplying quality level 0 to 7 by 10. An emergency handover can be triggered only when the uplink receive quality of the MS is greater than the value of this parameter. NO
NO
SET GCELLAMRQUL(Optional)
Downlink quality limit for emergency handover in an AMR half rate call. The value of this parameter corresponds to the quality levels (0 to 7) multiplied by 10. An emergency handover can be triggered only when the downlink reception quality of an MS is higher than the value of this parameter, which indicates a poor quality. NO
NO
The value of this parameter corresponds to multiplying quality level 0 to 7 by 10. An emergency handover can be triggered only when the uplink receive quality of the MS is greater than the value of this parameter. NO
SET GCELLAMRQUL(Optional) SET GCELLBASICPARA(Mandato ry) Type of an index. SET GCELLBASICPARA(Mandato Index of a cell, uniquely identifying a cell in a ry) BSC.
NO
NO
YES
YES
YES
Name of a cell. This parameter uniquely identifies a cell in a BSC. Cell names cannot contain the following invalid characters: ,;="' SET In addition, cell names cannot contain two or GCELLBASICPARA(Mandato more consecutive %, two or more consecutive ry) spaces, or more than two consecutive +.
NO
YES
Layer where a cell is located. The network designed by Huawei has four layers: Umbrella SET (layer 4), Macro (layer 3), Micro (layer 2), and GCELLBASICPARA(Optional Pico(layer 1). Each layer can be set with 16 ) priorities.
NO
NO
This parameter controls handover between cells at the same layer. Generally, the cells at the same layer are set with the same priority. If the SET cells at the same layer have different priorities, a GCELLBASICPARA(Optional cell with a smaller priority value has a higher ) priority. NO
NO
This parameter specifies the actual coverage area of a cell. After receiving the channel request message or handover access message, the BTS determines whether the channel assignment or handover is performed in the cell by comparing the TA and the value of this SET parameter. The value of this parameter is GCELLBASICPARA(Optional determined by that of "Cell Extension Type" in ) the "ADD GCELL" command. NO
NO
This parameter specifies whether to use DL DTX SET for full-rate (FR) calls. This parameter and "DL GCELLBASICPARA(Optional DTX Strategy" codetermine whether to use DL ) DTX for FR calls in the cell. NO
NO
This parameter specifies whether to use DL DTX SET for half-rate (HR) calls. This parameter and "DL GCELLBASICPARA(Optional DTX Strategy" codetermine whether to use DL ) DTX for HR calls in the cell. NO
NO
SET GCELLBASICPARA(Optional ) Encryption algorithm supported by the BSS side NO
NO
Minimum received signal level of the MS. This level is reported in the system information. This parameter specifies the minimum receive level of an MS to access the BSS. For details. see SET GSM Rec. 05.08. The value of this parameter GCELLBASICPARA(Optional ranges from 0 to 63 (corresponding to -110 dBm ) to -47 dBm). NO
NO
Whether the uplink DTX function is enabled for FR calls. For details, see GSM Rec. 05.08. Uplink DTX is not restricted by the MSC. If this SET parameter is set to May_Use, the MS can use GCELLBASICPARA(Optional DTX. If this parameter is set to Shall_Use or ) Shall_Not_Use, the MS cannot use DTX.
NO
NO
Whether the uplink DTX function is enabled for HR calls. For details, see GSM Rec. 05.08. Uplink DTX is not restricted by the MSC. If this SET parameter is set to May_Use, the MS can use GCELLBASICPARA(Optional DTX. If this parameter is set to Shall_Use or ) Shall_Not_Use, the MS cannot use DTX.
NO
NO
Whether to allow call re-establishment. Burst interference or blind spots due to high buildings SET may lead to a radio link failure. If a call drop is GCELLBASICPARA(Optional caused by such a failure, the MS can start call re) establishment to resume the conversation. NO
NO
Whether to allow immediate TCH assignment. If this parameter is set to YES, the BSC can assign a TCH immediately when there is no available SDCCH for a channel request. If this SET parameter is set to NO, the BSC can assign only GCELLBASICPARA(Optional an SDCCH when processing a channel access ) request. NO
NO
Whether to enable a directed retry. The directed retry is to hand over an MS to a neighboring cell in the same procedure as the handover. The directed retry is an emergency measure applicable to abnormal traffic peaks in some areas of a radio network. You should not use the directed retry as a major means of solving traffic congestion. If the directed retry always occurs in SET some areas of a network, consider adjusting the GCELLBASICPARA(Optional sector and TRX configuration and the network ) layout. NO
NO
SET GCELLBASICPARA(Optional ) Whether to allow MS power control
NO
NO
SET GCELLBASICPARA(Optional ) Whether to allow BTS power control
NO
NO
SET Whether to allow SDCCH dynamic allocation, GCELLBASICPARA(Optional that is, whether to allow dynamic conversion ) between TCHs and SDCCHs.
NO
NO
SET GCELLBASICPARA(Optional Whether to support the reporting of the main ) diversity level
NO
NO
SET This parameter specifies whether to allow the GCELLBASICPARA(Optional BSC6900 to enable the TRX Intelligent ) Shutdown feature on a cell.
NO
NO
This parameter specifies whether to enable the TRX Working Voltage Adjustment feature. When this parameter is set to YES, the BSC6900 SET supports the feature where the power amplifier GCELLBASICPARA(Optional can use different working voltages in different ) TRX modulation modes. NO
NO
Delay of transmit diversity when GMSK is used. Generally, the parameter is applicable to general fading environments. In this case, the transmit diversity can obtain the gain of 3 dB to 5 dB. The fading degrees, however, vary with environments. For a fixed delay, different UEs may obtain different gains. In addition, a fixed delay may have negative impacts on some SET codes of the EDGE service. Therefore, the delay GCELLBASICPARA(Optional of transmit diversity must be configurable and ) can be set for GMSK and 8PSK respectively. NO
NO
Delay of transmit diversity when 8PSK is used. Generally, the parameter is applicable to general fading environments. The transmit diversity can generally bring a gain of 3 dB to 5 dB. The fading conditions vary with the MS location; therefore, MSs in a fixed time delay obtain different gains. In addition, the EDGE service coding may be adversely affected. Therefore, the time delay of transmit diversity must be configurable and can be separately set for GMSK and 8PSK. Only the double-transceiver BTSs and the distributed SET BTSs can be configured with this parameter. For GCELLBASICPARA(Optional the BTSs of other types, this parameter is set to ) an invalid value 255. NO
NO
This parameter is used to enable the Intelligent Combiner Bypass (ICB) function on the BCCH TRX of a cell. This parameter specifies whether to allow the cell to enable the ICB function. When this parameter is set to YES, the TCHs on the nonBCCH TRX are preferentially assigned. In this SET way, the largest possible number of idle TCHs is GCELLBASICPARA(Optional reserved on the BCCH TRX, and thus the BCCH ) TRX enters the ICB mode. NO
NO
This parameter determines whether the dynamic voltage adjustment function is enabled on the basis of the number of timeslots. If this parameter is set to YES, the power consumption of base stations is reduced. This parameter SET maps the versions of base stations. If the GCELLBASICPARA(Optional parameter is set to NULL, base stations do not ) support this function. NO
NO
Delay of transmit diversity when 16QAM is used. Generally, the parameter is applicable to general fading environments. The transmit diversity can generally bring a gain of 3 dB to 5 dB. The fading conditions vary with the MS location; therefore, MSs in a fixed time delay obtain different gains. In addition, the EDGE service coding may be adversely affected. To avoid the preceding cases, the delay of transmit diversity must be configurable and can be set for GMSK and 16QAM respectively. Only the double-transceiver BTSs and the distributed BTSs can be SET configured with this parameter. For the BTSs of GCELLBASICPARA(Optional other types, this parameter is set to an invalid ) value 255. NO
NO
Delay of transmit diversity when 32QAM is used. Generally, the parameter is applicable to general fading environments. The transmit diversity can generally bring a gain of 3 dB to 5 dB. The fading conditions vary with the MS location; therefore, MSs in a fixed time delay obtain different gains. In addition, the EDGE service coding may be adversely affected. To avoid the preceding cases, the delay of transmit diversity must be configurable and can be set for GMSK and 32QAM respectively. Only the double-transceiver BTSs and the distributed BTSs can be SET configured with this parameter. For the BTSs of GCELLBASICPARA(Optional other types, this parameter is set to an invalid ) value 255. NO
NO
Power attenuation level of timeslot 7 of the BCCH in 16QAM. The attenuation level ranges from 0 to 50, with the step of 0.2 dB. When the SET EDGE TRX sends signals in 16QAM, the GCELLBASICPARA(Optional transmit power must be lower than the mean ) power in GMSK.
NO
NO
Power attenuation level of timeslot 7 of the BCCH in 32QAM. The attenuation level ranges from 0 to 50, with the step of 0.2 dB. When the SET EDGE TRX sends signals in 32QAM, the GCELLBASICPARA(Optional transmit power must be lower than the mean ) power in GMSK.
NO
NO
SET Information about the cell scenario. It needs to GCELLBASICPARA(Optional be sent to the BTS. Based on the information, ) the BTS optimizes the allocation of resources.
NO
NO
Timeslot power attenuation level of the EDGE TRX in 8PSK. The attenuation level ranges from 0 to 50, each of which corresponds to an attenuation of 0.2 dB. SET When the EDGE TRX sends signals in 8PSK, GCELLBASICPARA(Optional the transmit power must be lower than the mean ) power in GMSK. NO
NO
After a channel request message is received, the type of the channel needs to be specified. In this case, if the threshold of the load on the TCH in the current cell is smaller than the Fast Call SET Setup TCH Usage Threshold and the request GCELLBASICPARA(Optional message is not issued during location update or ) paging, a TCH is preferentially assigned. NO
NO
The channel activation and immediate SET assignment messages are sent at the same time GCELLBASICPARA(Optional to accelerate the signaling processing, thus ) increasing the response speed of the network. NO
NO
Whether to enable the Tandem Free Operation (TFO) function on the BTS through a CHANNEL ACTIVATION or MODE MODIFY message. This parameter specifies whether to enable the Tandem Free Operation (TFO) function. If the voice quality of an ongoing MS-to-MS call is bad, the TFO function can be enabled to improve endSET to-end voice quality. The TFO function cannot be GCELLBASICPARA(Optional used to improve the voice quality of an MS-to) PSTN call. NO
NO
SET Whether to measure the delay on the link GCELLBASICPARA(Optional between the BTSs that serve the calling MS and ) the called MS respectively NO
NO
Whether to enable the high-order modulation power increase function in a cell. In the case of a multi-transceiver unit, multiple TRXs may share one channel. If the total output power of the TRXs is lower than the maximum allowed transmit power of the channel at a time point, the remaining power can be used to increase the transmit power of a service in a high-order modulation scheme. In this manner, the transmit power in a high-order modulation scheme is comparable to the transmit power in GMSK. In SET the case of a double-transceiver unit, the two GCELLBASICPARA(Optional transmit channels can be used to increase the ) transmit power. NO
NO
Whether a service in a high-order modulation SET scheme on the BCCH TRX can use the highGCELLBASICPARA(Optional order modulation power increase function when ) the function is enabled in the cell.
NO
NO
SET Maximum output power that can be increased in GCELLBASICPARA(Optional 8PSK when the high-order modulation power ) increase function is enabled. NO
NO
SET Maximum output power that can be increased in GCELLBASICPARA(Optional QPSK when the high-order modulation power ) increase function is enabled. NO
NO
SET Maximum out power that can be increased in GCELLBASICPARA(Optional LSR 16QAM when the high-order modulation ) power increase function is enabled.
NO
NO
SET Maximum out power that can be increased in GCELLBASICPARA(Optional LSR 32QAM when the high-order modulation ) power increase function is enabled.
NO
NO
SET Maximum output power that can be increased in GCELLBASICPARA(Optional HSR 16QAM when the high-order modulation ) power increase function is enabled. NO
SET GCELLBASICPARA(Optional ) SET GCELLCCACCESS(Mandato ry) SET GCELLCCACCESS(Mandato ry)
NO
Maximum output power that can be increased in HSR 32QAM when the high-order modulation power increase function is enabled. NO
NO
Type of an index.
NO
YES
Index of a cell, uniquely identifying a cell in a BSC.
YES
YES
NO
YES
Name of a cell. This parameter uniquely identifies a cell in a BSC. Cell names cannot contain the following invalid characters: ,;="' SET In addition, cell names cannot contain two or GCELLCCACCESS(Mandato more consecutive %, two or more consecutive ry) spaces, or more than two consecutive +.
SET GCELLCCACCESS(Optional) Speech version supported by a cell
NO
NO
Whether TRX mutual aid is enabled for the BSC. TRX mutual aid is classified into main BCCH mutual aid and baseband frequency hopping (FH) mutual aid. If main BCCH mutual aid is enabled, the BSC can switch a faulty main BCCH TRX over to a functional TRX in the cell. When the original main BCCH TRX recovers, it can be switched back based on the parameter setting. If baseband FH mutual aid is enabled, the BSC can remove a faulty TRX from the baseband FH group to ensure the proper FH. The removed TRX will not participate in frequency hopping. When the removed TRX recovers, the BSC determines whether to switch the TRX back to the baseband FH group according to the value of the "Switchback Policy of Baseband FH Mutual Aid" parameter. When the parameter is set to TRXAid_NotAllow, TRX mutual aid is not allowed. When the parameter is set to AllowReForbid, TRX mutual aid is allowed, but TRX switchback is not allowed. When the parameter is set to AllowReImmed, TRX mutual aid is allowed, and the faulty TRX is switched back immediately upon its recovery. When the parameter is set to AllowReImmed, TRX mutual SET aid is allowed, and the faulty TRX is switched GCELLCCACCESS(Optional) back immediately upon its recovery. NO
NO
Correlation threshold of the training sequence for the random access. As defined in the GSM recommendation, the system can determine whether the received signals are random access signals of the MS and calculate the TA value by checking the correlation of the 41-bit training sequence. Random Access Error Threshold Number of Correct Bits in the 41-Bit Training Sequence 90-100 33 101-120 34 121-140 35 141-160 36 161-175 37 176-195 38 196-221 39 222-243 40 SET 244-250 41 GCELLCCACCESS(Optional) 0-89 or 251-255 38. NO
NO
The MS does not receive the original power command after random access. This parameter indicates whether the power deviation is added SET to the class 3 MS on the DCS1800 band on the GCELLCCACCESS(Optional) basis of the maximum MS transmit power. NO
NO
If a class 3 MS on the DCS1800 band does not receive the original power command after random access, the power that the MS uses is the MS maximum transmit power level plus the SET power calculated from the power deviation. For GCELLCCACCESS(Optional) details, see GSM Rec. 05.08.
NO
NO
This parameter specifies the level threshold for the random access of the MS. If the receive level of the RACH burst in the CS domain is smaller than the value of CS RACH Min.Access Level, the BTS regards this access as an invalid one and no decoding is performed. If the receive level of the RACH burst is greater than the value of CS RACH Min. Access Level, the BTS considers that an access request exists on this timeslot, and determines together with the value SET of "Random Access Error Threshold" whether GCELLCCACCESS(Optional) the RACH access is valid. NO
NO
This parameter specifies the level threshold for the random access of the MS. If the receive level of the RACH burst in the PS domain is smaller than the value of PS RACH Min.Access Level, the BTS regards this access as an invalid one and no decoding is performed. If the receive level of the RACH burst is greater than the value of PS RACH Min. Access Level, the BTS considers that an access request exists on this timeslot, and determines together with the value SET of "Random Access Error Threshold" whether GCELLCCACCESS(Optional) the RACH access is valid. NO
NO
Mutual-aid switchback policy of baseband frequency hopping (FH). If multiple TRXs in a baseband FH group are faulty and switchback is needed after mutual aid of the baseband FH TRXs occurs: If you choose ALL, mutual-aid switchback is implemented after all the TRXs in the FH group recover; if you choose PART, as long as any of the faulty TRXs recovers, it is SET changed back at once and added to the FH GCELLCCACCESS(Optional) group. NO
NO
SET GCELLCCAD(Mandatory)
Type of an index.
NO
YES
SET GCELLCCAD(Mandatory)
Index of a cell, uniquely identifying a cell in a BSC.
YES
YES
SET GCELLCCAD(Mandatory)
Name of a cell. This parameter uniquely identifies a cell in a BSC. Cell names cannot contain the following invalid characters: ,;="' In addition, cell names cannot contain two or more consecutive %, two or more consecutive spaces, or more than two consecutive +.
NO
YES
This parameter specifies whether the transmission of point-to-point short messages is disabled. If necessary, the transmission of the uplink short messages in a specific cell can be disabled so that sufficient radio channels can be SET GCELLCCAD(Optional) seized by normal calls. NO
NO
Whether to prohibit sending point-to-point short messages. If necessary, this parameter is used for controlling whether to send downlink short messages from a specific cell so as to ensure sufficient radio channel resources for normal SET GCELLCCAD(Optional) calls.
NO
NO
Whether to re-assign the radio channels on a different band or on the same band. This can help minimize the decrease in service quality due to interference, faulty TRX paths, or faulty SET GCELLCCAD(Optional) project constructions.
NO
NO
If this parameter is set to ON, the BSC initiates a TCHF preemption when receiving a link establishment indication from an MS in an SET GCELLCCAD(Optional) emergency call. NO
NO
Priority level of an emergency call. If this parameter is set to 15, the functions of reserving TCHs for emergency calls and preempting TCHs are not enabled. If the two functions need to be enabled, set this parameter to a value from 1 to 14. If the value of "Emergency Call Preemption Permitted" is ON, this parameter can also be used for TCH preemption. The value 1 means SET GCELLCCAD(Optional) the highest priority and 14 means the lowest. NO
NO
This parameter specifies whether to allow a mobile phone to preferentially camp on a 3G cell after a call is terminated in the areas covered by SET GCELLCCAD(Optional) both the GSM network and the UMTS network. NO
NO
Whether to initiate a forcible call drop when the time advance exceeds "MAX TA Drop Call SET GCELLCCAD(Optional) Threshold"
NO
NO
Number of measurement reports (MRs) used for SET GCELLCCAD(Optional) averaging the time advance before the call drops NO
NO
Whether the time advance after filtering exceeds the threshold. If the threshold is exceeded, a SET GCELLCCAD(Optional) forcible call drop is initiated. NO
NO
When Select 3G Cell After Call Release is set to ON, an MS is handed over from the TD-SCDMA network to the GSM network and releases the call. In this case, this parameter determines whether the MS preferentially camps on a 3G cell if the measurement reports from the MS do not contain a 3G cell. When this parameter is set to ON, the BSC assigns a neighboring 3G cell in the BA table as the candidate cell for the MS to preferentially camp on. When this parameter is set to OFF, the BSC does not assign a neighboring 3G cell in the BA table as the candidate cell for the MS to preferentially camp SET GCELLCCAD(Optional) on. NO
NO
Whether to transmit the SI13 message on the SET GCELLCCAD(Optional) BCCH Norm or BCCH Ext.
NO
NO
SET GCELLCCAMR(Mandatory)
Type of an index.
NO
YES
SET GCELLCCAMR(Mandatory)
Index of a cell, uniquely identifying a cell in a BSC.
YES
YES
SET GCELLCCAMR(Mandatory)
Name of a cell. This parameter uniquely identifies a cell in a BSC. Cell names cannot contain the following invalid characters: ,;="' In addition, cell names cannot contain two or more consecutive %, two or more consecutive spaces, or more than two consecutive +.
NO
YES
SET GCELLCCAMR(Optional)
Switch for controlling the AMR rate. ALG1 indicates that C/I is used to control the AMR rate. ALG2 indicates that BER is used to control the AMR rate. The value NONE indicates that the BTS does not support the AMR rate adjustment algorithm. NO
NO
SET GCELLCCAMR(Optional)
Active coding set (ACS)[F], indicates a set of fullrate coding rates currently available for calls. The AMR is a set of multiple speech coding and decoding rates.If an IP based user plane AInterface is chosen,5.15KBIT/S will not be included(see 3GPP TS 28.062). NO Whether to allow automatic adjustment for the uplink threshold and hysteresis of full rate AMR call rates NO
SET GCELLCCAMR(Optional)
Based on the RQI in the call measurement report, the BTS and MS automatically adjust the current speech coding rate according to the related algorithm. The coding rate adjustment threshold is the threshold of RQI. The RQI indicates the carrier-to-interference ratio (CIR) of the call. If RQI equals 1, the CIR is 0.5 dB; if RQI equals 2, the CIR is 1 dB; and so forth. Since there are multiple coding rates in the ACS, there is an adjustment threshold and an adjustment hysteresis between the neighboring coding rates. NO
SET GCELLCCAMR(Optional)
NO
NO
NO
SET GCELLCCAMR(Optional)
Based on the RQI in the call measurement report, the BTS and MS automatically adjust the current speech coding rate according to the related algorithm. The coding rate adjustment threshold is the threshold of RQI. The RQI indicates the carrier-to-interference ratio (CIR) of the call. If RQI equals 1, the CIR is 0.5 dB; if RQI equals 2, the CIR is 1 dB; and so forth. Since there are multiple coding rates in the ACS, there is an adjustment threshold and an adjustment hysteresis between the neighboring coding rates. NO
NO
SET GCELLCCAMR(Optional)
Based on the RQI in the call measurement report, the BTS and MS automatically adjust the current speech coding rate according to the related algorithm. The coding rate adjustment threshold is the threshold of RQI. The RQI indicates the carrier-to-interference ratio (CIR) of the call. If RQI equals 1, the CIR is 0.5 dB; if RQI equals 2, the CIR is 1 dB; and so forth. Since there are multiple coding rates in the ACS, there is an adjustment threshold and an adjustment hysteresis between the neighboring coding rates. NO
NO
SET GCELLCCAMR(Optional)
Based on the RQI in the call measurement report, the BTS and MS automatically adjust the current speech coding rate according to the related algorithm. The coding rate adjustment threshold is the threshold of RQI. The RQI indicates the carrier-to-interference ratio (CIR) of the call. If RQI equals 1, the CIR is 0.5 dB; if RQI equals 2, the CIR is 1 dB; and so forth. Since there are multiple coding rates in the ACS, there is an adjustment threshold and an adjustment hysteresis between the neighboring coding rates. NO
NO
SET GCELLCCAMR(Optional)
Based on the RQI in the call measurement report, the BTS and MS automatically adjust the current speech coding rate according to the related algorithm. The coding rate adjustment threshold is the threshold of RQI. The RQI indicates the carrier-to-interference ratio (CIR) of the call. If RQI equals 1, the CIR is 0.5 dB; if RQI equals 2, the CIR is 1 dB; and so forth. Since there are multiple coding rates in the ACS, there is an adjustment threshold and an adjustment hysteresis between the neighboring coding rates. NO
NO
SET GCELLCCAMR(Optional)
Based on the RQI in the call measurement report, the BTS and MS automatically adjust the current speech coding rate according to the related algorithm. The coding rate adjustment threshold is the threshold of RQI. The RQI indicates the carrier-to-interference ratio (CIR) of the call. If RQI equals 1, the CIR is 0.5 dB; if RQI equals 2, the CIR is 1 dB; and so forth. Since there are multiple coding rates in the ACS, there is an adjustment threshold and an adjustment hysteresis between the neighboring coding rates. NO
NO
SET GCELLCCAMR(Optional)
Adjustment threshold 1 of AMR downlink coding rate (full rate). According to a certain algorithm and the RQI in the call measurement report, the MS and the BTS automatically adjust the current speech coding and decoding rate. The adjustment threshold of coding rate is the threshold of the RQI, which is the carrier-tointerference ratio of a call. The RQI value 1 means 0.5 dB, the RQI value 2 means 1 dB, and others can be deducted by analogy. There may be multiple coding rates in the ACS. Therefore, there is an adjustment threshold and an adjustment hysteresis between every two adjacent coding rates. NO
NO
SET GCELLCCAMR(Optional)
Adjustment threshold 2 of AMR downlink coding rate (full rate). According to a certain algorithm and the RQI in the call measurement report, the MS and the BTS automatically adjust the current speech coding and decoding rate. The adjustment threshold of coding rate is the threshold of the RQI, which is the carrier-tointerference ratio of a call. The RQI value 1 means 0.5 dB, the RQI value 2 means 1 dB, and others can be deducted by analogy. There may be multiple coding rates in the ACS. Therefore, there is an adjustment threshold and an adjustment hysteresis between every two adjacent coding rates. NO
NO
SET GCELLCCAMR(Optional)
Adjustment threshold 3 of AMR downlink coding rate (full rate). The adjustment thresholds and the hysteresis of coding rate must meet the following conditions: AMR Coding Rate adj.th (n) < AMR Coding Rate adj.th (n + 1), n = 1 or 2; [AMR Coding Rate adj.th (n) + AMR Coding Rate adj.hyst (n)] < [AMR Coding Rate adj.th (n + 1) + AMR Coding Rate adj.hyst (n + 1)], n = 1 or 2. NO
NO
SET GCELLCCAMR(Optional)
Adjustment hysteresis 1 of AMR downlink coding rate (full rate). According to a certain algorithm and the radio quality indication (RQI) in the call measurement report, the MS and the BTS automatically adjust the current speech coding and decoding rate. The adjustment threshold of coding rate is the threshold of the RQI, which is the carrier-to-interference ratio of a call. The RQI value 1 means 0.5 dB, the RQI value 2 means 1 dB, and others can be deducted by analogy. There may be multiple coding rates in the active coding set (ACS). Therefore, there is an adjustment threshold and an adjustment hysteresis between every two adjacent coding rates. NO
NO
SET GCELLCCAMR(Optional)
Adjustment hysteresis 2 of AMR downlink coding rate (full rate). According to a certain algorithm and the radio quality indication (RQI) in the call measurement report, the MS and the BTS automatically adjust the current speech coding and decoding rate. The adjustment threshold of coding rate is the threshold of the RQI, which is the carrier-to-interference ratio of a call. The RQI value 1 means 0.5 dB, the RQI value 2 means 1 dB, and others can be deducted by analogy. There may be multiple coding rates in the active coding set (ACS). Therefore, there is an adjustment threshold and an adjustment hysteresis between every two adjacent coding rates. NO
NO
SET GCELLCCAMR(Optional)
Adjustment hysteresis 3 of AMR downlink coding rate (full rate). According to a certain algorithm and the radio quality indication (RQI) in the call measurement report, the MS and the BTS automatically adjust the current speech coding and decoding rate. The adjustment threshold of coding rate is the threshold of the RQI, which is the carrier-to-interference ratio of a call. The RQI value 1 means 0.5 dB, the RQI value 2 means 1 dB, and others can be deducted by analogy. There may be multiple coding rates in the active coding set (ACS). Therefore, there is an adjustment threshold and an adjustment hysteresis between every two adjacent coding rates. NO
NO
SET GCELLCCAMR(Optional)
SET GCELLCCAMR(Optional) SET GCELLCCAMR(Optional)
Initial coding mode used for full rate AMR calls. The four values 0, 1, 2, and 3 of this parameter respectively represent the lowest, low, high, and highest coding rates in the ACS. This parameter does not take effect in A over IP mode. In A over IP mode, the TC is integrated into the UMG, and the BSC obtains the initial coding mode according to protocols. That is, the BSC does not obtain the initial coding mode according to parameter configuration. NO
Active coding set (ACS)[H], indicates set of halfrate coding rates currently available for calls. The AMR is a set of multiple speech coding and decoding rates. NO Whether to allow automatic adjustment for the uplink threshold and hysteresis of half rate AMR call rates NO
NO
NO
NO
SET GCELLCCAMR(Optional)
Based on the RQI in the call measurement report, the BTS and MS automatically adjust the current speech coding rate according to the related algorithm. The coding rate adjustment threshold is the threshold of RQI. The RQI indicates the carrier-to-interference ratio (CIR) of the call. If RQI equals 1, the CIR is 0.5 dB; if RQI equals 2, the CIR is 1 dB; and so forth. Since there are multiple coding rates in the ACS, there is an adjustment threshold and an adjustment hysteresis between the neighboring coding rates. NO
NO
SET GCELLCCAMR(Optional)
Based on the RQI in the call measurement report, the BTS and MS automatically adjust the current speech coding rate according to the related algorithm. The coding rate adjustment threshold is the threshold of RQI. The RQI indicates the carrier-to-interference ratio (CIR) of the call. If RQI equals 1, the CIR is 0.5 dB; if RQI equals 2, the CIR is 1 dB; and so forth. Since there are multiple coding rates in the ACS, there is an adjustment threshold and an adjustment hysteresis between the neighboring coding rates. NO
NO
SET GCELLCCAMR(Optional)
Based on the RQI in the call measurement report, the BTS and MS automatically adjust the current speech coding rate according to the related algorithm. The coding rate adjustment threshold is the threshold of RQI. The RQI indicates the carrier-to-interference ratio (CIR) of the call. If RQI equals 1, the CIR is 0.5 dB; if RQI equals 2, the CIR is 1 dB; and so forth. Since there are multiple coding rates in the ACS, there is an adjustment threshold and an adjustment hysteresis between the neighboring coding rates. NO
NO
SET GCELLCCAMR(Optional)
Based on the RQI in the call measurement report, the BTS and MS automatically adjust the current speech coding rate according to the related algorithm. The coding rate adjustment threshold is the threshold of RQI. The RQI indicates the carrier-to-interference ratio (CIR) of the call. If RQI equals 1, the CIR is 0.5 dB; if RQI equals 2, the CIR is 1 dB; and so forth. Since there are multiple coding rates in the ACS, there is an adjustment threshold and an adjustment hysteresis between the neighboring coding rates. NO
NO
SET GCELLCCAMR(Optional)
Based on the RQI in the call measurement report, the BTS and MS automatically adjust the current speech coding rate according to the related algorithm. The coding rate adjustment threshold is the threshold of RQI. The RQI indicates the carrier-to-interference ratio (CIR) of the call. If RQI equals 1, the CIR is 0.5 dB; if RQI equals 2, the CIR is 1 dB; and so forth. Since there are multiple coding rates in the ACS, there is an adjustment threshold and an adjustment hysteresis between the neighboring coding rates. NO
NO
SET GCELLCCAMR(Optional)
Based on the RQI in the call measurement report, the BTS and MS automatically adjust the current speech coding rate according to the related algorithm. The coding rate adjustment threshold is the threshold of RQI. The RQI indicates the carrier-to-interference ratio (CIR) of the call. If RQI equals 1, the CIR is 0.5 dB; if RQI equals 2, the CIR is 1 dB; and so forth. Since there are multiple coding rates in the ACS, there is an adjustment threshold and an adjustment hysteresis between the neighboring coding rates. NO
NO
SET GCELLCCAMR(Optional)
Adjustment threshold 1 of AMR downlink coding rate (half rate). According to a certain algorithm and the RQI in the call measurement report, the MS and the BTS automatically adjust the current speech coding and decoding rate. The adjustment threshold of coding rate is the threshold of the RQI, which is the carrier-tointerference ratio of a call. The RQI value 1 means 0.5 dB, the RQI value 2 means 1 dB, and others can be deducted by analogy. There may be multiple coding rates in the ACS. Therefore, there is an adjustment threshold and an adjustment hysteresis between every two adjacent coding rates. NO
NO
SET GCELLCCAMR(Optional)
Adjustment threshold 2 of AMR downlink coding rate (half rate). According to a certain algorithm and the RQI in the call measurement report, the MS and the BTS automatically adjust the current speech coding and decoding rate. The adjustment threshold of coding rate is the threshold of the RQI, which is the carrier-tointerference ratio of a call. The RQI value 1 means 0.5 dB, the RQI value 2 means 1 dB, and others can be deducted by analogy. There may be multiple coding rates in the ACS. Therefore, there is an adjustment threshold and an adjustment hysteresis between every two adjacent coding rates. NO
NO
SET GCELLCCAMR(Optional)
Adjustment threshold 3 of AMR downlink coding rate (half rate). According to a certain algorithm and the RQI in the call measurement report, the MS and the BTS automatically adjust the current speech coding and decoding rate. The adjustment threshold of coding rate is the threshold of the RQI, which is the carrier-tointerference ratio of a call. The RQI value 1 means 0.5 dB, the RQI value 2 means 1 dB, and others can be deducted by analogy. There may be multiple coding rates in the ACS. Therefore, there is an adjustment threshold and an adjustment hysteresis between every two adjacent coding rates. NO
NO
SET GCELLCCAMR(Optional)
Adjustment hysteresis 1 of AMR downlink coding rate (half rate). According to a certain algorithm and the radio quality indication (RQI) in the call measurement report, the MS and the BTS automatically adjust the current speech coding and decoding rate. The adjustment threshold of coding rate is the threshold of the RQI, which is the carrier-to-interference ratio of a call. The RQI value 1 means 0.5 dB, the RQI value 2 means 1 dB, and others can be deducted by analogy. There may be multiple coding rates in the active coding set (ACS). Therefore, there is an adjustment threshold and an adjustment hysteresis between every two adjacent coding rates. NO
NO
SET GCELLCCAMR(Optional)
Adjustment hysteresis 2 of AMR downlink coding rate (half rate). According to a certain algorithm and the radio quality indication (RQI) in the call measurement report, the MS and the BTS automatically adjust the current speech coding and decoding rate. The adjustment threshold of coding rate is the threshold of the RQI, which is the carrier-to-interference ratio of a call. The RQI value 1 means 0.5 dB, the RQI value 2 means 1 dB, and others can be deducted by analogy. There may be multiple coding rates in the active coding set (ACS). Therefore, there is an adjustment threshold and an adjustment hysteresis between every two adjacent coding rates. NO
NO
SET GCELLCCAMR(Optional)
Adjustment hysteresis 3 of AMR downlink coding rate (half rate). According to a certain algorithm and the radio quality indication (RQI) in the call measurement report, the MS and the BTS automatically adjust the current speech coding and decoding rate. The adjustment threshold of coding rate is the threshold of the RQI, which is the carrier-to-interference ratio of a call. The RQI value 1 means 0.5 dB, the RQI value 2 means 1 dB, and others can be deducted by analogy. There may be multiple coding rates in the active coding set (ACS). Therefore, there is an adjustment threshold and an adjustment hysteresis between every two adjacent coding rates. NO
NO
SET GCELLCCAMR(Optional)
Initial coding mode used for half rate AMR calls. The four values 0, 1, 2, and 3 of this parameter respectively represent the lowest, low, high, and highest coding rates in the ACS. This parameter does not take effect in A over IP mode. In A over IP mode, the TC is integrated into the UMG, and the BSC obtains the initial coding mode according to protocols. That is, the BSC does not obtain the initial coding mode according to parameter configuration. NO
NO
SET GCELLCCAMR(Optional)
Whether to enable the adaptive adjustment function of AMR uplink threshold. After this function is enabled, the BTS estimates the longterm voice quality (indicated by the long-term FER(frame erase rate)) and compares the estimated result with the specified target voice quality. If the estimated result does not conform to the target voice quality, it indicates that the current AMR handover threshold may not be the best for the current radio conditions. In this case, the BSC uses the relevant algorithm to adjust the adaptive threshold according to the relation between the estimated voice quality and the target voice quality. NO
NO
SET GCELLCCAMR(Optional)
Upper voice quality threshold associated with the automatic adjustment of the AMR handover uplink threshold NO
NO
SET GCELLCCAMR(Optional)
Lower voice quality threshold associated with the automatic adjustment of the AMR handover uplink threshold;The value of this parameter must be smaller than or equal to the value of Uplink Long-term FER Target. NO
NO
SET GCELLCCAMR(Optional)
Target voice quality value associated with the automatic adjustment of the uplink threshold of AMR handover
NO
NO
SET GCELLCCAMR(Optional)
Factor of uplink threshold adjustment. It indicates the linear relation between the threshold adjustment value and the logarithmic FER.
NO
NO
SET GCELLCCAMR(Optional)
Whether to enable the adaptive adjustment function of AMR downlink threshold. After this function is enabled, the BTS estimates the longterm voice quality (indicated by the long-term FER(frame erase ratio)) and compares the estimated result with the specified target voice quality. If the estimated result does not conform to the target voice quality, it indicates that the current AMR handover threshold may not be the best for the current radio conditions. In this case, the BSC adjust threshold adaptively according to the relation between the estimated voice quality and the target voice quality. NO
NO
SET GCELLCCAMR(Optional)
Upper voice quality threshold associated with the automatic adjustment of the AMR handover downlink threshold. NO
NO
SET GCELLCCAMR(Optional)
Lower voice quality threshold associated with the automatic adjustment of the AMR downlink handover threshold. The value of this parameter must be smaller than or equal to the value of Downlink Long-term FER Target. NO
NO
SET GCELLCCAMR(Optional)
Target value of the voice quality automatically adjusted through the downlink threshold of AMR handover NO
NO
SET GCELLCCAMR(Optional)
Factor of downlink threshold adjustment. It indicates the linear relation between the threshold adjustment value and the logarithmic FER.
NO
NO
SET GCELLCCAMR(Optional)
Active coding set (ACS)[WB], indicates a set of wide-band coding rates currently available for calls. The AMR is a set of multiple speech coding and decoding rates.
NO
NO
SET GCELLCCAMR(Optional)
Based on the RQI in the call measurement report, the BTS and MS automatically adjust the current speech coding rate according to the related algorithm. The coding rate adjustment threshold is the threshold of RQI. The RQI indicates the carrier-to-interference ratio (CIR) of the call. If RQI equals 1, the CIR is 0.5 dB; if RQI equals 2, the CIR is 1 dB; and so forth. Since there are multiple coding rates in the ACS, there is an adjustment threshold and an adjustment hysteresis between the neighboring coding rates. NO
NO
SET GCELLCCAMR(Optional)
Based on the RQI in the call measurement report, the BTS and MS automatically adjust the current speech coding rate according to the related algorithm. The coding rate adjustment threshold is the threshold of RQI. The RQI indicates the carrier-to-interference ratio (CIR) of the call. If RQI equals 1, the CIR is 0.5 dB; if RQI equals 2, the CIR is 1 dB; and so forth. Since there are multiple coding rates in the ACS, there is an adjustment threshold and an adjustment hysteresis between the neighboring coding rates. NO
NO
SET GCELLCCAMR(Optional)
Based on the RQI in the call measurement report, the BTS and MS automatically adjust the current speech coding rate according to the related algorithm. The coding rate adjustment threshold is the threshold of RQI. The RQI indicates the carrier-to-interference ratio (CIR) of the call. If RQI equals 1, the CIR is 0.5 dB; if RQI equals 2, the CIR is 1 dB; and so forth. Since there are multiple coding rates in the ACS, there is an adjustment threshold and an adjustment hysteresis between the neighboring coding rates. NO
NO
SET GCELLCCAMR(Optional)
Based on the RQI in the call measurement report, the BTS and MS automatically adjust the current speech coding rate according to the related algorithm. The coding rate adjustment threshold is the threshold of RQI. The RQI indicates the carrier-to-interference ratio (CIR) of the call. If RQI equals 1, the CIR is 0.5 dB; if RQI equals 2, the CIR is 1 dB; and so forth. Since there are multiple coding rates in the ACS, there is an adjustment threshold and an adjustment hysteresis between the neighboring coding rates. NO
NO
SET GCELLCCAMR(Optional)
Adjustment threshold 1 of AMR downlink coding rate (wide band). According to a certain algorithm and the RQI in the call measurement report, the MS and the BTS automatically adjust the current speech coding and decoding rate. The adjustment threshold of coding rate is the threshold of the RQI, which is the carrier-tointerference ratio of a call. The RQI value 1 means 0.5 dB, the RQI value 2 means 1 dB, and others can be deducted by analogy. There may be multiple coding rates in the ACS. Therefore, there is an adjustment threshold and an adjustment hysteresis between every two adjacent coding rates. NO
NO
SET GCELLCCAMR(Optional)
Adjustment threshold 2 of AMR downlink coding rate (wide band). According to a certain algorithm and the RQI in the call measurement report, the MS and the BTS automatically adjust the current speech coding and decoding rate. The adjustment threshold of coding rate is the threshold of the RQI, which is the carrier-tointerference ratio of a call. The RQI value 1 means 0.5 dB, the RQI value 2 means 1 dB, and others can be deducted by analogy. There may be multiple coding rates in the ACS. Therefore, there is an adjustment threshold and an adjustment hysteresis between every two adjacent coding rates. NO
NO
SET GCELLCCAMR(Optional)
Adjustment hysteresis 1 of AMR downlink coding rate (wide band). According to a certain algorithm and the radio quality indication (RQI) in the call measurement report, the MS and the BTS automatically adjust the current speech coding and decoding rate. The adjustment threshold of coding rate is the threshold of the RQI, which is the carrier-to-interference ratio of a call. The RQI value 1 means 0.5 dB, the RQI value 2 means 1 dB, and others can be deducted by analogy. There may be multiple coding rates in the active coding set (ACS). Therefore, there is an adjustment threshold and an adjustment hysteresis between every two adjacent coding rates. NO
NO
SET GCELLCCAMR(Optional)
Adjustment hysteresis 2 of AMR downlink coding rate (wide band). According to a certain algorithm and the radio quality indication (RQI) in the call measurement report, the MS and the BTS automatically adjust the current speech coding and decoding rate. The adjustment threshold of coding rate is the threshold of the RQI, which is the carrier-to-interference ratio of a call. The RQI value 1 means 0.5 dB, the RQI value 2 means 1 dB, and others can be deducted by analogy. There may be multiple coding rates in the active coding set (ACS). Therefore, there is an adjustment threshold and an adjustment hysteresis between every two adjacent coding rates. NO
NO
SET GCELLCCAMR(Optional)
Initial coding mode used for broadband AMR calls. The three values 0, 1 and 2 of this parameter respectively represent the lowest, low and highest coding rates in the ACS. This parameter does not take effect in A over IP mode. In A over IP mode, the TC is integrated into the UMG, and the BSC obtains the initial coding mode according to protocols. That is, the BSC does not obtain the initial coding mode according to parameterconfiguration. NO
NO
SET GCELLCCAMR(Optional)
This parameter specifies whether the RATSCCH function is enabled during the call establishment procedure. RATSCCH is used to dynamically reconfigure the rate set of AMR while on a call. This parameter maps the versions of base stations. NO
NO
SET GCELLCCBASIC(Mandatory) Type of an index.
NO
YES
SET Index of a cell, uniquely identifying a cell in a GCELLCCBASIC(Mandatory) BSC.
YES
YES
Name of a cell. This parameter uniquely identifies a cell in a BSC. Cell names cannot contain the following invalid characters: ,;="' In addition, cell names cannot contain two or SET more consecutive %, two or more consecutive GCELLCCBASIC(Mandatory) spaces, or more than two consecutive +.
NO
YES
SET GCELLCCBASIC(Optional)
This parameter is used by the BTS to inform the BSC of radio link connection failure. When the BTS receives the SACCH measurement report from the MS, the counter for determining whether a radio link is faulty is set to the value of this parameter. Each time the BTS fails to decode the SACCH measurement report sent by the MS, the counter decreases by 1. If the BTS successfully decodes the SACCH measurement report, the counter increases by 2. When the value of this parameter is 0, the BTS regards the radio link as faulty. The BTS sends a connection failure indication message to the BSC. The number of SACCH multi-frames and the radio link failure counter in the system message specify the radio link failure time on the uplink and that on the downlink respectively. The judgment standard is whether the measurement report in SACCH is correctly decoded. NO
NO
SET GCELLCCBASIC(Optional)
Level threshold of the MS random access for the BTS to determine the RACH busy state. When the receive level of the random access burst timeslot is greater than this threshold, the BTS considers that the timeslot is busy. NO
NO
SET GCELLCCBASIC(Optional)
For the BTS, this parameter is used to determine paging retransmissions. This parameter and the number of paging times configured in the MSC determine the number of paging retransmissions. The total number of paging times is approximately equal to the value of this parameter multiplied by the number of paging times configured in the MSC. NO
NO
SET GCELLCCBASIC(Optional)
When this parameter is set to ENABLE, if the cell supports direct retry and the current cell load is equal to or larger than the value of "Cell direct retry forbidden threshold" in "SET GCELLOTHEXT" during the assignment, the BSC continues with the direct retry procedure. When this parameter is set to DISABLE, the current call applies for channels in its own cells. If the application fails, it continues with the direct retry procedure. NO
NO
SET GCELLCCBASIC(Optional)
Threshold of the load in the target cell for the directed retry. Only a cell whose load is lower than or equal to this threshold can be selected as a candidate target cell.
NO
NO
SET GCELLCCBASIC(Optional)
Number of SACCH multiframes during an AMR full rate call. See the description of "SACCH Multi-Frames" in "SET GCELLCCBASIC".
NO
NO
SET GCELLCCBASIC(Optional)
Number of SACCH multiframes during an AMR half rate call. See the description of "SACCH Multi-Frames" in "SET GCELLCCBASIC".
NO
NO
SET GCELLCCBASIC(Optional)
Counter for radio link failures during an AMR full rate call. See the description of "Radio Link Timeout" in "SET GCELLCCBASIC". NO
NO
SET GCELLCCBASIC(Optional)
Counter for radio link failures during an AMR half rate call. See the description of "Radio Link Timeout" in "SET GCELLCCBASIC". NO
NO
SET GCELLCCBASIC(Optional)
Maximum number of Channel Request messages that can be sent by an MS in an immediate assignment procedure. After the MS initiates the immediate assignment procedure, it always listens to the messages on the BCCH and all the common control channels (CCCHs) in the CCCH group to which the MS belongs. If the MS does not receive Immediate Assignment or Immediate Assignment Extend messages, it retransmits Channel Request messages at a specified interval. If the downlink quality is poor, the MS may send SABM frames to the BTS multiple times. NO
NO
SET GCELLCCBASIC(Optional)
Level of common access control, used for load control, allowing or forbidding the access of some users of common access levels
NO
NO
SET GCELLCCBASIC(Optional)
This parameter is used for load control. It determines whether the users of special access class are allowed to access the network. Value 1 indicates that access is not allowed. Value 0 indicates that access is allowed. NO
NO
SET GCELLCCBASIC(Optional)
Whether to disable emergency calls. For the MSs of access levels 0 to 9, if the value of this parameter is NO, emergency calls are enabled. For the MSs of access levels 11 to 15, emergency calls are disabled only when the relevant access control bit is set to 0 and this parameter is set to YES.
NO
NO
SET GCELLCCBASIC(Optional)
Time for disconnecting a call when the MS fails to decode the SACCH. Once a dedicated channel is assigned to the MS, the counter S is enabled and the initial value is set to this parameter value. Each time an SACCH message is not decoded, the counter S decreases by 1. Each time an SACCH message is correctly decoded, the counter S increases by 2. When the counter S is equal to 0, the downlink radio link is considered as failed. Therefore, when the voice or data quality is degraded to an unacceptable situation and it cannot be improved through power control or channel handover, the connection is to be reestablished or released. NO
NO
SET GCELLCCBASIC(Optional)
The early classmark sending control (ECSC) parameter specifies whether the MSs in a cell use early classmark sending. After a successful immediate assignment, the MS sends additional classmark information to the network as early as possible. The additional classmark information mainly contains the CM3 (classmark 3) information. The CM3 (classmark 3) information contains the frequency band support capability of the MS (used for the future channel assignment), power information about each frequency band supported by the MS (used for the handover between different frequency bands), and encryption capability of the MS. NO
NO
SET GCELLCCBASIC(Optional)
Used for requesting the MS to report the measurement information of neighboring cells in multiple frequency bands. This parameter is carried in the system information 2ter and 5ter. NO
NO
SET GCELLCCBASIC(Optional)
Whether to allow the reassignment function
NO
NO
SET GCELLCCBASIC(Optional)
Whether to allow the function of enhanced multilevel precedence and preemption (eMLPP). With the eMLPP function enabled, the network can use different policies such as queuing, preemption, or directed retry based on the priorities of different calls when network resources are occupied. If this parameter is set to YES, when preemption occurs, the MS with the lowest priority initiates a handover, and the MS with a higher priority seizes the idle channel after a handover. If this parameter is set to NO, an MS with a lower priority releases the channel, the MS with a higher priority seizes the idle channel after the release. The eMLPP has up to seven priorities: A, B, 0, 1, 2, 3, and 4. The two highest priorities A and B are internally reserved for local use only. Priorities 0 to 4 can be subscribed by MSs for global use. With the support of the MSC, HLR, and mobile terminal (containing a SIM card), the eMLPP function can be perfectly implemented. NO
NO
SET GCELLCCBASIC(Optional)
When the cell supports Repeated Downlink FACCH, the BTS enables the repeated transmission of FACCH frames if the measured downlink quality is higher than "Repeated Downlink FACCH Threshold".
NO
NO
SET GCELLCCBASIC(Optional)
If the cell supports the Repeated Downlink FACCH function and the measured downlink quality is lower than the downlink quality threshold, the BTS enables the repeated transmission of FACCH frames.
NO
NO
SET GCELLCCBASIC(Optional)
When the cell supports Repeated Downlink SACCH, the BTS enables the repeated transmission of SACCH frames if the measured downlink quality is higher than the downlink quality threshold. NO
NO
SET GCELLCCBASIC(Optional)
This parameter specifies whether the access control function is enabled in a cell. When the function is enabled, the BSC determines which MSs in the cell to be connected to the network by sending the ACC classes through system messages according to the specified policy in Access Control Policy.
NO
NO
SET This parameter specifies the index of the access GCELLCCBASIC(Mandatory) control policy that is used in a cell. NO
YES
SET GCELLCCCH(Mandatory)
Type of an index.
NO
YES
SET GCELLCCCH(Mandatory)
Index of a cell, uniquely identifying a cell in a BSC.
YES
YES
SET GCELLCCCH(Mandatory)
Name of a cell. This parameter uniquely identifies a cell in a BSC. Cell names cannot contain the following invalid characters: ,;="' In addition, cell names cannot contain two or more consecutive %, two or more consecutive spaces, or more than two consecutive +.
NO
YES
Interval for sending the radio resource indication messages. The TRX reports the interference level for each of the channels that have been idle for the whole measurement period. This parameter is used by a BTS to inform the BSC of the interference levels on idle channels of a TRX. For details, see GSM Rec. 08.58 and SET GCELLCCCH(Optional) 08.08. NO
NO
Time interval for sending overload messages, used for the BTS to notify the BSC of the load over a specific CCCH timeslot. See GSM Rec. SET GCELLCCCH(Optional) 0508.
NO
NO
This parameter is used by the BTS to inform the BSC of the load on a CCCH timeslot, that is, the load of the access requests on the RACH and the load of all the messages (such as paging messages and packet immediate assignment messages) on the PCH. For details, see GSM Rec. 08.58. If the load on a CCCH timeslot exceeds the value of this parameter, the BTS periodically sends the CCCH overload message to the BSC. The interval for sending the CCCH overload message is "CCCH Load Indication SET GCELLCCCH(Optional) Period". NO
NO
Interval for the BTS transmitting overload messages to the BSC. This parameter is used to control the reporting frequency of overload messages by the channel and TRX. The overload can be the TRX processor overload, downlink CCCH overload, or AGCH SET GCELLCCCH(Optional) overload. For details, see GSM Rec. 08.58. NO
NO
Number of RACH burst timeslots in a RACH load measurement. The value of this parameter indicates the interval during which the BSC determines whether an RACH timeslot is busy. For details, see GSM SET GCELLCCCH(Optional) Rec. 08.58. NO
NO
Whether to permit Abis flow control. The flow control function helps in better call management. If congestion occurs, the system lightens its load by rejecting some services or prolonging the time for service requests. The Abis flow control is used to lighten the system SET GCELLCCCH(Optional) load caused by Abis flows.
NO
NO
Whether an MS uses the calculated value as the final receive level value. The calculated receive level value is the measured receive level value minus the receive level value obtained from the BCCH TRX timeslots. This parameter is a cell SET GCELLCCCH(Optional) option in system messages 3 and 6. NO
NO
Maximum transmit power level of MSs. As one of the cell reselection parameters in system message 3, this parameter is used to control the transmit power of MSs. For details, see GSM Rec. 05.05. In a GSM900 cell, the maximum power control level of an MS ranges from 0 to 19, corresponding respectively to the following values (unit: dBm): 43, 41, 39, 37, 35, 33, 31, 29, 27, 25, 23, 21, 19, 17, 15, 13, 11, 9, 7, and 5.Generally, the maximum transmit power supported by an MS is level 5 (corresponding to 33 dBm). The minimum transmit power supported by an MS is level 19 (corresponding to 5 dBm). Other transmit power levels are reserved for high-power MSs. In a GSM1800 or GSM1900 cell, the maximum power control level of an MS ranges from 0 to 31, corresponding respectively to the following values (unit: dBm): 30, 28, 26, 24, 22, 20, 18, 16, 14, 12, 10, 8, 6, 4, 2, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 36, 34, and 32. Generally, the maximum transmit power supported by an MS is level 0 (corresponding to 30 dBm). The minimum transmit power supported by an MS is level 15 (corresponding to 0 dBm). Other transmit power SET GCELLCCCH(Optional) levels are reserved for high-power MSs. NO
NO
This parameter determines whether the BSC supports new establishment causes of an MS in the initial access request. This parameter does SET GCELLCCCH(Optional) not affect the half-rate function of cells. NO
NO
SET GCELLCCTMR(Mandatory)
Type of an index.
NO
YES
SET GCELLCCTMR(Mandatory)
Index of a cell, uniquely identifying a cell in a BSC.
YES
YES
SET GCELLCCTMR(Mandatory)
Name of a cell. This parameter uniquely identifies a cell in a BSC. Cell names cannot contain the following invalid characters: ,;="' In addition, cell names cannot contain two or more consecutive %, two or more consecutive spaces, or more than two consecutive +.
NO
YES
SET GCELLCCTMR(Optional)
This parameter specifies the timeout value of timer T200 used for the SDCCH over the Um interface. T200 prevents the data link layer from deadlock during data transmission. The data link layer transforms the physical link that is vulnerable to errors into a sequential non-error data link. The entities at the two ends of this data link use the acknowledgement retransmission mechanism. Each message must be confirmed by the peer end. In unknown cases, both ends are waiting if a message is lost. At this time, the deadlock of the system occurs. Therefore, the transmit end must establish a timer. When the timer expires, the transmit end regards that the receive end does not receive the message and then the transmit end retransmits the message. The number of retransmissions is determined by N200. T200 and the N200 ensure that the data link layer sequentially transmits data and that the transmission is free from errors. NO
NO
SET GCELLCCTMR(Optional)
This parameter specifies the expiry value of timer T200 used for the FACCH/TCHF over the Um interface. For the function of timer T200 and the effect of the parameter, see the description of "T200 SDCCH". NO
NO
SET GCELLCCTMR(Optional)
This parameter specifies the expiry value of timer T200 used for the FACCH/TCHH over the Um interface. For the function of timer T200 and the effect of the parameter, see the description of "T200 SDCCH". NO
NO
SET GCELLCCTMR(Optional)
This parameter specifies the expiry value of timer T200 used for the SACCH over the Um interface when the TCH supports SAPI0 services. For the function of timer T200 and the effect of the parameter, see the description of "T200 SDCCH".
NO
NO
SET GCELLCCTMR(Optional)
This parameter specifies the expiry value of timer T200 used for the SACCH over the Um interface when the TCH supports SAPI3 services. For the function of timer T200 and the effect of the parameter, see the description of "T200 SDCCH".
NO
NO
SET GCELLCCTMR(Optional)
This parameter specifies the expiry value of timer T200 used for the SACCH on the SDCCH. For the function of timer T200 and the effect of the parameter, see the description of "T200 SDCCH". NO
NO
SET GCELLCCTMR(Optional)
This parameter specifies the expiry value of timer T200 when the SDCCH supports SAPI3 services. For the function of timer T200 and the effect of the parameter, see the description of "T200 SDCCH".
NO
NO
SET GCELLCCTMR(Optional)
Whether the BSC sends the LAPDm N200 parameter to the BTS. If this parameter is set to YES, the BSC sends the LAPDm N200 parameter. If this parameter is set to NO, the BSC does not send the LAPDm N200 parameter. NO
NO
SET GCELLCCTMR(Optional)
Error control is performed on the I frame sent over the LAPDm layer between the BTS and MS. If the MS detects errors in an I frame, the BTS should resend the I frame. This parameter indicates the maximum number of retransmissions of the I frame. For the function of N200 and the effect of the parameter, see the description of "T200 SDCCH". NO
NO
SET GCELLCCTMR(Optional)
Error control is performed on the I frame sent over the LAPDm layer between the BTS and MS. If the MS detects errors in an I frame, the BTS should resend the I frame. This parameter indicates the maximum number of retransmissions of the I frame during the multiframe release. For the function of N200 and the effect of the parameter, see the description of "T200 SDCCH". NO
NO
SET GCELLCCTMR(Optional)
Error control is performed on the I frame sent over the LAPDm layer between the BTS and MS. If the MS detects errors in an I frame, the BTS should resend the I frame. This parameter indicates the maximum number of retransmissions of the I frame on the SACCH. For the function of N200 and the effect of the parameter, see the description of "T200 SDCCH". NO
NO
SET GCELLCCTMR(Optional)
Error control is performed on the I frame sent over the LAPDm layer between the BTS and MS. If the MS detects errors in an I frame, the BTS should resend the I frame. This parameter indicates the maximum number of retransmissions of the I frame on the SDCCH. For the function of N200 and the effect of the parameter, see the description of "T200 SDCCH". NO
NO
SET GCELLCCTMR(Optional)
Error control is performed on the I frame sent over the LAPDm layer between the BTS and MS. If the MS detects errors in an I frame, the BTS should resend the I frame. This parameter indicates the maximum number of retransmissions of the I frame on the FACCH (a half-rate channel). For the function of N200 and the effect of the parameter, see the description of "T200 SDCCH". NO
NO
SET GCELLCCTMR(Optional)
Error control is performed on the I frame sent over the LAPDm layer between the BTS and MS. If the MS detects errors in an I frame, the BTS should resend the I frame. This parameter indicates the maximum number of retransmissions of the I frame on the FACCH (a full-rate channel). For the function of N200 and the effect of the parameter, see the description of "T200 SDCCH". NO
NO
SET GCELLCCTMR(Optional)
Whether the BSC sends immediate assignment retransmission parameters to the BTS NO
NO
SET GCELLCCTMR(Optional)
Maximum time delay in resending an immediate assignment message. Within the period specified by this parameter, an immediate assignment message can be dispatched and retransmitted. Otherwise, the message is not dispatched or retransmitted. NO
NO
Maximum number of retransmissions of an immediate assignment message. When the value of this parameter is reached, the immediate assignment message is not retransmitted even if the value of "Max Delay of Imm_Ass Retransmit" is not exceeded.
NO
NO
NO
YES
YES
YES
NO
YES
SET GCELLCCTMR(Optional) SET GCELLCCUTRANSYS(Mand atory) Type of an index. SET GCELLCCUTRANSYS(Mand Index of a cell, uniquely identifying a cell in a atory) BSC.
Name of a cell. This parameter uniquely identifies a cell in a BSC. Cell names cannot contain the following invalid characters: ,;="' SET In addition, cell names cannot contain two or GCELLCCUTRANSYS(Mand more consecutive %, two or more consecutive atory) spaces, or more than two consecutive +.
SET Protocol version of the MSC that is connected to GCELLCCUTRANSYS(Optio the BSC. The supported signaling varies with the nal) protocol versions. NO
NO
SET GCELLCCUTRANSYS(Optio Type of the measurement report (MR) reported nal) by the MS
NO
NO
Number of neighboring cells that meet the following conditions: If "MBR" is indicated in a system message, the MS reports the number of neighboring cells at each frequency band. If the MS reports the number of neighboring cells at the same frequency band of the serving cell, it can report a maximum of the value of this parameter. These neighboring cells must meet the following requirements: 1. The receive levels of the neighboring cells must be higher than "900 Reporting Threshold" or "1800 Reporting Threshold". 2. The BSIC of a neighboring cell must be valid. SET 3. The signals of the neighboring cells must be GCELLCCUTRANSYS(Optio the strongest among all the neighboring cells at nal) the same frequency band. NO
NO
This parameter specifies the level threshold for cell reselection in idle mode. In idle mode, if the signal level of the serving cell is below [0, 7] or above [8, 15], the MS starts to search for 3G cells. For example, if this parameter is set to 5 and if the signal level of the serving cell is lower than 5, the MS starts to search for 3G cells; if this parameter is set to 10 and if the signal level of the serving cell is above 10, then the MS starts to search for 3G cells. The values of this parameter correspond to the following decibel values: 0: -98 dBm 1: -94 dBm 2: -90 dBm 3: -86 dBm 4: -82 dBm 5: -78 dBm 6: -74 dBm 7: (always), that is, the MS keeps searching for 3G cells 8: -78 dBm 9: -74 dBm 10: -70 dBm 11: -66 dBm 12: -62 dBm 13: -58 dBm SET 14: -54 dBm GCELLCCUTRANSYS(Optio 15: Positive infinity (never), that is, the MS does nal) not search for 3G cells. NO
NO
SET This parameter specifies the threshold of the GCELLCCUTRANSYS(Optio signal level for cell reselection in connection nal) mode before ""Qsearch C"" is obtained.
NO
NO
This parameter specifies one of the thresholds of the signal level for 3G cell reselection. A FDD cell becomes a candidate cell if all the following conditions are met for five consecutive seconds: 1.Receive level of the FDD cell > Average receive level of the current serving cell + "FDD Q offset"; The FDD cell meets the following condition in the case of any neighboring 2G cell: Receive level of the FDD cell > Receive level of any neighboring 2G cell + "FDD Q offset"; 2. Ec/No of the FDD cell > "FDD Qmin" - "FDD Qmin Offset"; 3. Receive level of the FDD cell > "RSCP Threshold"; If multiple FDD cells meet the preceding conditions, the MS reselects the cell with the strongest receive level. See 3GPP TSs 45.008 and 25.304. The values of this parameter correspond to the following decibel values: 0: - (always select a cell if acceptable) 1: -28 dB, SET 2: -24 dB, GCELLCCUTRANSYS(Optio ... nal) 15: 28 dB. NO
NO
Minimum level threshold of UTRAN cell reselection. During the cell reselection decision from a GSM cell to a FDD cell, this parameter is used to calculate the RSCP threshold of the target cell. A FDD cell becomes a candidate cell if all the following conditions are met for five consecutive seconds: 1.Receive level of the FDD cell > Average receive level of the current serving cell + "FDD Q offset"; The FDD cell meets the following condition in the case of any neighboring 2G cell: Receive level of the FDD cell > Receive level of any neighboring 2G cell + "FDD Q offset"; 2. Ec/No of the FDD cell > "FDD Qmin" - "FDD Qmin Offset"; 3. Receive level of the FDD cell > "RSCP Threshold"; If multiple FDD cells meet the preceding conditions, the MS reselects the cell with the strongest receive level. See 3GPP TSs 45.008 and 25.304. The values of this parameter correspond to the following decibel values: 0 = -114 dBm, 1 = -112 dBm, 2 = -110 dBm, SET ... GCELLCCUTRANSYS(Optio 14 = -86 dBm, nal) 15 = -84 dBm. NO
This parameter specifies whether Ec/No or RSCP is used for the measurement report on a SET FDD cell. Ec/No stands for the signal-to-noise GCELLCCUTRANSYS(Optio ratio. RSCP stands for the received signal code nal) power. SET GCELLCCUTRANSYS(Optio Number of UTRAN FDD cells that should be nal) included in measurement report
NO
NO
NO
NO
NO
This parameter specifies one of the parameters for FDD cell reselection. A FDD cell becomes a candidate cell if all the following conditions are met for five consecutive seconds: 1.Receive level of the FDD cell > Average receive level of the current serving cell + "FDD Q offset"; The FDD cell meets the following condition in the case of any neighboring 2G cell: Receive level of the FDD cell > Receive level of any neighboring 2G cell + "FDD Q offset"; 2. Ec/No of the FDD cell > "FDD Qmin" - "FDD Qmin Offset"; 3. Receive level of the FDD cell > "RSCP Threshold"; If multiple FDD cells meet the preceding conditions, the MS reselects the cell with the strongest receive level. See 3GPP TSs 45.008 and 25.304. The values of this parameter correspond to the following decibel values: 0: -20 dB, 1: -6 dB, 2: -18 dB, 3: -8 dB, 4: -16 dB, SET 5: -10 dB, GCELLCCUTRANSYS(Optio 6: -14 dB, nal) 7: -12 dB. NO
NO
Offset of the minimum threshold for Ec/No during a FDD cell reselection. A FDD cell becomes a candidate cell if all the following conditions are met for five consecutive seconds: 1.Receive level of the FDD cell > Average receive level of the current serving cell + "FDD Q offset"; The FDD cell meets the following condition in the case of any neighboring 2G cell: Receive level of the FDD cell > Receive level of any neighboring 2G cell + "FDD Q offset"; 2. Ec/No of the FDD cell > "FDD Qmin" - "FDD Qmin Offset"; 3. Receive level of the FDD cell > "RSCP Threshold"; If multiple FDD cells meet the preceding SET conditions, the MS reselects the cell with the GCELLCCUTRANSYS(Optio strongest receive level. nal) See 3GPP TSs 45.008 and 25.304. NO This parameter specifies one threshold of the signal level for cell reselection in packet transfer mode. In packet transfer mode, if the signal level of the serving cell is below [0, 7] or above [8, 15], the MS starts to search for 3G cells. For example, if this parameter is set to 5 and if the signal level of the serving cell is lower than 5, the MS starts to search for 3G cells; if this parameter is set to 10 and if the signal level of the serving cell is above 10, then the MS starts to search for 3G cells. The values of this parameter correspond to the following decibel values: 0: -98 dBm 1: -94 dBm ... 6: -74 dBm 7: (always) 8: -78 dBm 9: -74 dBm SET ... GCELLCCUTRANSYS(Optio 14: -54 dBm nal) 15: Positive infinity (never) NO SET GCELLCCUTRANSYS(Optio Whether to allow the MS to search for a 3G cell nal) when the BSIC must be decoded NO
NO
NO
NO
Whether a measurement report can contain the SET information about a cell with an invalid BSIC. GCELLCCUTRANSYS(Optio The cell with an invalid BSIC is an unconfigured nal) neighboring cell.
NO
NO
This parameter indicates that when the MS reports the EMR, it adds the value of this parameter to the received signal level, and then converts the result into the RXLEV value. For details, see GSM Rec. 05.08. If the SCALE_Order reported by the MS is 10 dBm, level values 0-63 map with -100 dBm to 37 dBm. If the SCALE_Order reported by the MS is 0 dBm, level values 0-63 map with -110 dBm to 47 dBm. If the SCALE_Order reported by the MS is SET Automatic, the MS chooses the least SCALE GCELLCCUTRANSYS(Optio while ensuring that the MS can report the most nal) strongest.
NO
NO
In connection mode, if the signal level is below [07] or above [8-15], the MS starts to search for 3G cells. For example, if this parameter is set to 5 and if the signal level of the serving cell is lower than 5, the MS starts to search for 3G cells; if this parameter is set to 10 and if the signal level of the serving cell is above 10, then the MS starts to search for 3G cells. 0: -98 dBm 1: -94 dBm ... 6: -74 dBm 7: (always) 8: -78 dBm 9: -74 dBm SET ... GCELLCCUTRANSYS(Optio 14: -54 dBm nal) 15: Positive infinity (never) NO
NO
Offset applied to the receive level of a GSM900 cell in the measurement report before prioritizing cells by frequency bands. Before cells are sequenced by priority, according to frequencies, the value of this parameter must be added to the receive level value in the measurement report of the cells at the 900 MHz frequency. The values of this parameter correspond to the following decibel values: 0: 0 dB SET 1: 6 dB GCELLCCUTRANSYS(Optio ... nal) 7: 42 dB NO
NO
Threshold of the measurement report of the cells at the 900 MHz frequency. The measurement report is valid only when the receive level in the measurement report of the GSM900 cell exceeds this threshold. After being filtered, the measurement report is used for prioritizing the cells. The value 7 means infinite: 0: 0 dB 1: 6 dB SET ... GCELLCCUTRANSYS(Optio 6: 36 dB nal) 7: positive infinity NO
NO
Offset of the measurement report of the cells at the 1800 MHz frequency. Before cells are sequenced by priority, according to frequencies, the value of this parameter must be added to the receive level value in the measurement report about the cells at the 1800 MHz frequency. The values of this parameter correspond to the following decibel values: 0: 0 dB SET 1: 6 dB GCELLCCUTRANSYS(Optio ... nal) 7: 42 dB NO
NO
Threshold of the measurement report of the cells at the 1800 MHz frequency. When the receive level value in the measurement report of the cells at the 1800 MHz frequency exceeds the value of this parameter, the report takes effect. After being filtered, the measurement report is used for priority sequencing of cells. The values of this parameter correspond to the following decibel values: 0: 0 dB 1: 6 dB SET ... GCELLCCUTRANSYS(Optio 6: 36 dB nal) 7: positive infinity NO
NO
Offset of a FDD cell report. When the priority of a 3G cell is sequenced, the value of this parameter be added to the receive level of the 3G cell in the measurement report. The values of this parameter correspond to the following decibel values: 0: 0 dB SET 1: 6 dB GCELLCCUTRANSYS(Optio ... nal) 7: 42 dB
NO
NO
Threshold of a FDD cell report. When the receive level value in the measurement report of a 3G cell exceeds the value of this parameter, the measurement report takes effect. After the valid measurement report is filtered, the 3G cell joins the cell priority sequence. The values of this parameter correspond to the following decibel values: 0: 0 dB 1: 6 dB SET ... GCELLCCUTRANSYS(Optio 6: 36 dB nal) 7: positive infinity NO
NO
A TDD cell can become a candidate cell only when the average receive level of the TDD cell is greater than the TDD Cell Reselect Diversity of the serving cell. The value of this parameter corresponds to the following decibel value: 0: negative infinity 1: -28 dB SET 2: -24 dB GCELLCCUTRANSYS(Optio ... nal) 15: 28 dB NO
NO
SET GCELLCCUTRANSYS(Optio Number of UTRAN TDD cells that should be nal) included in measurement report
NO
NO
When the priority of a TDD cell is ranked, the value of this parameter is added to the receive level of the TDD cell in the measurement report. The values of this parameter correspond to the following decibel values: 0: 0 dB SET 1: 6 dB GCELLCCUTRANSYS(Optio ... nal) 7: 42 dB NO
NO
Threshold for determining whether the MR about a TDD cell is valid. The measurement report is valid if the receive level of the TDD cell in the measurement report is greater than the value of this parameter. After the valid measurement report is filtered, the TDD cell joins in the cell prioritization. The value of this parameter corresponds to the following decibel value: 0: 0 dB 1: 6 dB SET ... GCELLCCUTRANSYS(Optio 6: 36 dB nal) 7: positive infinity NO
NO
This parameter specifies whether to optimize the system information 2Quater and MI of the TDD neighboring cell. That is, to add an FDD SET neighboring cell information before the TDD GCELLCCUTRANSYS(Optio neighboring cell information to solve the nal) compatibility problem of some dual-mode MSs. NO
NO
This parameter specifies whether to send the system information MI which contains the 3G neighboring cell information in the TDD SET neighboring cell. The value YES(YES) indicates GCELLCCUTRANSYS(Optio that the MI is sent, and the value NO(NO) nal) indicates that the MI is not sent.
NO
NO
This parameter specifies whether the TDD MI system information optimized function is enabled. When this parameter is set to NO and "TDD System Information Optimized Allowed" is set to YES, the MI system information issued in the TDD scenario does not carry neighboring cell SET scrambling codes. In other scenarios, the MI GCELLCCUTRANSYS(Optio system information carries neighboring cell nal) scrambling codes. NO
NO
SET Whether to transmit the 2Quater message on GCELLCCUTRANSYS(Optio the BCCH Norm channel or the BCCH Ext nal) channel
NO
NO
SET GCELLCHMGAD(Mandatory) Type of an index.
NO
YES
SET Index of a cell, uniquely identifying a cell in a GCELLCHMGAD(Mandatory) BSC.
YES
YES
Name of a cell. This parameter uniquely identifies a cell in a BSC. Cell names cannot contain the following invalid characters: ,;="' In addition, cell names cannot contain two or SET more consecutive %, two or more consecutive GCELLCHMGAD(Mandatory) spaces, or more than two consecutive +.
NO
YES
SET GCELLCHMGAD(Optional)
If the current channel seizure ratio reaches or exceeds this value, the half-rate TCH is assigned preferentially; otherwise, the full-rate TCH is assigned preferentially.
NO
NO
SET GCELLCHMGAD(Optional)
Whether to consider interference priorities during channel assignment NO
NO
SET GCELLCHMGAD(Optional)
Whether to measure the channel interference during channel assignment. If this parameter is set to NO, the BSC does not measure the channel interference or send an interference indication during channel assignment. If this parameter is set to YES, the BSC measures the channel interference during channel assignment. NO
NO
SET GCELLCHMGAD(Optional)
This parameter specifies whether the TRX priority is considered during channel assignment. When the parameter is set to YES, the smaller the parameter "TRX Priority" in the command "SET GTRXDEV" is, the higher priority the TRX is. Under other conditions, channels are preferentially allocated from high-priority TRXs. NO
NO
SET GCELLCHMGAD(Optional)
Whether to consider history priority records during channel assignment. If this parameter is set to YES, the history priority records are considered. If this parameter is set to NO, the history priority records are not considered. NO
NO
SET GCELLCHMGAD(Optional)
If this parameter is set to YES, the channel assignment algorithm II randomly selects the start range for channel traversal; otherwise, the algorithm selects the channel next to the channel assigned last time as the start point of channel traversal. NO
NO
SET GCELLCHMGAD(Optional)
One of the thresholds to determine whether the uplink interference exists. If the uplink level is not smaller than "Interf.of UL Level Threshold" and the uplink quality of the channel is not less than "Interf.of UL Qual. Threshold", the uplink interference exists. NO
NO
SET GCELLCHMGAD(Optional)
One of the thresholds to determine whether the uplink interference exists. If the uplink level is not smaller than "Interf.of UL Level Threshold" and the uplink quality of the channel is not less than "Interf.of UL Qual. Threshold", the uplink interference exists. NO
NO
SET GCELLCHMGAD(Optional)
Threshold for determining whether downlink interference exists. If the downlink level is equal to or greater than "Interf.of DL Level Threshold" and the downlink quality level is equal to or greater than "Interf.of DL Qual.Threshold", downlink interference exists. The value range 0 to 63 is mapped to the range -110 dBm to -47 dBm. NO
NO
SET GCELLCHMGAD(Optional)
Threshold for determining whether downlink interference exists. If the downlink level is equal to or greater than "Interf.of DL Level Threshold" and the downlink quality level is equal to or greater than "Interf.of DL Qual.Threshold", downlink interference exists. NO
NO
SET GCELLCHMGAD(Optional)
When the network receives measurement reports, the measurement values in several straight measurement reports are filtered to reflect the radio operating environment for the sake of accuracy. This parameter specifies the number of successive measurement reports that are used to determine the signal strength on traffic/data channels. NO
NO
SET GCELLCHMGAD(Optional)
For the purpose of accurately reflecting the radio environment of a network, filtering is performed on the measured values in several consecutive measurement reports. This parameter indicates the number of measurement reports used for the filtering of the signal quality on service or data channels. This parameter is used to determine whether interferences exist on channels. NO
NO
SET GCELLCHMGAD(Optional)
When the network receives measurement reports, the measurement values in several straight measurement reports are filtered to reflect the radio operating environment for the sake of accuracy. The parameter specifies the number of successive measurement reports that are used to determine the signal strength on signaling channel. NO
NO
SET GCELLCHMGAD(Optional)
For the purpose of accurately reflecting the radio environment of a network, filtering is performed on the measured values in several consecutive measurement reports. This parameter indicates the number of measurement reports used for the filtering of the signal quality on signaling channels. This parameter is used to determine whether interferences exist on channels. NO
NO
SET GCELLCHMGAD(Optional)
Whether to enable the BSC to assign AMR half rate channels preferentially according to the channel types allowed by the MSC and the current TCH seizure ratio of the cell
NO
NO
SET GCELLCHMGAD(Optional)
Load threshold for assigning half rate channels preferentially. If the current TCH seizure ratio of the cell is greater than this threshold, AMR half rate channels are assigned preferentially.
NO
NO
SET GCELLCHMGAD(Optional)
The BSC assigns channels in the overlaid subcell to the MS in a concentric cell. If the channel seizure ratio of overlaid subcell is greater than the value of this parameter, halfrate channels are assigned. Otherwise, full-rate channels are assigned. Channel seizure ratio = (Num. of busy TCHF + Num. of busy TCHH/2)/(Num. of available TCHF + Num. of available TCHH /2) x 100%. This parameter is valid for the concentric cell. When the "Allow Rate Selection Based on Overlaid/Underlaid Subcell Load" is set to Yes, the "TCH Traffic Busy Threshold (%)" is invalid for the concentric cell. NO
NO
SET GCELLCHMGAD(Optional)
Threshold for determining that the underlaid subcell is busy. The BSC assigns channels in the underlaid subcell to the MS in a concentric cell. When "Allow Rate Selection Based on Overlaid/Underlaid Subcell Load" is set to YES, half-rate channels are assigned if the channel seizure ratio in the underlaid subcell exceeds the value of this parameter, and full-rate channels are assigned if the channel seizure ratio in the underlaid subcell does not exceed the value of this parameter. NO
NO
SET GCELLCHMGAD(Optional)
Whether to enable the BSC to assign half or full rate channels to MSs according to the channel seizure ratio in the overlaid and underlaid subcells NO
NO
SET GCELLCHMGAD(Optional)
After the existing uplink receive level, uplink receive level after the previous optimization, and the value of this parameter are weight-averaged, the uplink receive level after the optimization at this time is obtained and used for determining the difference between the uplink receive levels. NO
NO
SET GCELLCHMGAD(Optional)
If the difference between uplink receive levels of calls within the same timeslot is greater than "Offset of the difference between uplink received levels" for P seconds among N seconds, the call with weak uplink receive level within the timeslot will be handed over to another timeslot. This parameter corresponds to P in the P/N criterion. NO
NO
SET GCELLCHMGAD(Optional)
If the difference between uplink receive levels of calls within the same timeslot is greater than "Offset of the difference between uplink received levels" for P seconds among N seconds, the call with weak uplink receive level within the timeslot will be handed over to another timeslot. This parameter corresponds to N in the P/N criterion. NO
NO
SET GCELLCHMGAD(Optional)
Whether to use the statistical multiplexing algorithm for multi-density power
NO
NO
SET GCELLCHMGAD(Optional)
If the MCPA Optimization Switch is turned on, the MCPA priority update mode is adjusted.
NO
NO
SET GCELLCHMGAD(Optional)
The P/N criteria is used to determine low downlink power for multi-density carriers. If the downlink power of a multi-density carrier remains low during a consecutive P seconds out of N seconds, the downlink power of the multi-density carrier is considered low. This parameter corresponds to the N in the P/N criteria. NO
NO
SET GCELLCHMGAD(Optional)
The P/N criteria is used to determine low downlink power for multi-density carriers. If the downlink power of a multi-density carrier remains low during a consecutive P seconds out of N seconds, the downlink power of the multi-density carrier is considered low. This parameter corresponds to the P in the P/N criteria. NO
NO
SET GCELLCHMGAD(Optional)
When this parameter is set to YES, The BSC preferentially uses the TRX with good powersaving performance according to the TRX power priority reported by the BTS. Smaller priority value indicates better power saving quality. If the priority is of a great value, the BTS closes TRXs late. NO
NO
SET GCELLCHMGAD(Optional)
During channel assignment, the assignment of channels on the BCCH TRXs depends on the uplink receive level, quality, and non-BCCH load. The TCHs are preferentially assigned on the BCCH TRXs if the following conditions are met: 1. The uplink receive level after filtering is higher than "Level Thresh. for Assigning Main BCCH Carrier Channel Under TIGHT BCCH". 2. The uplink receive quality level after filtering is lower than "Quality Thresh. for Assigning Main BCCH Carrier Channel Under TIGHT BCCH". 3. The non-BCCH load is higher than "Intracell Non Main BCCH Load Threshold of TIGHT BCCH". NO
NO
SET GCELLCHMGAD(Optional)
During channel assignment, the assignment of channels on the BCCH TRXs depends on the uplink receive level, quality, and non-BCCH load. The TCHs are preferentially assigned on the BCCH TRXs if the following conditions are met: 1. The uplink receive level after filtering is higher than "Level Thresh. for Assigning Main BCCH Carrier Channel Under TIGHT BCCH". 2. The uplink receive quality level after filtering is lower than "Quality Thresh. for Assigning Main BCCH Carrier Channel Under TIGHT BCCH". 3. The non-BCCH load is higher than "Intracell Non Main BCCH Load Threshold of TIGHT BCCH". NO
NO
SET GCELLCHMGAD(Optional)
Whether to allow a multi-density TRX board, that uses the dynamic power sharing algorithm to assign channels, to assign a channel to an MS when the remaining power on the multi-density TRX board is less than the power required by the MS. If this parameter is set to YES, a multidensity TRX board that uses the dynamic power sharing algorithm to assign channels cannot assign a channel to an MS when the remaining power on the multi-density TRX board is less than the power required by the MS.If this parameter is set to NO, a multi-density TRX board that uses the dynamic power sharing algorithm to assign channels can assign a channel to an MS when the remaining power on the multi-density TRX board is less than the power required by the MS. NO
NO
SET GCELLCHMGAD(Optional)
Threshold for load sharing in the 900 MHz frequency band. Assume that an MS supports multiple sub-bands in the 900 MHz frequency band. If the cell load is equal to or less than this threshold, the BSC does not consider the priority levels of the P-GSM, E-GSM, and R-GSM subbands during channel assignment. If the cell load is greater than this threshold, the BSC assigns channels according to the priority levels of the PGSM, E-GSM, and R-GSM sub-bands. That is, if the MS supports the P-GSM, E-GSM, and RGSM sub-bands and the cell is configured with the TRXs in the P-GSM, E-GSM, and R-GSM sub-bands, the BSC assigns the channels in the TRXs of the R-GSM sub-band preferentially. NO
NO
SET GCELLCHMGAD(Optional)
Whether to preferentially allocate loose multiplexing frequencies to non-AMR users
NO
NO
SET GCELLCHMGAD(Optional)
Whether to enable the IBCA algorithm
NO
NO
SET GCELLCHMGAD(Optional)
Whether a single IBCA MS can dynamically measure the neighboring cells. When this parameter is set to YES, the neighboring cells where "IBCA Dynamic Measure Neighbor Cell Flag" is set to YES are dynamically measured. Dynamic measurement on neighboring cells is mutually exclusive to directed retry. When this parameter is set to YES, it is recommended that "Direct Retry" be set to NO. NO
NO
SET GCELLCHMGAD(Optional)
Whether to enable the IBCA algorithm for the overlay and underlay of an IUO cell
NO
NO
SET GCELLCHMGAD(Optional)
Whether to deny the access of a call when none of the MAIO evaluation results meets the C/I ratio requirement of the call during channel assignment NO
NO
SET GCELLCHMGAD(Optional)
Minimum C/I ratio that IBCA FR/EFR services allow. An idle channel can be assigned to such a service only when the C/I ratio of the idle channel is greater than this threshold. In addition, a new call associated with such a service can be established only when the call does not decrease the C/I ratio of the established calls to a value less than this threshold. NO
NO
SET GCELLCHMGAD(Optional)
Minimum C/I ratio that IBCA HR services allow. An idle channel can be assigned to such a service only when the C/I ratio of the idle channel is greater than this threshold. In addition, a new call associated with such a service can be established only when the call does not decrease the C/I ratio of the established calls to a value less than this threshold. NO
NO
SET GCELLCHMGAD(Optional)
Minimum C/I ratio that IBCA AMR FR services allow. An idle channel can be assigned to such a service only when the C/I ratio of the idle channel is greater than this threshold. In addition, a new call associated with such a service can be established only when the call does not decrease the C/I ratio of the established calls to a value less than this threshold. NO
NO
SET GCELLCHMGAD(Optional)
Minimum C/I ratio that IBCA AMR HR services allow. An idle channel can be assigned to such a service only when the C/I ratio of the idle channel is greater than this threshold. In addition, a new call associated with such a service can be established only when the call does not decrease the C/I ratio of the established calls to a value less than this threshold. NO
NO
SET GCELLCHMGAD(Optional)
The lowest C/I ratio that can be tolerated by IBCA WAMR FR. The C/I ratio of an idle channel must be larger than this parameter. Otherwise, it cannot be assigned. In addition, the system does not allow a newly-established call causing the C/I ratio of existing calls to be lower than this parameter. NO
NO
SET GCELLCHMGAD(Optional)
MSs that support SAIC can tolerate a lower carrier-to-interference ratio. This variable indicates the downward adjustment step of the soft blocking threshold of SAIC MSs.
NO
NO
SET GCELLCHMGAD(Optional)
The IBCA interference evaluation process only considers the interference of the strongest N existing calls on the newly-established call being evaluated. This parameter corresponds to the above-mentioned N. NO
NO
SET GCELLCHMGAD(Optional)
Difference between uplink and downlink path losses, which is used to estimate the downlink path loss of a call when the downlink path loss cannot be computed directly according to a measurement report. This parameter is configured according to the combined loss and hierarchical dual-antenna gain (3 dB) of the BTS. "IBCA Downlink Path Loss Offset" = combined loss of BTS + hierarchical dual-antenna gain of BTS (3 dB) NO
NO
SET GCELLCHMGAD(Optional)
In an IUO cell (or a CoBCCH cell), the path loss of an MS to the serving cell or a neighboring cell measured on the underlay is used together with this parameter to estimate the path loss on the overlay. IUO path loss compensation = Combiner insert loss difference + Path loss difference due to the use of different antennas + Path loss difference due to different frequency selectivity. This value is calculated based on the IUO level values measured by field engineers. When different antennas are used by the overlay and underlay, the level must be measured at multiple locations. NO
NO
SET GCELLCHMGAD(Optional)
Use this parameter when the path loss of an MS to serving cells cannot be measured based on the existing measurement results NO
NO
SET GCELLCHMGAD(Optional)
When the path loss of an MS to a neighboring cell cannot be measured based on the existing measurement results, it is estimated based on the path loss of the MS to the serving cell plus the IBCA path loss offset.
NO
NO
SET GCELLCHMGAD(Optional)
Number of measurement reports sampled for averaging path loss. A single measurement report may not reflect the actual network situations accurately. Therefore, the BSC needs to average the measured values in several successive measurement reports to reflect the radio environment. NO
NO
SET GCELLCHMGAD(Optional)
When the load of an SDCCH on the TRX that is in loose frequency reuse and is in the compatible band of the BCCH is lower than this threshold, the SDCCH is preferably allocated. NO
NO
SET GCELLCHMGAD(Optional)
If the SDCCH load on the TRXs of the compatible BCCH in loose frequency reuse pattern is greater than the "IBCA Loose Trx SDCCH Load Threshold", and when the uplink receive level from the MS to the BTS is greater than the threshold, the SDCCHs on the TRXs of the compatible non-BCCH are preferentially assigned. Otherwise, the SDCCHs on the TRXs of the compatible BCCH are preferentially assigned. NO
NO
SET GCELLCHMGAD(Optional)
When the dynamic PDCH needs to use MAIO of the SDCCH, the SDCCH is not allowed to be assigned to new calls within the value of the parameter. After the timer expires, check whether the SDCCH is idle. If the SDCCH is idle, MAIO of the SDCCH is allowed to be preempted. If the channel is not idle, the MAIO is not allowed to be preempted. NO
NO
SET GCELLCHMGAD(Optional)
Whether to enable the ICDM algorithm for the cell. The ICDM algorithm helps to improve the precision in estimating the path loss of an IBCA neighbor cell and to increase the efficiency of the IBCA algorithm. NO
NO
SET GCELLCHMGAD(Optional)
Considers the influence of history path loss information during the calculation of the ICDM algorithm path loss. The smaller the filtering coefficient, the smaller the influence of history path loss; on the other hand, the larger the filtering coefficient, the larger the influence of history path loss.
NO
NO
SET GCELLCHMGAD(Optional)
Estimates the receive level of the unmeasured IBCA neighboring cells. When a consecutive "IBCA Non Measurement Ncell Stat. Num" measurement reports cover less than six neighboring cells (or the number of the reported neighboring cells is smaller than that of the actually configured neighboring cells), this parameter is used to estimate the receive level of the unmeasured IBCA neighboring cells. The estimated value is "IBCA Pathloss Est of Non. MR Ncell". Otherwise, the signal strength of the unmeasured IBCA neighboring cells is the signal strength of the measured neighboring cells (including non-IBCA neighboring cells) subtracted by "IBCA RxLev Offset". NO
NO
SET GCELLCHMGAD(Optional)
Estimates the receive level of the unmeasured IBCA neighboring cells. When a consecutive "IBCA Non Measurement Ncell Stat. Num" measurement reports cover less than six neighboring cells (or the number of the reported neighboring cells is smaller than that of the actually configured neighboring cells), this parameter is used to estimate the receive level of the unmeasured IBCA neighboring cells. The estimated value is "IBCA Pathloss Est of Non. MR Ncell". Otherwise, the signal strength of the unmeasured IBCA neighboring cells is the signal strength of the measured neighboring cells (including non-IBCA neighboring cells) subtracted by "IBCA RxLev Offset". NO
NO
SET GCELLCHMGAD(Optional)
Determines the MAIO selection method for each timeslot. The Optimal MAIO policy selects the optimal MAIO being evaluated, while the Random MAIO policy randomly selects a MAIO out of qualified MAIOs. NO
NO
SET GCELLCHMGAD(Optional)
Whether a MAIO meets the access requirement. When the C/I ratio of a MAIO is higher than this threshold, the MAIO can be assigned to the call being processed. NO
NO
SET GCELLCHMGAD(Optional)
Adds a specified offset to the downlink target receive level when power control algorithm III is used to calculate the initial transmit power of a BTS in the IBCA function
NO
NO
SET GCELLCHMGAD(Optional)
Adds a specified offset to the uplink target receive level when power control algorithm III is used to calculate the initial transmit power of an MS in the IBCA function
NO
NO
SET GCELLCHMGAD(Optional)
Adds a specified offset to the downlink target receive quality when power control algorithm III is used to calculate the initial transmit power of a BTS in the IBCA function NO
NO
SET GCELLCHMGAD(Optional)
Adds a specified offset to the uplink target receive quality when power control algorithm III is used to calculate the initial transmit power of an MS in the IBCA function
NO
NO
SET GCELLCHMGAD(Optional)
Whether to assign overlay channels in an IUO cell based on the receive level conditions
NO
NO
SET GCELLCHMGAD(Optional)
Offset relative to the level threshold for determining whether to assign a channel in the overlaid subcell
NO
NO
SET GCELLCHMGAD(Optional)
If the cell is an enhanced concentric cell, this parameter with the current downlink received signal level and "UtoO HO Received Level Threshold" determines whether to assign a channel in the underlaid subcell to the intra-BSC incoming handover to the concentric cell or intraBSC inter-cell handover. If the cell is an ordinary concentric cell, this parameter with the current downlink received signal level, "RX_LEV Threshold", and "RX_LEV Hysteresis" determines whether to assign a channel in the underlaid subcell to the intra-BSC incoming handover to the concentric cell or intraBSC inter-cell handover. NO
NO
SET GCELLCHMGAD(Optional)
Whether the handover of the calls on the single channels is allowed (single channels are the two half-rate sub-channels on a timeslot, in which only one is in the occupied state) when single channels are to be adjusted to a full-rate channel. When this parameter is set to ON, the handover of the calls on the single channels is allowed; if this parameter is set to OFF, the handover of the calls on the single channels is not allowed. This parameter is valid only when the IBCA algorithm is enabled and full rate is preferred for the newly established call. NO
NO
SET GCELLCHMGAD(Optional)
Whether the IBCA forced BTS synchronization is allowed. When this parameter is set to YES, the synchronization procedure is performed even though the BTSs are out-of-synchronization. When this parameter is set to NO, the existing procedure, either the synchronization procedure or the out-of-synchronization procedure, is performed as required. Note that the synchronization status of the IBCA neighboring cells is determined by the internal software parameters of the IBCA neighboring cells, that is, if this parameter in IBCA neighboring cells is set to YES, the IBCA neighboring cells are considered to be always synchronous; otherwise, the IBCA neighboring cells are considered to be out of synchronization. NO
NO
SET GCELLCHMGAD(Optional)
Whether the IBCA flexible TSC function is enabled. When this parameter is set to NO, the flexible TSC function is disabled and the configured TSC is used. When the BTS supports Flex TSC and this parameter is set to YES, the flexible TSC function is enabled. NO
NO
SET GCELLCHMGAD(Optional)
Length of the timer for a new call to wait for the measurement report (MR) on the signaling channel when dynamic measurement of the BA2 list is enabled during assignment. If this parameter is set to 0, dynamic measurement of the BA2 list is not enabled during assignment. NO
NO
SET GCELLCHMGAD(Optional)
Length of the timer for a call to measure the path loss in the neighboring cell with strong interference of the target cell. The call to be handed over needs to measure the path loss before initiating the handover to the target cell when dynamic measurement of the BA2 list is enabled during the normal handover. When this parameter is set to 0, dynamic measurement of the BA2 list is not enabled in the normal handover, and the parameter "Wait Time for Valid MRs in IBCA HO" is invalid. NO
NO
SET GCELLCHMGAD(Optional)
Length of the timer for a call to measure the path loss in the neighboring cell with strong interference of the target cell. The call to be handed over needs to measure the path loss before initiating the handover to the target cell when dynamic measurement of the BA2 list is enabled during the emergency handover. When this parameter is set to 0, dynamic measurement of the BA2 list is not enabled in the emergency handover, and the parameter "Wait Time for Valid MRs in IBCA HO" is invalid. NO
NO
SET GCELLCHMGAD(Optional)
Length of the timer for a call to wait for other valid MRs after receiving the first valid MR of the target cell if dynamic measurement of the BA2 list is enabled during handover. When this parameter is set to 0, the call does not wait for other MRs after receiving the first MR of the target cell. NO
NO
SET GCELLCHMGAD(Optional)
This parameter specifies the estimated carrier-tointerference ratio of a new call. It is used for the Huawei power control algorithm III to calculate the power of the call. NO
NO
SET GCELLCHMGAD(Optional)
When the IBCA algorithm is enabled, this parameter is used to calculate the target CIR of a new call. The formula is as follows: Target CIR of a new call = Target CIR in use + Target CIR Offset of IBCA New Call NO
NO
SET GCELLCHMGAD(Optional)
When the IBCA algorithm is enabled and the HSN is not 0, the IBCA priority and the SDCCH/PDCH priority are divided by this corrected factor respectively to reduce the weight of IBCA priority. In addition, the priority of the interference band is considered. NO
NO
SET GCELLCHMGAD(Optional)
When the IBCA algorithm is enabled, this parameter is used to calculate the target CIR of an existing call. The formula is as follows: Target CIR of an existing call = Target CIR in use + Target CIR Offset of IBCA Set-Up Call. NO
NO
SET GCELLCHMGAD(Optional)
When the IBCA algorithm is enabled, this parameter is used to calculate the actual soft blocking threshold of an existing call. The formula is as follows: Actual soft blocking threshold of an existing call = Configured soft blocking threshold of an existing call - IBCA Setup Call Soft Block Threshold Offset. NO
NO
SET GCELLCHMGAD(Optional)
In the ICDM matrix algorithm, the signal strength (0-63) is divided into 10 levels. The signal strength that is smaller than or equal to the value of this parameter is at the initial level. NO
NO
SET GCELLCHMGAD(Optional)
Power of each passage on the MRRU in the cell. When multiple operators are configured on an MRRU, the parameter specifies the power of each operator on the MRRU. NO
NO
SET GCELLCHMGAD(Optional)
If the number of idle TCHs on the BCCH TRX is smaller than the threshold value, some calls on the BCCH TRX need to be handed over to nonBCCH TRXs. In this way, idle TCHs are available on the BCCH TRX and can be preferentially allocated to the calls handed over to the IBCA cells during the incoming BSC handover. NO
NO
SET GCELLCHMGAD(Optional)
The parameter equals soft block threshold of the target channel in a handover minus soft block threshold of the corresponding service. To achieve a high success rate of both the assignment and the handover, ensure that the assignment of the channel for the MS in the handover satisfies the following equation. Soft block threshold of the target channel = Soft block threshold of the corresponding service + Handover soft block threshold offset. NO
NO
SET GCELLCHMGAD(Optional)
This parameter specifies whether the dynamic PDCHs that have been converted into the PDCHs are considered during the calculation of the current cell load.
NO
NO
SET GCELLCHMGBASIC(Mandat ory) Type of an index. SET GCELLCHMGBASIC(Mandat Index of a cell, uniquely identifying a cell in a ory) BSC.
NO
YES
YES
YES
Name of a cell. This parameter uniquely identifies a cell in a BSC. Cell names cannot contain the following invalid characters: ,;="' SET In addition, cell names cannot contain two or GCELLCHMGBASIC(Mandat more consecutive %, two or more consecutive ory) spaces, or more than two consecutive +.
NO
YES
When the number of idle SDCCH channels in a SET cell is smaller than or equal to this parameter, GCELLCHMGBASIC(Optiona the system searches for available TCHs and l) transforms them into SDCCH channels.
NO
NO
Maximum number of SDCCHs in the cell. Before converting a TCH into an SDCCH, the BSC compares the number of SDCCHs after the conversion in the cell with "Cell SDCCH Channel Maximum". If the number of SDCCHs after the SET conversion in the cell exceeds this parameter, GCELLCHMGBASIC(Optiona the BSC does not convert the TCH into an l) SDCCH. NO
NO
SET GCELLCHMGBASIC(Optiona l) SET GCELLCHMGBASIC(Optiona l)
Minimum time required for a TCH to transform to a SDCCH and then transform back to a TCH NO
NO
Whether to allow hierarchical access and to reserve resources for high-priority MSs
NO
NO
Maximum priority level of an MS that can use reserved channel resources. If the priority level of an MS is greater than this parameter, the MS SET is considered a low-priority MS. If the priority of GCELLCHMGBASIC(Optiona an MS is equal to or less than this threshold, the l) MS is considered a high-priority MS. NO
NO
While assigning channels, the BSC ensures that the sum of the number of channels occupied by high-priority users and the number of idle channels reserved for high-priority users is no smaller than this parameter. Every time the BSC assigns channels to a user whose priority is lower than "Highest Priority", it checks whether the sum of the number of channels occupied by users of "Highest Priority" and the number of idle channels is larger than the number of the SET reserved channels. If yes, the BSC normally GCELLCHMGBASIC(Optiona assigns channels for the user; if not, the BSC l) does not assign a TCHF. NO
NO
Whether to enable the cell to centralize two busy half rate TCHs in different timeslots into one SET timeslot through handover and then to combine GCELLCHMGBASIC(Optiona the two idle half rate TCHs in the other timeslot l) into one full rate TCH dynamically NO
NO
SET GCELLCHMGBASIC(Optiona Whether to enable the BCCH aggressive l) frequency reuse algorithm
NO
NO
SET GCELLCHMGBASIC(Optiona Whether to enable the cell to support dynamic l) transmit diversity or dynamic PBT
NO
NO
Channel assignment priority of the cell If this parameter is set to CAPABILITY, the factors are listed as follows in a descending order of priority: capacity factors, quality factors, PS cooperation factors, and management factors. If this parameter is set to QUALITY, the factors are listed as follows in a descending order of priority: quality factors, capacity factors, PS cooperation factors, and management factors. If this parameter is set to PSRELATIVELY, the factors are listed as follows in a descending order of priority: capacity factors, PS cooperation factors, quality factors, and management factors. If this parameter is set to PSABSOLUTELY, the SET factors are listed as follows in a descending GCELLCHMGBASIC(Optiona order of priority: PS cooperation factors, capacity l) factors, quality factors, and management factors. NO
NO
SET GCELLCHMGBASIC(Optiona Whether to enable the priority-based channel l) assignment algorithm
NO
NO
Full rate TCHs are assigned preferentially to the SET MSs with priority levels equal to or less than this GCELLCHMGBASIC(Optiona threshold, except when the MSs request only l) half or full rate TCHs. NO
NO
Maximum ratio of the number of half rate channels to the total number of channels in a cell. When the resource allocation principle is determined by the BSC, no half rate channel can be further assigned if the ratio of the number of half rate channels to the total number of channels in the cell is greater than or equal to the value of this parameter. When the resource allocation principle is not determined by the BSC, radio resource allocation does not depend SET on the setting of this parameter. GCELLCHMGBASIC(Optiona Total number of channels = number of half rate l) channels + number of full rate channels x 2 NO
NO
Maximum ratio of the number of AMR half rate channels to the total number of channels in a cell. When the resource allocation principle is determined by the BSC, no AMR half rate channel can be further assigned if the ratio of the number of AMR half rate channels to the total number of channels in the cell is greater than or equal to the value of this parameter. When the resource allocation principle is not determined by the BSC, radio resource allocation does not SET depend on the setting of this parameter. GCELLCHMGBASIC(Optiona Total number of channels = number of half rate l) channels + number of full rate channels x 2 NO
NO
SET GCELLCHMGBASIC(Optiona Maximum number of TCH channels reserved for l) emergency call users NO
NO
Whether to allow an MS to report the classmark and whether to hand over the MS from the SET SDCCH in the frequency band for the main GCELLCHMGBASIC(Optiona BCCH to the SDCCH in a different frequency l) band according to the classmark NO
NO
If this parameter is set to ON, the BSC assigns the channels in the TRXs of the cell in a polling manner. Therefore, each TRX has an even SET chance to be used. In this way, the connection GCELLCHMGBASIC(Optiona between the TRX and the RF can be checked l) without manual dialing tests.
NO
NO
SET GCELLDYNTURNOFF(Mand atory) Type of an index. SET GCELLDYNTURNOFF(Mand Index of a cell, uniquely identifying a cell in a atory) BSC. Name of a cell. This parameter uniquely identifies a cell in a BSC. Cell names cannot contain the following invalid characters: ,;="' SET In addition, cell names cannot contain two or GCELLDYNTURNOFF(Mand more consecutive %, two or more consecutive atory) spaces, or more than two consecutive +.
NO
YES
YES
YES
NO
YES
This parameter specifies whether to enable the Dynamic Cell Power Off feature. When this parameter is set to ENABLE, the BSC can disable the cell within the period of time specified by "TURNOFFCELLSTRTIME" and "TURNOFFCELLSTPTIME"; When this parameter is set to DISABLE, the BSC will never disable the cell; When this parameter is set to SLEEP, the BSC will disable the cell unconditionally within "TURNOFFCELLSTRTIME" and "TURNOFFCELLSTPTIME",and enable the cell unconditionally within the other time.Currently, SET this parameter can be set to SLEEPING only for GCELLDYNTURNOFF(Mand the BTS3900E. For other base stations, this atory) parameter cannot be set to SLEEPING. NO SET GCELLDYNTURNOFF(Mand atory) Index type used when the command is executed NO SET GCELLDYNTURNOFF(Mand Index of a cell with the same coverage as the atory) current cell NO SET GCELLDYNTURNOFF(Mand atory) Name of the same coverage cell NO
YES
YES
YES
YES
SET GCELLDYNTURNOFF(Optio nal) SET GCELLDYNTURNOFF(Optio nal)
A cell that can be disabled is allowed to be disabled only when the load of the same coverage cell is lower than this threshold for a period. When the load of the same coverage cell is higher than this threshold for a period, the disabled cell is enabled.
NO
NO
NO
NO
NO
NO
This parameter specifies a period of time during which a cell cannot be enabled or disabled to prevent frequent cell enabling or disabling operations. That is, after a cell is enabled, it cannot be disabled within the period of time SET specified by this parameter; after a cell is GCELLDYNTURNOFF(Optio disabled, it cannot be enabled within the period nal) of time specified by this parameter. NO
NO
The BSC6900 checks the load of the same coverage cell of the target cell once a minute. When the number of times in which the load of the same coverage cell is lower than "Same SET Coverage Cell Load Threshold" is equal to the GCELLDYNTURNOFF(Optio value of this parameter, the target cell is nal) disabled.
NO
If the number of channels (including PDCH and SET TCH) occupied on a cell that can be disabled is GCELLDYNTURNOFF(Optio lower than this threshold, the procedure for nal) disabling the cell can be triggered.
NO
SET GCELLDYNTURNOFF(Optio This parameter specifies the start time of a nal) period during which the cell is disabled.
NO
NO
SET GCELLDYNTURNOFF(Optio This parameter specifies the end time of a nal) period during which the cell is disabled.
NO
NO
SET GCELLEGPRSPARA(Mandat ory) SET GCELLEGPRSPARA(Mandat ory)
Subscribers can specify the cell according to the index or the name. NO
YES
Index of a cell, uniquely identifying a cell in a BSC.
YES
YES
NO
YES
Name of a cell. This parameter uniquely identifies a cell in a BSC. Cell names cannot contain the following invalid characters: ,;="' SET In addition, cell names cannot contain two or GCELLEGPRSPARA(Mandat more consecutive %, two or more consecutive ory) spaces, or more than two consecutive +.
It is applicable to the radio transmission environment to improve the link quality. Link adaptation (LA) indicates adjusting the coding mode of the channel dynamically according to the transmission quality of the link. The link transmission quality is measured by the 8PSK MEAN BEP and 8PSK CV BEP in the Packet EGPRS Downlink Ack/Nack message sent by the MS. The network side determines the coding mode for data transmission according to the radio measurement report sent by the MS. The cell with the good transmission quality on the air interface is set to the LA mode. Increment redundancy (IR) mode requires the network side retransmit the data block with different punching codes and the MS store the historical error information. The data block is retransmitted through cooperated error correction function. With the IR mode, the transmission quality on the air interface of the cell can be improved. SET However, the MS must support this IR mode. GCELLEGPRSPARA(Option The cell with the dissatisfied transmission quality al) on the air interface is set to the LR mode. NO
NO
SET GCELLEGPRSPARA(Option Average period for sending the measurement al) report over the EGPRS channel
NO
NO
Coding scheme of the uplink EDGE link. If the uplink uses the fixed coding scheme, this parameter is set to a value ranging from MCS1 SET to MCS9. If the uplink uses the dynamic GCELLEGPRSPARA(Option adjustment coding scheme, this parameter is set al) to UNFIXED. NO
NO
Default coding scheme of the uplink EDGE link. If the uplink adopts the dynamic adjustment coding scheme, this parameter can be used to SET set the coding scheme for transmission during GCELLEGPRSPARA(Option initial access. If the uplink uses the fixed coding al) scheme, the TBF uses the fixed coding scheme. NO
NO
Coding scheme of the downlink EDGE link. If the downlink uses the fixed coding scheme, this parameter is set to a value ranging from MCS1 SET to MCS9. If the downlink uses the dynamic GCELLEGPRSPARA(Option adjustment coding scheme, this parameter is set al) to UNFIXED. NO
NO
Default coding scheme of the downlink EDGE link. If the downlink adopts the dynamic adjustment coding scheme, this parameter can be used to set the coding scheme for SET transmission during initial access. If the downlink GCELLEGPRSPARA(Option uses the fixed coding scheme, the TBF uses the al) fixed coding scheme. NO
NO
Fixed coding scheme that is used on the uplink EGPRS2-A link. If the uplink uses the fixed coding scheme, this parameter can be set to any SET one in MCS1-6 and UAS7-11. If the uplink uses GCELLEGPRSPARA(Option the dynamic coding scheme, this parameter can al) be set to UNFIXED. NO
NO
Default coding scheme used on the uplink EGPRS2-A link. If the uplink uses the dynamic coding scheme, this parameter specifies the coding scheme that is used for the transmission SET in initial access. If the uplink uses the fixed GCELLEGPRSPARA(Option coding scheme, the TBF uses the fixed coding al) scheme. NO
NO
Fixed coding scheme that is used on the downlink EGPRS2-A link. If the downlink uses the fixed coding scheme, this parameter can be SET set MSC1-4, MSC7-8 or DAS5-12.. If the GCELLEGPRSPARA(Option downlink uses the dynamic coding scheme, this al) parameter is set to UNFIXED.
NO
NO
Default coding scheme used on the downlink EGPRS2-A link. If the downlink uses the dynamic coding scheme, this parameter specifies the coding scheme that is used for the SET transmission in initial access. If the downlink GCELLEGPRSPARA(Option uses the fixed coding scheme, the TBF uses the al) fixed coding scheme. NO
NO
Mode of dynamically adjusting the EGPRS uplink encoding scheme. value 1 indicates that the uplink coding scheme is adjusted according to downlink quality measurements reported by MS; SET value 2 indicates that the uplink coding scheme GCELLEGPRSPARA(Option is adjusted according to uplink quality al) measurements reported by BTS. NO SET GCELLEXTMSRPARA(Mand atory) Type of an index. NO SET GCELLEXTMSRPARA(Mand Index of a cell, uniquely identifying a cell in a atory) BSC. YES
NO
YES
YES
Name of a cell. This parameter uniquely identifies a cell in a BSC. Cell names cannot contain the following invalid characters: ,;="' SET In addition, cell names cannot contain two or GCELLEXTMSRPARA(Mand more consecutive %, two or more consecutive atory) spaces, or more than two consecutive +.
NO
YES
SET GCELLEXTMSRPARA(Optio Whether the network requires an MS to send an nal) extension measurement report NO
NO
NCC bitmap of the measurement report sent by SET the MS. The MS reports only the NCC bitmap of GCELLEXTMSRPARA(Optio the BSIC and the cell measurement report that nal) matches the bitmap. NO
NO
SET Frequency index of the interference GCELLEXTMSRPARA(Optio measurement in type 3 of an extension nal) measurement report
NO
NO
Type of an extension measurement report. There are three types of extension measurement reports: type 1, type 2, and type 3. Type 1: No matter whether the BSIC was decoded, the MS sends the network a measurement report on the six strongest TRXs. The measurement report contains the received signal level and the decoded BSIC. Type 2: The MS sends the network a measurement report on the six strongest TRXs. For the six carriers, the BSIC must be decoded successfully and the NCC specified by NCC_PERMITTED is carried. The measurement report contains the received signal level and the decoded BSIC. Type 3: The MS does not need to decode the BSIC for the TRXs that the measurement report SET concerns. The measurement report contains the GCELLEXTMSRPARA(Optio received signal level and the interference nal) measurement of one of the concerned TRXs. NO
NO
SET GCELLEXTMSRPARA(Optio Time interval between two extension nal) measurement reports
NO
NO
ADD GCELLFREQ(Mandatory) RMV GCELLFREQ(Mandatory)
Type of an index.
NO
YES
ADD GCELLFREQ(Mandatory) RMV GCELLFREQ(Mandatory)
Index of a cell, uniquely identifying a cell in a BSC.
YES
YES
ADD GCELLFREQ(Mandatory) RMV GCELLFREQ(Mandatory)
Name of a cell. This parameter uniquely identifies a cell in a BSC. Cell names cannot contain the following invalid characters: ,;="' In addition, cell names cannot contain two or more consecutive %, two or more consecutive spaces, or more than two consecutive +.
NO
YES
NO
NO
ADD GCELLFREQ(Optional) RMV GCELLFREQ(Optional) Frequency 1
ADD GCELLFREQ(Optional) RMV GCELLFREQ(Optional) Frequency 2
NO
NO
ADD GCELLFREQ(Optional) RMV GCELLFREQ(Optional) Frequency 3
NO
NO
ADD GCELLFREQ(Optional) RMV GCELLFREQ(Optional) Frequency 4
NO
NO
ADD GCELLFREQ(Optional) RMV GCELLFREQ(Optional) Frequency 5
NO
NO
ADD GCELLFREQ(Optional) RMV GCELLFREQ(Optional) Frequency 6
NO
NO
ADD GCELLFREQ(Optional) RMV GCELLFREQ(Optional) Frequency 7
NO
NO
ADD GCELLFREQ(Optional) RMV GCELLFREQ(Optional) Frequency 8
NO
NO
ADD GCELLFREQ(Optional) RMV GCELLFREQ(Optional) Frequency 9
NO
NO
ADD GCELLFREQ(Optional) RMV GCELLFREQ(Optional) Frequency 10
NO
NO
ADD GCELLFREQ(Optional) RMV GCELLFREQ(Optional) Frequency 11
NO
NO
ADD GCELLFREQ(Optional) RMV GCELLFREQ(Optional) Frequency 12
NO
NO
ADD GCELLFREQ(Optional) RMV GCELLFREQ(Optional) Frequency 13
NO
NO
ADD GCELLFREQ(Optional) RMV GCELLFREQ(Optional) Frequency 14
NO
NO
ADD GCELLFREQ(Optional) RMV GCELLFREQ(Optional) Frequency 15
NO
NO
ADD GCELLFREQ(Optional) RMV GCELLFREQ(Optional) Frequency 16
NO
NO
ADD GCELLFREQ(Optional) RMV GCELLFREQ(Optional) Frequency 17
NO
NO
ADD GCELLFREQ(Optional) RMV GCELLFREQ(Optional) Frequency 18
NO
NO
ADD GCELLFREQ(Optional) RMV GCELLFREQ(Optional) Frequency 19
NO
NO
ADD GCELLFREQ(Optional) RMV GCELLFREQ(Optional) Frequency 20
NO
NO
ADD GCELLFREQ(Optional) RMV GCELLFREQ(Optional) Frequency 21
NO
NO
ADD GCELLFREQ(Optional) RMV GCELLFREQ(Optional) Frequency 22
NO
NO
ADD GCELLFREQ(Optional) RMV GCELLFREQ(Optional) Frequency 23
NO
NO
ADD GCELLFREQ(Optional) RMV GCELLFREQ(Optional) Frequency 24
NO
NO
ADD GCELLFREQ(Optional) RMV GCELLFREQ(Optional) Frequency 25
NO
NO
ADD GCELLFREQ(Optional) RMV GCELLFREQ(Optional) Frequency 26
NO
NO
ADD GCELLFREQ(Optional) RMV GCELLFREQ(Optional) Frequency 27
NO
NO
ADD GCELLFREQ(Optional) RMV GCELLFREQ(Optional) Frequency 28
NO
NO
ADD GCELLFREQ(Optional) RMV GCELLFREQ(Optional) Frequency 29
NO
NO
ADD GCELLFREQ(Optional) RMV GCELLFREQ(Optional) Frequency 30
NO
NO
ADD GCELLFREQ(Optional) RMV GCELLFREQ(Optional) Frequency 31
NO
NO
ADD GCELLFREQ(Optional) RMV GCELLFREQ(Optional) Frequency 32
NO
NO
ADD GCELLFREQ(Optional) RMV GCELLFREQ(Optional) Frequency 33
NO
NO
ADD GCELLFREQ(Optional) RMV GCELLFREQ(Optional) Frequency 34
NO
NO
ADD GCELLFREQ(Optional) RMV GCELLFREQ(Optional) Frequency 35
NO
NO
ADD GCELLFREQ(Optional) RMV GCELLFREQ(Optional) Frequency 36
NO
NO
ADD GCELLFREQ(Optional) RMV GCELLFREQ(Optional) Frequency 37
NO
NO
ADD GCELLFREQ(Optional) RMV GCELLFREQ(Optional) Frequency 38
NO
NO
ADD GCELLFREQ(Optional) RMV GCELLFREQ(Optional) Frequency 39
NO
NO
ADD GCELLFREQ(Optional) RMV GCELLFREQ(Optional) Frequency 40
NO
NO
ADD GCELLFREQ(Optional) RMV GCELLFREQ(Optional) Frequency 41
NO
NO
ADD GCELLFREQ(Optional) RMV GCELLFREQ(Optional) Frequency 42
NO
NO
ADD GCELLFREQ(Optional) RMV GCELLFREQ(Optional) Frequency 43
NO
NO
ADD GCELLFREQ(Optional) RMV GCELLFREQ(Optional) Frequency 44
NO
NO
ADD GCELLFREQ(Optional) RMV GCELLFREQ(Optional) Frequency 45
NO
NO
ADD GCELLFREQ(Optional) RMV GCELLFREQ(Optional) Frequency 46
NO
NO
ADD GCELLFREQ(Optional) RMV GCELLFREQ(Optional) Frequency 47
NO
NO
ADD GCELLFREQ(Optional) RMV GCELLFREQ(Optional) Frequency 48
NO
NO
ADD GCELLFREQ(Optional) RMV GCELLFREQ(Optional) Frequency 49
NO
NO
ADD GCELLFREQ(Optional) RMV GCELLFREQ(Optional) Frequency 50
NO
NO
ADD GCELLFREQ(Optional) RMV GCELLFREQ(Optional) Frequency 51
NO
NO
ADD GCELLFREQ(Optional) RMV GCELLFREQ(Optional) Frequency 52
NO
NO
ADD GCELLFREQ(Optional) RMV GCELLFREQ(Optional) Frequency 53
NO
NO
ADD GCELLFREQ(Optional) RMV GCELLFREQ(Optional) Frequency 54
NO
NO
ADD GCELLFREQ(Optional) RMV GCELLFREQ(Optional) Frequency 55
NO
NO
ADD GCELLFREQ(Optional) RMV GCELLFREQ(Optional) Frequency 56
NO
NO
ADD GCELLFREQ(Optional) RMV GCELLFREQ(Optional) Frequency 57
NO
NO
ADD GCELLFREQ(Optional) RMV GCELLFREQ(Optional) Frequency 58
NO
NO
ADD GCELLFREQ(Optional) RMV GCELLFREQ(Optional) Frequency 59
NO
NO
ADD GCELLFREQ(Optional) RMV GCELLFREQ(Optional) Frequency 60
NO
NO
ADD GCELLFREQ(Optional) RMV GCELLFREQ(Optional) Frequency 61
NO
NO
ADD GCELLFREQ(Optional) RMV GCELLFREQ(Optional) Frequency 62
NO
NO
ADD GCELLFREQ(Optional) RMV GCELLFREQ(Optional) Frequency 63
NO
NO
Frequency 64
NO
NO
Index type of the BTS. BYNAME: query by BTS name; BYID: query by BTS index.
NO
YES
Index of a cell, uniquely identifying a cell in a BSC.
YES
YES
ADD GCELLFREQ(Optional) SET GCELLFREQSCAN(Mandato ry) SET GCELLFREQSCAN(Mandato ry)
Name of a cell. This parameter uniquely identifies a cell in a BSC. Cell names cannot contain the following invalid characters: ,;="' SET In addition, cell names cannot contain two or GCELLFREQSCAN(Mandato more consecutive %, two or more consecutive ry) spaces, or more than two consecutive +.
NO
YES
SET GCELLFREQSCAN(Optional) Start time of frequency scanning
NO
NO
SET GCELLFREQSCAN(Optional) Duration of frequency scanning
NO
NO
SET GCELLFREQSCAN(Optional) List of frequency bands
NO
NO
SET GCELLGPRS(Mandatory)
Subscribers can specify the cell according to the index or the name. NO
YES
SET GCELLGPRS(Mandatory)
Index of a cell, uniquely identifying a cell in a BSC.
YES
YES
SET GCELLGPRS(Mandatory)
Name of a cell. This parameter uniquely identifies a cell in a BSC. Cell names cannot contain the following invalid characters: ,;="' In addition, cell names cannot contain two or more consecutive %, two or more consecutive spaces, or more than two consecutive +.
NO
YES
SET GCELLGPRS(Mandatory)
Whether the current cell supports GPRS
NO
YES
SET GCELLGPRS(Optional) Whether the current cell supports EDGE
NO
NO
SET GCELLGPRS(Optional) Whether the current cell supports EGPRS2-A
NO
NO
SET GCELLGPRS(Mandatory)
NO
YES
Number of the PCU to which the current cell belongs
Whether to support the network assisted cell change (NACC). The NACC is used in the network control modes NC0, NC1 or NC2. The NACC enables the network to notify the MS of the system information of the neighboring cell when the MS is in the packet transmission state. In this way, the MS can reselect a cell in a SET GCELLGPRS(Optional) shorter time. NO
NO
Whether the cell supports the PACKET SI STATUS flow. In the PACKET SI STATUS flow, the MS sends the Packet PSI/SI Status message to indicate that the MS has stored the system message. The network side sends the Packet Serving Cell Data message to notify the MS of SET GCELLGPRS(Optional) the system message not stored. NO
NO
Whether to support the network control 2 (NC2). The NC2 enables the network side to control the cell reselection for the MS when the MS reports the measurement report of the local cell and the neighboring cell.When this parameter is set to "YES" and "Network Control Mode" in "SET GCELLPSBASE" is set to "NC2", the network SET GCELLGPRS(Optional) side can control the cell reselection for the MS. NO
NO
Whether the PCU of the cell supports the 64 neighboring cells. This parameter determines the capability of reporting the number of the neighboring cells of SET GCELLGPRS(Optional) the BSC in the NACC and NC2 function.
NO
NO
SET GCELLGPRS(Optional) Identifies the routing area of the current cell
NO
NO
Whether to support dual transfer mode (DTM). The DTM allows an MS to use the circuit switching service and the packet switching service at the same time. This function must be supported by the network side. If "Cell Extension Type" in the "ADD GCELL" command or "MOD GCELL" command is set to Double Timeslot Extension Cell for a cell, the SET GCELLGPRS(Optional) parameter cannot be set to "SUPPORT".
NO
NO
Whether to support the enhanced DTM function. Comparing to the DTM, the enhanced DTM improves the CS setup and release. During the CS service setup, the PS service is not SET GCELLGPRS(Optional) interrupted. NO
NO
Whether the cell supports the MS with the DTM SET GCELLGPRS(Optional) multi-timeslot capability of class 11
NO
NO
Whether the cell supports the MS with the DTM SET GCELLGPRS(Optional) multi-timeslot capability
NO
NO
SET GCELLGPRS(Optional) Whether the cell supports DLDC
NO
NO
Cell supports reduced latency capability. This parameter is used to reduce the latency during the transmission, thus improving the user SET GCELLGPRS(Optional) experience for conversational services.
NO
NO
Whether support Out Inter-RAT Inter-Cell PS Handover. The MS in the BSC local cell can be handed over to the UMTS cell through PS SET GCELLGPRS(Optional) handover algorithm.
NO
NO
Whether to support In Inter-RAT Inter-cell PS Handover. The MS in the UMTS cell can be handed over to the BSC local cell through PS SET GCELLGPRS(Optional) handover algorithm.
NO
NO
Whether to allow a PS handover from an LTE SET GCELLGPRS(Optional) cell to a GSM cell
NO
NO
Whether to allow a PS handover from a GSM SET GCELLGPRS(Optional) cell to an LTE cell
NO
NO
The parameter specifies whether the cell can identify the types of PS services. By identifying the types of PS services, the BSC can properly SET GCELLGPRS(Optional) manage radio resource.
NO
NO
SET GCELLGSMR(Mandatory)
Type of an index.
NO
YES
SET GCELLGSMR(Mandatory)
Index of a cell, uniquely identifying a cell in a BSC.
YES
YES
SET GCELLGSMR(Mandatory)
Name of a cell. This parameter uniquely identifies a cell in a BSC. Cell names cannot contain the following invalid characters: ,;="' In addition, cell names cannot contain two or more consecutive %, two or more consecutive spaces, or more than two consecutive +.
NO
YES
NO
NO
Number of blocks occupied by the NCH in the SET GCELLGSMR(Optional) group call service
Number of the start block occupied by the NCH SET GCELLGSMR(Optional) in the group call service
NO
NO
Whether to allow sending notification messages on the FACCH. If the value of this parameter is YES, an MS engaged in a point-to-point call can receive a notification message for a group call. You can interrupt the existing call and join the SET GCELLGSMR(Optional) group call. NO
NO
Whether to allow sending paging messages on the FACCH. If the value of this parameter is YES, an MS can receive a paging message on the group call channel. You can leave the group SET GCELLGSMR(Optional) call and respond to the paging message. NO
NO
Priority of the notification message transmission on the FACCH. From high to low, the priorities are A, B, 0, 1, 2, 3, 4 and No Priority. No Priority is the lowest. When the priority of the group call is higher than or equal to the value specified by this parameter, the notification message is sent SET GCELLGSMR(Optional) on the FACCH. NO
NO
Priority of the paging message transmission on the FACCH. From high to low, the priorities are A, B, 0, 1, 2, 3, 4 and No Priority. No Priority is the lowest. When the priority of the call is higher than the value specified by this parameter, the SET GCELLGSMR(Optional) paging message is sent on the FACCH. NO
NO
Number of times of the BSC resending downlink test messages after the downlink test function is enabled. If the BSC does not receive any response message from the MS at the preset interval, the BSC releases the relevant voice SET GCELLGSMR(Optional) group call service (VGCS) channel. NO
NO
SET GCELLGSMR(Optional) Interval for resending downlink test messages
NO
NO
Type of the DRX supporting the VGCS service. An MS reads the NCH only when a new notification message of group call arrives. This helps save power of the MS. This parameter is SET GCELLGSMR(Optional) mandatory for a SAGEM MS.
NO
NO
Interval of sending a paging message or notification message on the FACCH. Messages on the FACCH are sent in the mode of speech frame stealing. A large number of consecutive stolen speech frames may affect the voice quality and even lead to no voice. Therefore, the BTS must control the time interval of sending a paging or notification message on the FACCH for the purpose of reducing the impact on the SET GCELLGSMR(Optional) voice quality. NO
NO
Number of times the BTS resends a channel SET GCELLGSMR(Optional) release message
NO
NO
Time interval for the BTS resending a channel SET GCELLGSMR(Optional) release message
NO
NO
This parameter specifies the interval of broadcasting the speech data of the talker on the downlink group call channel that is controlled by the BTS. When the parameter is set to 0, the BTS (instead of the BSC) performs the SET GCELLGSMR(Optional) broadcasting with the default interval 5s. NO
NO
Timer for retransmitting the VGCS UPLINK SET GCELLGSMR(Optional) GRANT message
NO
NO
Number of retransmissions of the VGCS SET GCELLGSMR(Optional) UPLINK GRANT message
NO
NO
Whether direct preemption of the channels of other services is enabled for the VGCS service. If the value of this parameter is NO, a handover is performed for the call whose channel is preempted. If the value is YES, calls on the SET GCELLGSMR(Optional) preempted channel are directly released.
NO
NO
Whether the assignment of channels in overlaid subcells is enabled for the VGCS service in the case of underlaid subcell congestion. Generally, only the channels in underlaid subcells can be SET GCELLGSMR(Optional) assigned to the VGCS service. NO
NO
Used to identify the uplink access message from SET GCELLGSMR(Optional) the MS. The value 64 is invalid. NO
NO
Indicating whether the eMLPP function is enabled in a cell and indicating the eMLPP priority of the cell. From high to low, the priorities are A, B, 0, 1, 2, 3, 4 and No Priority. No Priority SET GCELLGSMR(Optional) is the lowest. NO
NO
This parameter is used to reserve a certain number of channels in a cell for the Voice Group Call Service (VGCS) to use directly. The specified channels are unavailable to public SET GCELLGSMR(Optional) network services. NO
NO
This parameter is used to limit the maximum number of channels that can be used by the VGCS in a cell. This prevents too many channels in the cell from being occupied by the VGCS and thus prevents public network services from being affected. When this parameter is set to 255, the SET GCELLGSMR(Optional) maximum number is not limited. NO
NO
This parameter specifies whether the preemption of channels between public network services and the VGCS is allowed when SET GCELLGSMR(Optional) preemption conditions are met. NO SET GCELLHO2GBA2(Mandatory ) Type of an index. NO SET GCELLHO2GBA2(Mandatory Index of a cell, uniquely identifying a cell in a ) BSC. YES
NO
YES
YES
Name of a cell. This parameter uniquely identifies a cell in a BSC. Cell names cannot contain the following invalid characters: ,;="' SET In addition, cell names cannot contain two or GCELLHO2GBA2(Mandatory more consecutive %, two or more consecutive ) spaces, or more than two consecutive +.
NO
YES
This parameter indicate whether to generate the 2G BA2 table automatically according to neighbor cell relations or to input the 2G BA2 table manually. Recording the BCCH SET frequencies of 2G neighbor cells that MSs can GCELLHO2GBA2(Mandatory measure in dedicated mode, the BA2 table is ) sent in System Information 5, 5bis, and 5ter. NO SET GCELLHO2GBA2(Mandatory ) Number of a row to be changed in a BA list NO SET GCELLHO2GBA2(Mandatory ) Used for parameter control NO
YES
YES
YES
BCCH frequency of a 2G neighbor cell that MSs can measure in dedicated mode. Recording the SET BCCH frequencies of 2G neighbor cells that MSs GCELLHO2GBA2(Mandatory can measure in dedicated mode, the BA2 table ) is sent in System Information 5, 5bis, and 5ter. NO
YES
SET GCELLHOAD(Mandatory)
Type of an index.
NO
YES
SET GCELLHOAD(Mandatory)
Index of a cell, uniquely identifying a cell in a BSC.
YES
YES
SET GCELLHOAD(Mandatory)
Name of a cell. This parameter uniquely identifies a cell in a BSC. Cell names cannot contain the following invalid characters: ,;="' In addition, cell names cannot contain two or more consecutive %, two or more consecutive spaces, or more than two consecutive +.
NO
YES
System flux thresholds correspond to the system flux obtained based on message packets, CPU load, and FID queuing load. The system flux level is the current flux control level of the system. 0-11: There are 12 flow control levels. Where, 0 indicates the lowest level and 11 indicates the highest level. A load handover is allowed only when the system flux is lower than the value of this parameter. The handover performed over the maximum threshold may have tremendous impacts on the system. Thus, this parameter should not be set to a higher value. 1) The flow control level algorithm for the assigned system messages: [(Average Message Usage - Inner Flow Control Discard Begin Threshold)/(Inner Flow Control Discard All Threshold - Inner Flow Control Discard Begin Threshold) x 100]/10+1 (round-down for division operation). If the value is smaller than Inner Flow Control Discard Begin Threshold, Level 0 is used. If the value is equal to or greater than Inner Flow Control Discard Begin Threshold, the level is calculated. The value range is from 0 to 11. 2) Flow control threshold for the CPU to start to discard the channel access messages and paging messages: 80% . Flow control threshold for the CPU to discard all channel access messages and paging SET GCELLHOAD(Optional) messages: 100% NO
NO
The load handover is triggered when the traffic load in a cell is greater than the value of this SET GCELLHOAD(Optional) parameter.
NO
NO
If the load of a cell is lower than the value of this parameter, the cell can admit the users handed over from other cells with higher load. Otherwise, SET GCELLHOAD(Optional) the cell rejects such users. NO
NO
In the handover algorithm of the first generation, load handovers can be performed only when the receive level of the current serving cell is in the range "Edge HO DL RX_LEV Threshold" to "Edge HO DL RX_LEV Threshold" + "Load HO Bandwidth". In the handover algorithm of the second generation, load handovers can be performed only when the level difference between the neighboring cell and the serving cell is between ("Inter-cell HO Hysteresis" - 64) - "Load HO SET GCELLHOAD(Optional) Bandwidth" and ("Inter-cell HO Hysteresis" - 64). NO
NO
When the load of a cell reaches or exceeds "Load HO Threshold", all the calls that are using this cell as the serving cell generate handover requests at the same time, which will suddenly increase the load of the processor. Under some circumstances, congestion occurs in the cell, which will result in call drop. To solve this problem, the BSC uses the hierarchical load handover algorithm to control the number of users included in each level of handovers. This parameter indicates the duration of each SET GCELLHOAD(Optional) handover level. NO
NO
In hierarchical load handovers, starting from "Edge HO DL RX_LEV Threshold", a "Load HO Step Level" is added to the upper handover threshold after every "Load HO Step Period". In this way, all the calls in the current serving cell whose receive level is in the range "Edge HO DL RX_LEV Threshold" to "Edge HO DL RX_LEV Threshold" + "Load HO Bandwidth" are switched SET GCELLHOAD(Optional) to other cells. NO
NO
This parameter is used in the P/N criteria decision: If an MS quickly passes through N out of P micro-cells lately, the BSC enables the fast moving micro-cell handover algorithm. This parameter corresponds to the N in the P/N SET GCELLHOAD(Optional) criteria.
NO
NO
This parameter is used in the P/N criteria decision: If an MS quickly passes through N out of P micro-cells lately, the BSC enables the fast moving micro-cell handover algorithm. This parameter corresponds to the P in the P/N SET GCELLHOAD(Optional) criteria.
NO
NO
A time threshold determined based on the radius of a cell and the moving speed of an MS. If the MS crosses the cell in a time period shorter than this threshold, the BSC concludes that the MS quickly passes through the cell. Otherwise, it SET GCELLHOAD(Optional) concludes that the MS slowly passes the cell. NO
NO
Number of consecutive intra-cell handovers allowed in a cell. When the interval between two intra-cell handovers is lower than a certain time threshold, these two intra-cell handovers are considered consecutive. When a certain number of intra-cell handovers occur consecutively, intracell handovers will be disallowed in the cell for a SET GCELLHOAD(Optional) certain period of time. NO
NO
Duration in which intra-cell handover is forbidden after the number of consecutive intra-cell handovers reaches the maximum. Intra-cell handover can be conducted again only after this SET GCELLHOAD(Optional) duration. NO
NO
The twice intra-cell handover events during this interval are considered consecutive handover SET GCELLHOAD(Optional) events.
NO
NO
Level value of the penalty that is performed on the neighboring cells of the cell where a fastmoving MS is located. The neighboring cells must be located at the Macro, Micro, or Pico SET GCELLHOAD(Optional) layer other than the Umbrella layer.
NO
NO
Period in which penalty is performed on the neighboring cells of the cell where a fast-moving MS is located. The neighboring cells must be located at the Macro, Micro, or Pico layer but not SET GCELLHOAD(Optional) the Umbrella layer. NO
NO
K offset used in K sequencing. To reduce pingpong handovers, the system performs K sorting based on the downlink receive level of the candidate cells. But before doing that, the system subtracts "K Bias" from the actual SET GCELLHOAD(Optional) downlink of the candidate cells. When an receive intra-celllevel TIGHT BCCH handover
NO
NO
needs to be performed (handover from the nonBCCH to BCCH), the downlink receive quality must be smaller than the value of this SET GCELLHOAD(Optional) parameter. NO
NO
During channel assignment, the assignment of channels on the BCCH TRXs depends on the uplink receive level, quality, and non-BCCH load. The TCHs are preferentially assigned on the BCCH TRXs if the following conditions are met: 1. The uplink receive level after filtering is higher than "Level Thresh. for Assigning Main BCCH Carrier Channel Under TIGHT BCCH". 2. The uplink receive quality level after filtering is lower than "Quality Thresh. for Assigning Main BCCH Carrier Channel Under TIGHT BCCH". 3. The non-BCCH load is higher than "Intracell Non Main BCCH Load Threshold of TIGHT SET GCELLHOAD(Optional) BCCH". NO
NO
Maximum times for a Physical Information message to be transmitted. When the retransmission times exceeds this parameter and the BTS still cannot receive any correct SAMB frame from the MS, the BTS sends a connection failure message (including the handover failure information) to the BSC, which releases the assigned channel and stops timer T3105 after receiving this message. In a non-synchronized handover, an MS keeps sending Handover Access Burst messages (usually, the value of timer T3124 is 320 ms) to the network. When detecting these messages, the BTS returns a Physical Information message to the MS through the main DCCH (FACCH) channel, starts timer T3105, and sends a MSG_ABIS_HO_DETECT message to the BSC. The BTS includes the information of different physical layers in the Physical Information message, thus ensuring correct traffic transmission for the MS. If the timer timeouts before a SAMB frame is received from the MS, the BTS retransmits the Physical Information message to the MS. SET GCELLHOAD(Optional) For details, see protocols 08.58 and 04.08. NO
NO
When the BTS sends physical information to the MS, the BTS starts the timer T3105.If the timer T3105 expires before the BTS receives the SAMB frame from MS, the BTS resends physical information to the MS and restarts the timer T3105. The maximum times for resending physical information is "Max Resend Times of Phy.Info.". For details, see GSM Rec. 04.08 and SET GCELLHOAD(Optional) 08.58. NO
NO
Whether to use external 2G neighboring cells as SET GCELLHOAD(Optional) the target cells of load handovers NO
NO
Whether a call must camp on the SDCCH for a specific duration before being assigned with a SET GCELLHOAD(Optional) traffic channel.
NO
NO
Duration for a call camping on the SDCCH SET GCELLHOAD(Optional) before being assigned with a traffic channel.
NO
NO
Switch for assigning the channel of a better cell SET GCELLHOAD(Optional) to the MS during MS access.
NO
NO
The maximum duration for the BSC to select the best cell according to MRs in the MS assigning procedure. The BSC assigns the channel of the serving cell to the MS if the best cell is not selected within the duration specified by this SET GCELLHOAD(Optional) parameter. NO
NO
Uplink quality level threshold for the MS to be SET GCELLHOAD(Optional) assigned with a channel of the better cell.
NO
NO
Threshold of downlink receive quality used in preferentially selecting a better cell during assignment. If the downlink quality of an MS is higher than this threshold, the MS preferentially selects the neighboring cell of higher quality SET GCELLHOAD(Optional) during assignment.
NO
NO
This parameter specifies whether to use the load SET GCELLHOAD(Optional) handover or the enhanced load handover. NO
NO
When the load of the serving cell reaches the threshold, the inter-layer handover algorithm takes effect. Through configuration of the parameter, the handover to a lower-layer cell for load-sharing is performed only when the load of SET GCELLHOAD(Optional) the serving cell reaches a certain level. NO
NO
This parameter specifies the ratio of the MSs that simultaneously perform a load handover. You can enlarge the ratio to accelerate the handover to a neighboring cell for load sharing. Too large a ratio, however, causes the neighboring cell to be congested. When a neighboring cell is congested, you need to SET GCELLHOAD(Optional) reduce the ratio to a reasonable value.
NO
NO
SET GCELLHOBASIC(Mandatory) Type of an index.
NO
YES
SET Index of a cell, uniquely identifying a cell in a GCELLHOBASIC(Mandatory) BSC.
YES
YES
Name of a cell. This parameter uniquely identifies a cell in a BSC. Cell names cannot contain the following invalid characters: ,;="' In addition, cell names cannot contain two or SET more consecutive %, two or more consecutive GCELLHOBASIC(Mandatory) spaces, or more than two consecutive +.
NO
YES
SET GCELLHOBASIC(Optional)
Whether to use handover algorithm generation 1 or 2 currently NO
NO
SET GCELLHOBASIC(Optional)
Whether to adjust the candidate cell queue to give priority to intra-BSC/MSC handover
NO
NO
SET GCELLHOBASIC(Optional)
Whether to enable a handover between signaling channels
NO
NO
SET GCELLHOBASIC(Optional)
This parameter specifies whether the intra-cell handover is enabled. Note: A forced intra-cell handover is not subject to this parameter.
NO
NO
SET GCELLHOBASIC(Optional)
Whether to allow AMR handovers. This parameter has no impact on dynamic non-AMR F-H handovers.
NO
NO
SET GCELLHOBASIC(Optional)
This parameter specifies whether a traffic loadsharing handover is enabled. The load handover helps to reduce cell congestion, improve success rate of channel assignment, and balance the traffic load among cells, thus improving the network performance. The load handover is used as an emergency measure instead of a primary measure to adjust abnormal traffic burst in partial areas. If load handovers occur frequently in a partial area, the cell and TRX configuration of BTSs and the network layout should be adjusted. NO
NO
SET GCELLHOBASIC(Optional)
Whether to enable the fast moving micro-cell handover algorithm. The fast moving micro-cell handover algorithm enables fast moving MSs to switch over to macro-cells, thus reducing the handover times. NO
NO
SET GCELLHOBASIC(Optional)
Whether to use the emergency handover algorithm in case the receive level of the MSs drops rapidly, thus preventing call drops.
NO
NO
SET GCELLHOBASIC(Optional)
Whether to use the PBGT handover algorithm. PBGT handovers are based on path loss. The PBGT handover algorithm searches in real time for cells that have lower path loss and meet certain system requirements, and decides whether to perform the handovers. To avoid pingpong handovers, PBGT handovers can occur only on TCHs and among cells on a same layer and a same priority level. NO
NO
SET GCELLHOBASIC(Optional)
Whether to allow inter-layer and inter-level handovers. The inter-layer and inter-level handover algorithm is achieved through the setting of different layers and priorities for cells, which switches traffic to cells of a higher precedence (decided by "Layer of the cell" and "Cell priority" together).
NO
NO
SET GCELLHOBASIC(Optional)
Whether to enable the edge handover algorithm. When an MS makes a call at the edge of a cell, the call may drop if the received signal level is too low. To avoid such a call drop, the edge handover algorithm is involved. When the uplink signal level of the serving cell is less than "Edge HO UL RX_LEV Threshold" or the downlink signal level of the serving cell is less than "Edge HO DL RX_LEV Threshold", the edge handover is triggered. NO
NO
SET GCELLHOBASIC(Optional)
Whether to enable the bad quality (BQ) handover algorithm. Whether to trigger BQ handover depends on the uplink and downlink transmit quality (measured by using BER). If the uplink or downlink BQ exceeds the BQ handover threshold, emergency BQ handover is triggered. The possible causes of BER increase (or quality degradation) include too low signal power and channel interference. NO
NO
SET GCELLHOBASIC(Optional)
Whether to enable the time advance (TA) handover. The TA handover determines whether the timing advance (TA) is higher than the predefined TA threshold. When the TA is higher than the predefined TA threshold, a TA handover is triggered. The TA is calculated based on the distance between the MS and the BTS. The longer the distance is, the greater the TA value is. NO
NO
SET GCELLHOBASIC(Optional)
Whether to enable the concentric cell handover algorithm. The concentric cell handover helps to achieve wide coverage in the underlaid subcell and aggressive frequency reuse in the overlaid subcell and to improve the system capacity and conversation quality. The concentric cell handover can be classified into two types: handover from the underlaid subcell to the overlaid subcell and handover from the overlaid subcell to the underlaid subcell. NO
NO
SET GCELLHOBASIC(Optional)
Whether to allow the interference handover algorithm. Interference handovers are triggered when the receive level is higher than the receive threshold while the transmit quality is lower than the interference handover quality threshold, that is, when the MSs are subject to all kinds of radio interferences. NO
NO
SET GCELLHOBASIC(Optional)
If the UL receive level remains lower than the "Edge HO UL RX_LEV Threshold" for a period, the edge handover is triggered.
NO
NO
SET GCELLHOBASIC(Optional)
Threshold for downlink edge handover. If the downlink receive level remains less than this threshold for a period of time, the edge handover is triggered. If the PBGT handover algorithm is enabled, this threshold can be decreased accordingly. If the PBGT handover algorithm is disabled, over-coverage, co-channel interference, and adjacent channel interference may occur when this threshold is set improperly. In addition, to ensure uplink-downlink balance, this threshold needs to be adjusted according to the handover performance statistics and actual network performance. NO
NO
SET GCELLHOBASIC(Optional)
According to the P/N rule, if the conditions for edge handover are met in P of N measurement reports, the handover is triggered. This parameter specifies the number N.
NO
NO
SET GCELLHOBASIC(Optional)
According to the P/N rule, if the conditions for edge handover are met in P of N measurement reports, the handover is triggered. This parameter specifies the number P.
NO
NO
SET GCELLHOBASIC(Optional)
The triggering of intra-cell F-H handovers must meet the P/N criteria, that is, when the condition for intra-cell F-H handovers is met for P seconds during N seconds, an intra-cell F-H handover is triggered. This parameter corresponds to the N in the P/N criteria. NO
NO
SET GCELLHOBASIC(Optional)
The triggering of intra-cell F-H handovers must meet the P/N criteria, that is, when the condition for intra-cell F-H handovers is met for P seconds during N seconds, an intra-cell F-H handover is triggered. This parameter corresponds to the P in the P/N criteria. NO
NO
SET GCELLHOBASIC(Optional)
For an AMR call, if the currently occupied channel is a full rate channel and the value of the Radio Quality Indication (RQI) in measurement report divided by 2 is always higher than the threshold set by this parameter, an intra-cell F-H handover is triggered. NO
NO
SET GCELLHOBASIC(Optional)
For an AMR call, if the currently occupied channel is a half rate channel and the value of the Radio Quality Indication (RQI) in measurement report divided by 2 is always lower than the threshold set by this parameter, an intracell H-F handover is triggered. NO
NO
SET GCELLHOBASIC(Optional)
Handover threshold during the handovers between cells on different layers or of different priorities. This value is used to suppress interlayer ping-pong handovers. Inter-layer handover threshold of the serving cell = "Inter-layer HO threshold" - "Inter-layer HO Hysteresis"; Inter-layer handover threshold of a neighboring cell = "Inter-layer HO Threshold" + "Adjacent Cell Inter-layer HO Hysteresis" - 64. NO
NO
SET GCELLHOBASIC(Optional)
Hysteresis value during the handovers between cells on different layers or of different priorities. This value is used to suppress inter-layer pingpong handovers. Inter-layer handover threshold of the serving cell = "Inter-layer HO threshold" - "Inter-layer HO Hysteresis"; Inter-layer handover threshold of a neighboring cell = "Inter-layer HO threshold" + "Adjacent Cell Inter-layer HO Hysteresis" - 64. NO
NO
SET GCELLHOBASIC(Optional)
If the uplink received signal level of a neighbor cell is greater than "Min UL Level on Candidate Cell" plus "Min Access Level Offset", the neighbor cell can be listed in the candidate cell queue for handover.
NO
NO
SET GCELLHOBASIC(Optional)
If the downlink received signal level of a neighbor cell is greater than "Min DL Level on Candidate Cell" plus "Min Access Level Offset", the neighbor cell can be listed in the candidate cell queue for handover.
NO
NO
SET GCELLHOBASIC(Optional)
The P/N criterion must be met for triggering a TIGHTBCCH handover. That is, the TIGHTBCCH handover can be triggered only if P seconds among N seconds meet the triggering conditions. This parameter corresponds to N in the P/N criterion. NO
NO
SET GCELLHOBASIC(Optional)
The P/N criterion must be met for triggering a TIGHT BCCH handover. That is, the TIGHT BCCH handover can be triggered only if P seconds among N seconds meet the triggering conditions. This parameter corresponds to P in the P/N criterion.
NO
NO
SET GCELLHOBASIC(Optional)
Whether to allow the fast handover algorithm
NO
NO
SET GCELLHOBASIC(Optional)
Whether to enable the ATCB handover algorithm for the concentric cell. According to the neighbor cell signal, the ATCB handover algorithm determines the coverage of the overlaid subcell and balances the load between the overlaid subcell, underlaid subcell, and neighbor cell. Therefore, the algorithm helps to decrease the interference, to improve the conversation quality, and to achieve aggressive frequency reuse in the overlaid subcell. NO
NO
SET GCELLHOBASIC(Optional)
The triggering of interference handovers must meet the P/N criteria, that is, when P out of N measurement reports meet the condition for interference handovers, a concentric circle handover is triggered. This parameter corresponds to the N in the P/N criteria.
NO
NO
SET GCELLHOBASIC(Optional)
The triggering of interference handovers must meet the P/N criteria, that is, when P out of N measurement reports meet the condition for interference handovers, a concentric circle handover is triggered. This parameter corresponds to the P in the P/N criteria.
NO
NO
SET GCELLHOBASIC(Optional)
Whether to enable the algorithm for the handover to a better cell
NO
NO
SET GCELLHOBASIC(Optional)
Whether to enable the algorithm for the loadbased AMR handover between full rate and half rate
NO
NO
SET GCELLHOBASIC(Optional)
Load threshold for the AMR handover from full rate to half rate. If the cell load is greater than this threshold, the AMR full rate calls are handed over to half rate. NO
NO
SET GCELLHOBASIC(Optional)
Duration of the handover from full rate to half rate. If the cell load is greater than the preset threshold, the calls that meet the conditions for the handover from full rate to half rate are handed over from full rate to half rate in this duration.
NO
NO
SET GCELLHOBASIC(Optional)
Period of the handover from full rate to half rate. If the cell load is greater than the preset threshold, the calls that meet the conditions for the handover from full rate to half rate are handed over in "H-F Ho Duration". This parameter specifies the bandwidth to be handed over at each hierarchy level. NO
NO
SET GCELLHOBASIC(Optional)
With "F-H Ho Period" and the duration for triggering handover from full rate to half rate, this parameter determines the current path loss offset by which to choose the MSs to undergo handover from full rate to half rate. Path loss offset = (duration for triggering handover from full rate to half rate/"F-H Ho Period" + 1) x "AMR F-H Ho Pathloss Adjust Step" NO
NO
SET GCELLHOBASIC(Optional)
With "F-H Ho Period" and the duration for triggering handover from full rate to half rate, this parameter determines the current ATCB offset by which to choose the MSs to undergo handover from full rate to half rate. ATCB offset = (duration for triggering handover from full rate to half rate/"F-H Ho Period" + 1) x "AMR F-H Ho ATCB Adjust Step" NO
NO
SET GCELLHOBASIC(Optional)
Path loss threshold for the AMR handover from full rate to half rate. If the path loss of an AMR full rate call is equal to or less than this threshold, the AMR call is handed over from full rate to half rate.
NO
NO
SET GCELLHOBASIC(Optional)
Path loss difference between the overlaid and underlaid subcells
NO
NO
SET GCELLHOBASIC(Optional)
ATCB threshold for the AMR handover from full rate to half rate. If the ATCB of an AMR full rate call is equal to or greater than this threshold, the AMR call is handed over from full rate to half rate. NO
NO
SET GCELLHOBASIC(Optional)
ATCB difference between the overlaid and underlaid subcells
NO
NO
SET GCELLHOBASIC(Optional)
Quality threshold for the AMR handover from full rate to half rate. If the uplink and downlink receive quality levels of an AMR full rate call are equal to or less than this threshold, the AMR call is handed over from full rate to half rate. NO
NO
SET GCELLHOBASIC(Optional)
According to the P/N rule, if the conditions for the handover from full rate to half rate are met for P seconds within N seconds, the handover is triggered. This parameter specifies the number N. NO
NO
SET GCELLHOBASIC(Optional)
According to the P/N rule, if the conditions for the handover from full rate to half rate are met for P seconds within N seconds, the handover is triggered. This parameter specifies the number P. NO
NO
SET GCELLHOBASIC(Optional)
Load threshold for the AMR handover from half rate to full rate. If the cell load is less than this threshold, the AMR half rate calls are handed over to full rate.
NO
NO
SET GCELLHOBASIC(Optional)
Whether to enable the algorithm for the uplink and downlink receive quality based AMR handover from half rate to full rate
NO
NO
SET GCELLHOBASIC(Optional)
Duration of the handover from half rate to full rate. If the cell load is less than the preset threshold, the calls that meet the conditions for the handover from half rate to full rate are handed over from half rate to full rate in this duration.
NO
NO
SET GCELLHOBASIC(Optional)
ATCB threshold for the AMR handover from half rate to full rate. If the ATCB of an AMR half rate call is less than this threshold, the AMR call is handed over from half rate to full rate. NO
NO
SET GCELLHOBASIC(Optional)
ATCB difference between the overlaid and underlaid subcells
NO
NO
SET GCELLHOBASIC(Optional)
Path loss threshold for the AMR handover from half rate to full rate. If the path loss of an AMR half rate call is greater than this threshold, the AMR call is handed over from half rate to full rate.
NO
NO
SET GCELLHOBASIC(Optional)
Path loss difference between the overlaid and underlaid subcells
NO
NO
SET GCELLHOBASIC(Optional)
Quality threshold for the AMR handover from half rate to full rate. If the receive quality level of an AMR half rate call is greater than this threshold, the AMR call is handed over from half rate to full rate. NO
NO
SET GCELLHOBASIC(Optional)
According to the P/N rule, if the conditions for the handover from half rate to full rate are met for P seconds within N seconds, the handover is triggered. This parameter specifies the number N. NO
NO
SET GCELLHOBASIC(Optional)
According to the P/N rule, if the conditions for the handover from half rate to full rate are met for P seconds within N seconds, the handover is triggered. This parameter specifies the number P. NO
NO
SET GCELLHOBASIC(Optional)
Whether to allow non-AMR voice F-H handover
NO
NO
SET GCELLHOBASIC(Optional)
When the load of a cell is no smaller than this threshold, non-AMR F-H handovers are triggered in the cell.
NO
NO
SET GCELLHOBASIC(Optional)
Decides the current path cost offset together with other two parameters: "F-H Ho Period" and period of triggering a F-H handover, thus selecting target users for F-H handovers. Path cost offset = (Period of triggering a F-H handover / "F-H Ho Period" + 1) * "Non-AMR FH Ho Pathloss Adjust Step". NO
NO
SET GCELLHOBASIC(Optional)
Decides the offset of the current ATCB together with other two parameters: "F-H Ho Period" and period of triggering a F-H handover, thus selecting target users for F-H handovers. ATCB offset = (Period of triggering a F-H handover / "FH Ho Period" + 1) * "Non-AMR F-H Ho ATCB Adjust Step". NO
NO
SET GCELLHOBASIC(Optional)
When the path loss value of non-AMR full rate voice is no larger than this parameter, the condition for non-AMR F-H handovers is met.
NO
NO
SET GCELLHOBASIC(Optional)
When the ATCB value of non-AMR full rate voice is no smaller than this parameter, the condition for non-AMR F-H handovers is met. NO
NO
SET GCELLHOBASIC(Optional)
Quality threshold for non-AMR F-H handovers. When the uplink receive quality and downlink receive quality of a user are both smaller than this parameter, a F-H handover is triggered for the user.
NO
NO
SET GCELLHOBASIC(Optional)
When the load of a cell is no larger than this threshold, non-AMR H-F handovers are triggered in the cell.
NO
NO
SET GCELLHOBASIC(Optional)
Whether to trigger non-AMR H-F handovers according to the uplink and downlink receive quality
NO
NO
SET GCELLHOBASIC(Optional)
When the ATCB value of non-AMR half rate voice is no larger than this threshold, the condition for non-AMR H-F handovers is met.
NO
NO
SET GCELLHOBASIC(Optional)
When the path loss value of non-AMR half rate voice is no smaller than this threshold, the condition for non-AMR H-F handovers is met.
NO
NO
SET GCELLHOBASIC(Optional)
Quality threshold for non-AMR H-F handovers. When the receive quality of a user is no smaller than this parameter, the user meets the condition for H-F handovers.
NO
NO
SET GCELLHOBASIC(Optional)
This parameter specifies whether the handover from 2G cells to 3G cells is allowed.
NO
NO
SET GCELLHOBASIC(Optional)
This parameter specifies whether the handover from 3G cells to 2G cells is allowed.
NO
NO
SET GCELLHOBASIC(Optional)
Whether to reserve resources for the incoming BSC handover on the Iur-g interface
NO
NO
SET GCELLHOBASIC(Optional)
Whether to carry the speech data on the Iur-g interface. If this parameter is set to YES, the speech data is still carried on the Iur-g interface and then transmitted through the Iu interface when the 3G service is switched to the 2G network.
NO
NO
SET GCELLHOBASIC(Optional)
This parameter specifies whether the reselection from 2G cells to 3G cells is allowed. NO
NO
SET GCELLHOBASIC(Optional)
Whether to perform path loss-based sorting in a better cell handover algorithm NO
NO
SET GCELLHOBASIC(Optional)
According to the P/N rule, if the conditions for edge handover are met for P seconds within N seconds, the handover is triggered. This parameter specifies the number N.
NO
NO
SET GCELLHOBASIC(Optional)
According to the P/N rule, if the conditions for edge handover are met for P seconds within N seconds, the handover is triggered. This parameter specifies the number P.
NO
NO
SET GCELLHOBASIC(Optional)
Whether to allow cell reselection from GSM to LTE.
NO
NO
SET GCELLHOBASIC(Optional)
This parameter indicates whether the SRVCC handover is supported. If this parameter is set to "YES", the speech call handled by the IMS can be handed over a GSM cell. In this manner, the continuity of the speech service is maintained. NO
NO
SET GCELLHOBASIC(Optional)
If SRVCC handover is allowed and the source cell ID type in the incoming BSC handover request message is SAI and the values of "LTE SAI MCC","LTE SAI MNC","LTE SAI LAC","LTE SAI SAC" in the message are consistent with those configured at the BSC, then the BSC interprets the handover request message as an SRVCC handover request. The LTE SAI MCC configured at the BSC must be consistent with that configured at the MSC Server. NO
NO
SET GCELLHOBASIC(Optional)
If SRVCC handover is allowed and the source cell ID type in the incoming BSC handover request message is SAI and the values of "LTE SAI MCC","LTE SAI MNC","LTE SAI LAC","LTE SAI SAC" in the message are consistent with those configured at the BSC, then the BSC interprets the handover request message as an SRVCC handover request. The LTE SAI MNC configured at the BSC must be consistent with that configured at the MSC Server. NO
NO
SET GCELLHOBASIC(Optional)
If SRVCC handover is allowed and the source cell ID type in the incoming BSC handover request message is SAI and the values of "LTE SAI MCC","LTE SAI MNC","LTE SAI LAC","LTE SAI SAC" in the message are consistent with those configured at the BSC, then the BSC interprets the handover request message as an SRVCC handover request. The LTE SAI LAC configured at the BSC must be consistent with that configured at the MSC Server. NO
NO
SET GCELLHOBASIC(Optional)
If SRVCC handover is allowed and the source cell ID type in the incoming BSC handover request message is SAI and the values of "LTE SAI MCC","LTE SAI MNC","LTE SAI LAC","LTE SAI SAC" in the message are consistent with those configured at the BSC, then the BSC interprets the handover request message as an SRVCC handover request. The LTE SAI SAC configured at the BSC must be consistent with that configured at the MSC Server. NO
NO
SET GCELLHOCTRL(Mandatory) Type of an index.
NO
YES
SET Index of a cell, uniquely identifying a cell in a GCELLHOCTRL(Mandatory) BSC.
YES
YES
Name of a cell. This parameter uniquely identifies a cell in a BSC. Cell names cannot contain the following invalid characters: ,;="' In addition, cell names cannot contain two or SET more consecutive %, two or more consecutive GCELLHOCTRL(Mandatory) spaces, or more than two consecutive +.
NO
YES
SET GCELLHOCTRL(Optional)
After a new TCH is assigned to an MS, the MS can be handed over to another channel only if the time during which the MS occupies the TCH is longer than the period specified by this parameter. NO
NO
SET GCELLHOCTRL(Optional)
After a new SDCCH is assigned to an MS, the MS can be handed over to another channel only if the time during which the MS occupies the SDCCH is longer than the period specified by this parameter. NO
NO
SET GCELLHOCTRL(Optional)
Minimum interval between the two consecutive handover decisions of an MS. The BSC cannot make a handover decision during the minimum interval. To avoid frequent handover events in the cell, the BSC starts a timer after delivering a handover command to an MS. The BSC allows the MS to make a second handover decision only after the timer expires. This parameter specifies the duration of the timer.
NO
NO
SET GCELLHOCTRL(Optional)
Minimum interval between two consecutive emergency handovers performed by an MS. During this interval, no emergency handover is allowed.
NO
NO
SET GCELLHOCTRL(Optional)
Whether to allow inter-BSC SDCCH handovers
NO
NO
SET GCELLHOCTRL(Optional)
Whether to punish the target cell when a handover fails or to punish the current serving cell when a handover is of more TA or bad quality. After a handover fails due to congestion of the target cell, the system needs to punish the target cell to prevent the MS from attempting to switch to the target cell again. Ping-pong handovers can easily occur when handovers are of more TA or bad quality. In these cases, the system needs to punish the current serving cells. NO
NO
SET GCELLHOCTRL(Optional)
Whether to enable the BTS to preprocess measurement reports. This parameter determines where to conduct power control.
NO
NO
SET GCELLHOCTRL(Optional)
Whether the BTSs send the original measurement reports to the BSC after preprocessing them. When this parameter is set to YES, the BTSs send the original and preprocessed measurement reports to the BSC.
NO
NO
SET GCELLHOCTRL(Optional)
Whether to enable the BTS to transfer BTS/MS power class to the BSC
NO
NO
SET GCELLHOCTRL(Optional)
Frequency at which the BTSs submit preprocessed measurement reports to the BSC
NO
NO
In a direct retry, when the receive level of a neighboring cell is no smaller than this parameter, the neighboring cell can be a candidate cell for the direct retry. The parameter is invalid in handover algorithm II. NO
NO
SET GCELLHOCTRL(Optional) SET GCELLHOEDBPARA(Mandat ory) Type of an index. SET GCELLHOEDBPARA(Mandat Index of a cell, uniquely identifying a cell in a ory) BSC.
NO
YES
YES
YES
Name of a cell. This parameter uniquely identifies a cell in a BSC. Cell names cannot contain the following invalid characters: ,;="' SET In addition, cell names cannot contain two or GCELLHOEDBPARA(Mandat more consecutive %, two or more consecutive ory) spaces, or more than two consecutive +.
NO
YES
When the load of the underlay subcell is lower than this parameter, some of the calls in the overlay subcell will be switched to the underlay SET subcell, and channels in the underlay subcell will GCELLHOEDBPARA(Option be preferentially assigned to channel requests al) initiated in the overlay subcell as well. NO
NO
Whether to assign channel requests initiated in the underlay subcell to the overlay or underlay subcells according to "UL Subcell General Overload Threshold". If the load of the underlay is higher than "UL Subcell General Overload SET Threshold", incoming calls in the underlay GCELLHOEDBPARA(Option subcell will be preferentially assigned to the al) overlay subcell.
NO
NO
Whether to assign channel requests in the overlay subcell to the underlay subcell according to "UL Subcell Lower Load Threshold". If the load of the underlay subcell is lower than "UL SET Subcell Lower Load Threshold", incoming calls GCELLHOEDBPARA(Option in the overlay subcell will be preferentially al) assigned to the underlay subcell. NO
NO
When the load of the underlay subcell is higher than this parameter, some of the calls in the underlay subcell will be switched to the overlay SET subcell, and channels in the overlay subcell will GCELLHOEDBPARA(Option be preferentially assigned to calls initiated in the al) underlay subcell as well. NO
NO
When the load of the underlay subcell is higher than this parameter, the underlay-to-overlay load handover period subtracts a period that equals "Step Length of UL Subcell Load HO" from "UL SET Subcell Load Hierarchical HO Periods" every GCELLHOEDBPARA(Option second, thus increasing the load handover al) speed. NO
NO
If the current system flow control level is greater than this parameter, the handover between the underlaid and overlaid subcells due to low or high load in the underlaid subcell is not allowed. System flux thresholds correspond to the system flux obtained based on message packets, CPU load, and FID queuing load. The system flux level is the current flux control level of the system. 0-11: There are 12 flow control levels. Where, 0 indicates the lowest level and 11 indicates the highest level. The handover performed over the maximum threshold may have tremendous impacts on the system. Thus, this parameter should not be set to a higher value. 1) The flow control level algorithm for the assigned system messages: [(Average Message Usage - Inner Flow Control Discard Begin Threshold)/(Inner Flow Control Discard All Threshold - Inner Flow Control Discard Begin Threshold) x 100]/10+1 (rounddown for division operation). If the value is smaller than Inner Flow Control Discard Begin Threshold, Level 0 is used. If the value is equal to or greater than Inner Flow Control Discard Begin Threshold, the level is calculated. The value range is from 0 to 11. 2) Flow control threshold for the CPU to start to discard the channel access messages and paging messages: 80%
SET GCELLHOEDBPARA(Option al) . Flow control threshold for the CPU to discard all NO
NO
Distance between the boundary of the overlaid subcell and the boundary of the underlaid subcell. This parameter specifies the difference between the coverage of the overlaid subcell and the coverage of the underlaid subcell in the concentric cell or dual-frequency network scenario. The boundaries of the overlaid and underlaid subcells are determined according to the relative value between the signal strength of the serving cell and the signal strength of the neighbor cell. Assume that the signal strength of the serving cell is SS(s) and that the signal strength of the neighbor cell is SS(n). If SS(s) = SS(n), the MS is on the boundary of the underlaid subcell. If SS(s) - SS(n) > "Distance Between Boudaries of Subcells", the MS is in the coverage of the overlaid subcell. In the tight BCCH handover algorithm, this parameter specifies the difference between the coverage of the TRX that carries the BCCH and SET the coverage of the TRX that does not carry the GCELLHOEDBPARA(Option BCCH. The relevant computation is the same as al) the preceding computation. NO
Hysteresis in the distance between the boundary of the overlaid subcell and the boundary of the underlaid subcell. This parameter helps to adjust "Distance Between Boudaries of Subcells" and thus to prevent ping-pong handover between the overlaid and underlaid subcells. Assume that the signal strength of the serving cell is SS(s) and that the signal strength of the neighbor cell is SS(n). If SS(s) - SS(n) < "Distance Between SET Boudaries of Subcells" - "Distance Hysteresis GCELLHOEDBPARA(Option Between Boudaries", the MS is handed over al) from the overlaid subcell to the underlaid subcell. NO SET GCELLHOEDBPARA(Option Whether to switch some of the calls in the al) underlay subcell to the overlay. NO
NO
NO
NO
When the load of the underlay subcell exceeds "UL Subcell General Overload Threshold", all the calls that are using this cell as the serving cell generate handover requests at the same time, which will suddenly increase the load of the BSC and possibly cause congestion in the overlay subcell, thus causing the handovers to fail. To solve this problem, the BSC uses the hierarchical load handover algorithm to gradually SET switch some of the calls in the underlay subcell GCELLHOEDBPARA(Option to the overlay subcell. This parameter indicates al) the duration of each handover level. NO
NO
SET GCELLHOEDBPARA(Option Level step during underlay-to-overlay al) hierarchical load handovers
NO
NO
NO
NO
NO
NO
NO
NO
NO
NO
Lower threshold of the overlay level during underlay-to-overlay handovers. When the SET receive level of an MS is higher than this GCELLHOEDBPARA(Option threshold, the MS can be switched to the overlay al) subcell. NO
NO
Lower threshold of the overlay level during overlay-to-underlay handovers. When the SET receive level of an MS is higher than this GCELLHOEDBPARA(Option threshold, the MS can be switched to the al) underlay subcell.
NO
NO
An MS cannot be handed over from the underlaid subcell to the overlaid subcell in this SET duration after the MS is handed over from the GCELLHOEDBPARA(Option overlaid subcell to the underlaid subcell al) successfully.
NO
NO
If the underlay load is higher than "UL Subcell Serious Overload Threshold", the underlay-toSET overlay handover period subtracts a value that GCELLHOEDBPARA(Option equals this threshold from "UL Subcell Load al) Hierarchical HO Periods" every second. SET GCELLHOEDBPARA(Option Whether to allow underlay-to-overlay load al) handovers SET Overlay-to-underlay load handovers are GCELLHOEDBPARA(Option performed by levels. This parameter indicates al) the duration of each level.
SET GCELLHOEDBPARA(Option Level step during overlay-to-underlay al) hierarchical load handovers
According to the P/N rule, if the conditions for the handover between the subcells of an enhanced dual-frequency network are met SET during P of N measurements, the handover is GCELLHOEDBPARA(Option triggered. al) This parameter specifies the number N.
NO
NO
NO
NO
NO
NO
In an enhanced dual-band network, if the load of SET the overlay subcell is higher than this parameter, GCELLHOEDBPARA(Option the system cannot initiate an underlay-to-overlay al) handover. NO
NO
SET GCELLHOEMG(Mandatory)
Type of an index.
NO
YES
SET GCELLHOEMG(Mandatory)
Index of a cell, uniquely identifying a cell in a BSC.
YES
YES
SET GCELLHOEMG(Mandatory)
Name of a cell. This parameter uniquely identifies a cell in a BSC. Cell names cannot contain the following invalid characters: ,;="' In addition, cell names cannot contain two or more consecutive %, two or more consecutive spaces, or more than two consecutive +.
NO
YES
SET GCELLHOEMG(Optional)
Whether to use handover algorithm generation 1 or 2 currently NO
NO
SET GCELLHOEMG(Optional)
An emergency handover is triggered when TA is greater than or equal to the value of this parameter. NO
NO
According to the P/N rule, if the conditions for the handover between the subcells of an enhanced dual-frequency network are met SET during P of N measurements, the handover is GCELLHOEDBPARA(Option triggered. al) This parameter specifies the number P. SET GCELLHOEDBPARA(Option Whether to allow underlay-to-overlay edge al) handovers
SET GCELLHOEMG(Optional)
Downlink quality threshold for emergency handover. This parameter is represented as the product of 10 and a quality level that ranges from 0 to 7. The emergency handover can be triggered only when the downlink receive quality of an MS is greater(indicate bad quality) than this threshold. NO
NO
SET GCELLHOEMG(Optional)
An emergency handover due to bad quality is triggered when the uplink receive quality is not smaller than "UL Qual. Threshold".
NO
NO
SET GCELLHOEMG(Optional)
One of the nine parameters (filter parameters A1 to A8 and filter parameter B) used to configure the filter for determining whether the received signal level drops rapidly. The computation formula is as follows: C1(nt) = A1 x C(nt) + A2 x C(nt-t) + A3 x C(nt-2t) + ... + A8 x C(nt-7t) If C1(nt) is less than B and C(nt) is less than the threshold for edge handover, the signal level is considered dropping rapidly. In the formula, A1 to A8 are filter parameters A1 to A8 minus 10 and B is the negative of filter parameter B. C(nt) indicates the received signal level in the uplink measurement report of the serving cell received at time nt. Setting the filter helps to configure the maximum allowed signal level drop degree. NO
NO
SET GCELLHOEMG(Optional)
One of the nine parameters (filter parameters A1 to A8 and filter parameter B) used to configure the filter for determining whether the received signal level drops rapidly. The computation formula is as follows: C1(nt) = A1 x C(nt) + A2 x C(nt-t) + A3 x C(nt-2t) + ... + A8 x C(nt-7t) If C1(nt) is less than B and C(nt) is less than the threshold for edge handover, the signal level is considered dropping rapidly. In the formula, A1 to A8 are filter parameters A1 to A8 minus 10 and B is the negative of filter parameter B. C(nt) indicates the received signal level in the uplink measurement report of the serving cell received at time nt. Setting the filter helps to configure the maximum allowed signal level drop degree. NO
NO
SET GCELLHOEMG(Optional)
One of the nine parameters (filter parameters A1 to A8 and filter parameter B) used to configure the filter for determining whether the received signal level drops rapidly. The computation formula is as follows: C1(nt) = A1 x C(nt) + A2 x C(nt-t) + A3 x C(nt-2t) + ... + A8 x C(nt-7t) If C1(nt) is less than B and C(nt) is less than the threshold for edge handover, the signal level is considered dropping rapidly. In the formula, A1 to A8 are filter parameters A1 to A8 minus 10 and B is the negative of filter parameter B. C(nt) indicates the received signal level in the uplink measurement report of the serving cell received at time nt. Setting the filter helps to configure the maximum allowed signal level drop degree. NO
NO
SET GCELLHOEMG(Optional)
One of the nine parameters (filter parameters A1 to A8 and filter parameter B) used to configure the filter for determining whether the received signal level drops rapidly. The computation formula is as follows: C1(nt) = A1 x C(nt) + A2 x C(nt-t) + A3 x C(nt-2t) + ... + A8 x C(nt-7t) If C1(nt) is less than B and C(nt) is less than the threshold for edge handover, the signal level is considered dropping rapidly. In the formula, A1 to A8 are filter parameters A1 to A8 minus 10 and B is the negative of filter parameter B. C(nt) indicates the received signal level in the uplink measurement report of the serving cell received at time nt. Setting the filter helps to configure the maximum allowed signal level drop degree. NO
NO
SET GCELLHOEMG(Optional)
One of the nine parameters (filter parameters A1 to A8 and filter parameter B) used to configure the filter for determining whether the received signal level drops rapidly. The computation formula is as follows: C1(nt) = A1 x C(nt) + A2 x C(nt-t) + A3 x C(nt-2t) + ... + A8 x C(nt-7t) If C1(nt) is less than B and C(nt) is less than the threshold for edge handover, the signal level is considered dropping rapidly. In the formula, A1 to A8 are filter parameters A1 to A8 minus 10 and B is the negative of filter parameter B. C(nt) indicates the received signal level in the uplink measurement report of the serving cell received at time nt. Setting the filter helps to configure the maximum allowed signal level drop degree. NO
NO
SET GCELLHOEMG(Optional)
One of the nine parameters (filter parameters A1 to A8 and filter parameter B) used to configure the filter for determining whether the received signal level drops rapidly. The computation formula is as follows: C1(nt) = A1 x C(nt) + A2 x C(nt-t) + A3 x C(nt-2t) + ... + A8 x C(nt-7t) If C1(nt) is less than B and C(nt) is less than the threshold for edge handover, the signal level is considered dropping rapidly. In the formula, A1 to A8 are filter parameters A1 to A8 minus 10 and B is the negative of filter parameter B. C(nt) indicates the received signal level in the uplink measurement report of the serving cell received at time nt. Setting the filter helps to configure the maximum allowed signal level drop degree. NO
NO
SET GCELLHOEMG(Optional)
One of the nine parameters (filter parameters A1 to A8 and filter parameter B) used to configure the filter for determining whether the received signal level drops rapidly. The computation formula is as follows: C1(nt) = A1 x C(nt) + A2 x C(nt-t) + A3 x C(nt-2t) + ... + A8 x C(nt-7t) If C1(nt) is less than B and C(nt) is less than the threshold for edge handover, the signal level is considered dropping rapidly. In the formula, A1 to A8 are filter parameters A1 to A8 minus 10 and B is the negative of filter parameter B. C(nt) indicates the received signal level in the uplink measurement report of the serving cell received at time nt. Setting the filter helps to configure the maximum allowed signal level drop degree. NO
NO
SET GCELLHOEMG(Optional)
One of the nine parameters (filter parameters A1 to A8 and filter parameter B) used to configure the filter for determining whether the received signal level drops rapidly. The computation formula is as follows: C1(nt) = A1 x C(nt) + A2 x C(nt-t) + A3 x C(nt-2t) + ... + A8 x C(nt-7t) If C1(nt) is less than B and C(nt) is less than the threshold for edge handover, the signal level is considered dropping rapidly. In the formula, A1 to A8 are filter parameters A1 to A8 minus 10 and B is the negative of filter parameter B. C(nt) indicates the received signal level in the uplink measurement report of the serving cell received at time nt. Setting the filter helps to configure the maximum allowed signal level drop degree. NO
NO
SET GCELLHOEMG(Optional)
Trend of the received signal level of the cell during a period. This parameter helps to configure the filter for determining whether the received signal level drops rapidly. If this parameter is higher, a more rapid signal level drop is required to trigger the handover due to rapid signal level drop.
NO
NO
SET GCELLHOEMG(Optional)
Whether to enable the no-downlink measurement report handover algorithm
NO
NO
SET GCELLHOEMG(Optional)
When a certain number of no-downlink measurement reports are received consecutively and the uplink receive quality is no smaller than this parameter, no-downlink measurement report emergency handovers are triggered. Nodownlink measurement report emergency handovers choose the inter-cell handover mode preferentially; however, if no candidate cells are available and intra-cell handover is enabled in the current cell, intra-cell handovers are triggered. NO
NO
SET GCELLHOEMG(Optional)
Decisions of no-downlink measurement report handovers can be made only when the number of consecutive no-downlink measurement reports in the current call is no larger than this parameter.
NO
NO
SET GCELLHOFAST(Mandatory) Type of an index.
NO
YES
SET Index of a cell, uniquely identifying a cell in a GCELLHOFAST(Mandatory) BSC.
YES
YES
Name of a cell. This parameter uniquely identifies a cell in a BSC. Cell names cannot contain the following invalid characters: ,;="' In addition, cell names cannot contain two or SET more consecutive %, two or more consecutive GCELLHOFAST(Mandatory) spaces, or more than two consecutive +.
NO
YES
SET GCELLHOFAST(Optional)
Fast handover can be triggered only when the uplink signal level of the serving cell is less than this parameter. NO
NO
SET GCELLHOFAST(Optional)
Fast handover can be triggered only when the downlink level of the serving cell is less than this parameter. NO
NO
SET GCELLHOFAST(Optional)
A quick handover can be initiated only if the rate of an MS is higher than this parameter during a certain period of time. NO
NO
SET GCELLHOFAST(Optional)
When the network receives measurement reports, in consideration of the accuracy of a single measurement report, the measurement values in certain measurement reports are filtered to represent the radio operating environment. The parameter specifies the number of measurement reports used for filtering measurement information of the serving cell. NO
NO
SET GCELLHOFAST(Optional)
For the purpose of accurately reflecting the radio environment of a network, filtering is performed on the measured values in several consecutive measurement reports. This parameter indicates the number of measurement reports used for the filtering of neighboring cell information. NO
NO
SET GCELLHOFAST(Optional)
Number of invalid measurement reports allowed when the BSC filters the measurement reports. When the number of received measurement reports is no larger than this parameter, the BSC does not perform filtering or make quick handover judgment. NO
NO
SET GCELLHOFAST(Optional)
After the fast handover is successful, the penalty on the original serving cell is performed within the "Quick handover punish time": the receive level of the original serving cell is decreased by "Quick handover punish value", to prevent pingpong handovers. NO
NO
SET GCELLHOFAST(Optional)
To avoid ping-pong handover, the received signal of the original serving cell is decreased by "Quick handover punish value" in "Quick handover punish time" after fast handover succeeds. NO
NO
SET GCELLHOFAST(Optional)
Fast handover can be triggered only when the path loss difference between the serving cell and a neighbor cell on the chain is equal to or greater than this parameter. NO
NO
SET GCELLHOFAST(Optional)
Whether to enable "Triggering the quick PBGT algorithm only when an MS is far from the BTS"
NO
NO
SET GCELLHOFAST(Optional)
Handover direction forecast switch. When this parameter is set to YES, the BSC can forecast the handover direction of the call in fast handover so that the best target cell can be selected for handover.
NO
NO
SET GCELLHOFAST(Optional)
This parameter indicates N in the P/N rule for MS handover direction forecast. P/N rule: Among N handovers, the MS is handed over to Class B chain neighboring cell for successively P times, and then the BSC determines that the MS is moving to the Class B chain neighboring cell. NO
NO
SET GCELLHOFAST(Optional)
This parameter indicates P in the P/N rule for MS handover direction forecast. P/N rule: Among N handovers, the MS is handed over to Class B chain neighboring cell for successively P times, and then the BSC determines that the MS is moving to the Class B chain neighboring cell. NO
NO
SET GCELLHOFAST(Optional)
The P/N rule must be met for triggering a frequency shift handover. That is, a frequency shift handover can be triggered when P measurement reports in N measurement reports meet the handover decision conditions. This parameter corresponds to N of the P/N rule. NO
NO
The P/N rule must be met for triggering a frequency shift handover. That is, a frequency shift handover can be triggered when P measurement reports in N measurement reports meet the handover decision conditions. This parameter corresponds to P of the P/N rule. NO
NO
SET GCELLHOFAST(Optional) SET GCELLHOFDDBA2(Mandato ry) Type of an index. SET GCELLHOFDDBA2(Mandato Index of a cell, uniquely identifying a cell in a ry) BSC.
NO
YES
YES
YES
Name of a cell. This parameter uniquely identifies a cell in a BSC. Cell names cannot contain the following invalid characters: ,;="' SET In addition, cell names cannot contain two or GCELLHOFDDBA2(Mandato more consecutive %, two or more consecutive ry) spaces, or more than two consecutive +. SET GCELLHOFDDBA2(Mandato ry) SET GCELLHOFDDBA2(Mandato ry) SET GCELLHOFDDBA2(Mandato ry)
NO
YES
This parameter indicate whether to generate the FDD BA2 table automatically according to neighbor cell relations or to input the FDD BA2 table manually NO
YES
Number of a row to be changed in a BA list
NO
YES
Used for parameter control
NO
YES
NO
YES
SET GCELLHOFDDBA2(Mandato ry) Downlink frequency of the external 3G cell
Scrambling code of a 3G cell. The scrambling code is used to differentiate terminals or cells. It is used after spread spectrum. Therefore, it does not change the bandwidth of signals, but only distinguishes the signals from different sources. Through scrambling, multiple transceivers can use the same codes for spread spectrum. SET Scrambling is used to distinguish terminals on GCELLHOFDDBA2(Mandato the uplink and to distinguish cells on the ry) downlink. NO SET GCELLHOFDDBA2(Mandato Whether to activate transmit diversity on the ry) common channel of a 3G cell NO SET GCELLHOFITPEN(Mandator y) Type of an index. NO SET GCELLHOFITPEN(Mandator Index of a cell, uniquely identifying a cell in a y) BSC. YES
YES
YES
YES
YES
Name of a cell. This parameter uniquely identifies a cell in a BSC. Cell names cannot contain the following invalid characters: ,;="' SET In addition, cell names cannot contain two or GCELLHOFITPEN(Mandator more consecutive %, two or more consecutive y) spaces, or more than two consecutive +.
NO
YES
SET Whether to use handover algorithm generation 1 GCELLHOFITPEN(Optional) or 2 currently NO
NO
If the number of measurement reports lost consecutively is no larger than this value, linear interpolation is performed for the values in the lost measurement reports based on the values in the two measurement reports preceding and following the lost measurement reports. Otherwise, the lost measurement reports will be SET discarded, and the value will be recalculated GCELLHOFITPEN(Optional) when new measurement reports arrive. NO
NO
Number of measurement reports sampled for averaging the signal strength on a speech/data channel. Averaging the signal strength in multiple measurement reports helps to avoid a sharp signal level drop due to Rayleigh fading SET and to ensure the comprehensiveness of a GCELLHOFITPEN(Optional) handover decision.
NO
NO
Number of measurement reports sampled for averaging the signal quality on a speech/data channel. Averaging the signal quality in multiple measurement reports helps to avoid a sharp signal quality drop due to Rayleigh fading and to SET ensure the comprehensiveness of a handover GCELLHOFITPEN(Optional) decision. NO
NO
Number of measurement reports used for averaging the signal strength of signaling channels. This parameter helps avoid sharp drop SET of signal levels caused by Raileigh fading and to GCELLHOFITPEN(Optional) ensure correct handover decisions. NO
NO
Number of measurement reports used for averaging the signal quality of signaling channels. This parameter helps avoid sharp drop SET of signal levels caused by Raileigh fading and to GCELLHOFITPEN(Optional) ensure correct handover decisions. NO
NO
For the purpose of accurately reflecting the radio environment of a network, filtering is performed on the measured values in several consecutive measurement reports. This parameter indicates SET the number of measurement reports used for the GCELLHOFITPEN(Optional) filtering of neighboring cell signal strength. NO
NO
When the network receives measurement reports, the measurement values in several straight measurement reports are filtered to reflect the radio operating environment for the sake of accuracy. This parameter specifies the SET number of measurement reports sampled for GCELLHOFITPEN(Optional) filtering the TA.
NO
NO
Penalty signal level imposed on a target cell to which the handover fails due to congestion or poor radio quality. This penalty helps to prevent SET the MS from making a second handover attempt GCELLHOFITPEN(Optional) to the target cell. NO
NO
After a handover due to bad quality is successful, the penalty on the original serving cell is performed within the "Penalty Time after BQ HO": the receive level of the original serving SET cell is decreased by "Penalty Level after BQ GCELLHOFITPEN(Optional) HO", to prevent ping-pong handovers. NO
NO
After a handover due to bad quality is successful, the penalty on the original serving cell is performed within the "Penalty Time after BQ HO": the receive level of the original serving SET cell is decreased by "Penalty Level after BQ GCELLHOFITPEN(Optional) HO", to prevent ping-pong handovers. NO
NO
After the time advancing handover is successful, the penalty on the original serving cell is performed within the "Penalty Time after TA HO": the receive level of the original serving cell SET is decreased by "Penalty Level after TA HO", to GCELLHOFITPEN(Optional) prevent ping-pong handovers. NO
NO
After the time advancing handover is successful, the penalty on the original serving cell is performed within the "Penalty Time after TA HO": the receive level of the original serving cell SET is decreased by "Penalty Level after TA HO", to GCELLHOFITPEN(Optional) prevent ping-pong handovers. NO
NO
Within the preset time, no AMR FR-to-HR handover is allowed if the previous FR-to-HR SET handover fails due to channel unavailability or GCELLHOFITPEN(Optional) channel mismatch.
NO
NO
Timer for punishing the neighboring cells when SET handover failures occur due to resource-related GCELLHOFITPEN(Optional) causes, such as resources being insufficient
NO
NO
Timer of penalty on a neighboring cell when a SET handover fails due to faults of air interface GCELLHOFITPEN(Optional) connection.
NO
NO
SET Timer of penalty on a neighboring cell when a GCELLHOFITPEN(Optional) handover fails due to faults of data configuration. NO
NO
For the purpose of accurately reflecting the radio environment of a network, filtering is performed on the measured values in several consecutive measurement reports. This parameter indicates the number of enhanced measurement reports SET received on a signaling channel used to GCELLHOFITPEN(Optional) measure the MEAN_BEP value. NO
NO
For the purpose of accurately reflecting the radio environment of a network, filtering is performed on the measured values in several consecutive measurement reports. This parameter indicates the number of enhanced measurement reports SET received on a voice channel used to measure GCELLHOFITPEN(Optional) the MEAN_BEP value. NO
NO
Number of enhanced measurement reports (EMRs) sampled for averaging the CV_BEP on the SDCCH. Averaging the CV_BEP in multiple SET EMRs helps to prevent the GCELLHOFITPEN(Optional) incomprehensiveness of a single EMR.
NO
NO
Number of enhanced measurement reports (EMRs) sampled for averaging the CV_BEP on the TCH. Averaging the CV_BEP in multiple SET EMRs helps to prevent the GCELLHOFITPEN(Optional) incomprehensiveness of a single EMR.
NO
NO
For the purpose of accurately reflecting the radio environment of a network, filtering is performed on the measured values in several consecutive measurement reports. This parameter indicates the number of enhanced measurement reports SET received on signaling channels used to filter the GCELLHOFITPEN(Optional) REP_QUANT value. NO
NO
For the purpose of accurately reflecting the radio environment of a network, filtering is performed on the measured values in several consecutive measurement reports. This parameter indicates the number of enhanced measurement reports SET received on voice channels used to filter the GCELLHOFITPEN(Optional) REP_QUANT value. NO
NO
For the purpose of accurately reflecting the radio environment of a network, filtering is performed on the measured values in several consecutive measurement reports. This parameter indicates the number of enhanced measurement reports SET received on a signaling channel used to filter the GCELLHOFITPEN(Optional) NBR_RCVD_BLOCKS value. NO
NO
For the purpose of accurately reflecting the radio environment of a network, filtering is performed on the measured values in several consecutive measurement reports. This parameter indicates the number of enhanced measurement reports SET received on a service channel used to filter the GCELLHOFITPEN(Optional) NBR_RCVD_BLOCKS value. NO
NO
After a load handover succeeds, the BSC punishes the former serving cell during "Penalty Time on Load HO" by subtracting "Penalty Value SET on Load HO" from the receive level of the former GCELLHOFITPEN(Optional) serving cell, thus avoiding ping-pong handovers. NO
NO
After a load handover succeeds, the BSC punishes the former serving cell during "Penalty Time on Load HO" by subtracting "Penalty Value SET on Load HO" from the receive level of the former GCELLHOFITPEN(Optional) serving cell, thus avoiding ping-pong handovers. NO
NO
SET Specifies an interval between two consecutive GCELLHOFITPEN(Optional) interference handovers
NO
NO
For the purpose of accurately reflecting the radio environment of a network, filtering is performed on the measured values in several consecutive measurement reports. This parameter indicates the number of measurement reports received on SET signaling channels used for the filtering of GCELLHOFITPEN(Optional) neighboring cell signal strength. NO
NO
When the network receives measurement reports, the measurement values in several straight measurement reports are filtered to reflect the radio operating environment for the sake of accuracy. This parameter specifies the SET number of measurement reports sampled for GCELLHOFITPEN(Optional) filtering the TA on the signaling channel. SET GCELLHOINTERRATLDB(M andatory) Type of an index SET GCELLHOINTERRATLDB(M Index of a cell, uniquely identifying a cell in a andatory) BSC
NO
NO
NO
YES
YES
YES
SET GCELLHOINTERRATLDB(M andatory) SET GCELLHOINTERRATLDB(O ptional)
Name of a cell, uniquely identifying a cell in a BSC This parameter specifies whether to allow the inter-RAT load handover in connection mode (after the assignment is complete).
NO
YES
NO
NO
When this parameter is set to Service-based, the inter-RAT handover is triggered on the basis of the service distribution. In this case, the target cell is selected according to the traffic load. When this parameter is set to Load-based, the inter-RAT handover is triggered on the basis of the load balance. In this case, the target cell is selected according to the traffic load on the target cell and the load difference between 2G and 3G cells. When this parameter is set to Dynamic Service/Load based, the target cell is dynamically selected by using the service-based algorithm or the load-based algorithm according to the traffic load on the cell. When this parameter is set to CN Servicebased, the inter-RAT handover decision is made on the basis of the service attribute of the core network. SET When this parameter is set to OFF, no inter-RAT GCELLHOINTERRATLDB(O service handover or inter-RAT load handover in ptional) the access state is performed. NO
NO
When the uplink load of a cell is larger than the SET value of this parameter and is smaller than "2G GCELLHOINTERRATLDB(O Cell UL Overload Congest Thred", the uplink of ptional) the cell is in the basic congestion status. NO SET When the uplink load of a cell is greater than the GCELLHOINTERRATLDB(O value, the uplink of the cell is in the overload ptional) congestion status. NO When the downlink load of a cell is larger than the value of this parameter and is smaller than SET "2G Cell DL Overload Congest Thred", the GCELLHOINTERRATLDB(O downlink of the cell is in the basic congestion ptional) status. SET When the downlink load of a cell is greater than GCELLHOINTERRATLDB(O the value, the downlink of the cell is in the ptional) overload congestion status. SET GCELLHOINTERRATLDB(O Threshold for setting the flag of accepting interptional) RAT CS service handover of a 2G cell
NO
NO
NO
NO
NO
NO
NO
NO
Coefficient used to modulate the load level of a 2G system so that the load level of the 2G system can be compared with that of a 3G system.
NO
NO
Minimum RSCP value of a 3G cell during the load-based GSM-to-UMTS handover
NO
NO
SET GCELLHOINTERRATLDB(O Minimum Ec/No value of a 3G cell during the ptional) load-based GSM-to-UMTS handover
NO
NO
SET GCELLHOINTERRATLDB(O ptional) SET GCELLHOINTERRATLDB(O ptional)
When the load of a cell is greater than or equal to Load HO Threshold, all the calls in the serving cell send handover requests simultaneously. Thus, the load on the CPU increases rapidly. In some cases, the cell is congested and call drops might occur. Therefore, the BSC adopts the hierarchical load handover algorithm to control the number of calls to be handed over at each SET level. This parameter specifies the duration for GCELLHOINTERRATLDB(O performing the load-based handover at each ptional) level. NO SET GCELLHOINTERRATLDB(O Step of changing the RSCP value during the ptional) inter-RAT hierarchical load-based handover NO
SET GCELLHOINTERRATLDB(O Step of changing the EcNo value during the interptional) RAT hierarchical load-based handover NO
SET GCELLHOINTERRATLDB(O ptional) SET GCELLHOINTERRATLDB(O ptional)
NO
NO
NO
Width of load band [RSCP] during the inter-RAT hierarchical load-based handover NO
NO
Width of load band [EcNo] during the inter-RAT hierarchical load-based handover
NO
NO
NO
NO
SET GCELLHOINTERRATLDB(O Initial RSCP value of the inter-RAT load-based ptional) handover band
SET GCELLHOINTERRATLDB(O Initial EcNo value of the inter-RAT load-based ptional) handover band
NO
NO
SET GCELLHOIUO(Mandatory)
Type of an index.
NO
YES
SET GCELLHOIUO(Mandatory)
Index of a cell, uniquely identifying a cell in a BSC.
YES
YES
SET GCELLHOIUO(Mandatory)
Name of a cell. This parameter uniquely identifies a cell in a BSC. Cell names cannot contain the following invalid characters: ,;="' In addition, cell names cannot contain two or more consecutive %, two or more consecutive spaces, or more than two consecutive +.
NO
YES
Whether to use handover algorithm generation 1 SET GCELLHOIUO(Optional) or 2 currently NO
NO
Whether a UL subcell to OL subcell handover is SET GCELLHOIUO(Optional) allowed NO
NO
SET GCELLHOIUO(Optional) Whether to allow overlay-to-underlay handovers NO
NO
Whether to use the downlink receive level as a SET GCELLHOIUO(Optional) condition in IUO handover decision
NO
NO
Whether to use the downlink receive quality as a SET GCELLHOIUO(Optional) condition in IUO handover decision NO
NO
Whether the TA is used as a decisive condition SET GCELLHOIUO(Optional) for the concentric cell handover
NO
NO
One of the parameters that decide the underlay and overlay areas. The underlay and overlay areas are determined by "RX_QUAL Threshold", "RX_LEV Threshold", "RX_LEV Hysteresis", "TA SET GCELLHOIUO(Optional) Threshold", and "TA Hysteresis" together. NO
NO
One of the parameters that decide the underlay and overlay areas. The underlay and overlay areas are determined by "RX_QUAL Threshold", "RX_LEV Threshold", "RX_LEV Hysteresis", "TA SET GCELLHOIUO(Optional) Threshold", and "TA Hysteresis" together. NO
NO
One of the parameters that decide the underlay and overlay areas. If "Enhanced Concentric Allowed" is set to OFF, the underlay and overlay areas are determined by "RX_QUAL Threshold", "RX_LEV Threshold", "RX_LEV Hysteresis", "TA Threshold", and "TA Hysteresis" together; if "Enhanced Concentric Allowed" is set to ON, the underlay and overlay areas are determined by "RX_QUAL Threshold", "UtoO HO Received Level Threshold", "OtoU HO Received Level Threshold", "TA Threshold", and SET GCELLHOIUO(Optional) "TA Hysteresis" together. NO
NO
One of the parameters that determine the coverage of the OL subcell and UL subcell. When "Enhanced Concentric Allowed" is set to OFF, "TA Hysteresis", "RX_LEV Threshold", "RX_LEV Hysteresis", "RX_QUAL Threshold", and "TA Threshold" determine the coverage of the OL subcell and UL subcell. When "Enhanced Concentric Allowed" is set to ON, "TA Hysteresis", "UtoO HO Received Level Threshold", "OtoU HO Received Level Threshold", "RX_QUAL Threshold", and "TA Threshold" determine the coverage of the OL SET GCELLHOIUO(Optional) subcell and UL subcell. NO
NO
One of the parameters that determine the coverage of the OL subcell and UL subcell. When "Enhanced Concentric Allowed" is set to OFF, "TA Hysteresis", "RX_LEV Threshold", "RX_LEV Hysteresis", "RX_QUAL Threshold", and "TA Threshold" determine the coverage of the OL subcell and UL subcell. When "Enhanced Concentric Allowed" is set to ON, "TA Hysteresis", "UtoO HO Received Level Threshold", "OtoU HO Received Level Threshold", "RX_QUAL Threshold", and "TA Threshold" determine the coverage of the OL SET GCELLHOIUO(Optional) subcell and UL subcell. NO
NO
The triggering of concentric circle handovers must meet the P/N criteria, that is, when P out of N measurement reports meet the condition for concentric circle handovers, a concentric circle handover is triggered. This parameter SET GCELLHOIUO(Optional) corresponds to the N in the P/N criteria. NO
NO
The triggering of concentric circle handovers must meet the P/N criteria, that is, when P out of N measurement reports meet the condition for concentric circle handovers, a concentric circle handover is triggered. This parameter SET GCELLHOIUO(Optional) corresponds to the P in the P/N criteria. NO
NO
Channel assignment policies used when TCHs are assigned in an IUO cell: SysOpt: The system selects the preferentially-assigned service layer and assigns channels according to the measurement reports on SDCCHs; USubcell: preferentially assigns the TCHs on the underlay; OSubcell: preferentially assigns the TCHs on the overlay; NoPrefer: use the normal channel SET GCELLHOIUO(Optional) assignment algorithm to assign channels. NO
NO
Preferentially assigns channels on the overlay when the uplink receive level on the SDCCH is no smaller than "Assign-optimum-level Threshold" and the TA is smaller than "TA Threshold of Assignment Pref"; otherwise, assigns channels on the underlay to ensure SET GCELLHOIUO(Optional) successful channel assignment.
NO
NO
Preferentially assigns channels on the overlay when the uplink receive level on the SDCCH is no smaller than "Assign-optimum-level Threshold" and the TA is smaller than "TA Threshold of Assignment Pref"; otherwise, assigns channels on the underlay to ensure SET GCELLHOIUO(Optional) successful channel assignment.
NO
NO
Whether to assign channels according to the access_delay value in channel request messages during immediate channel SET GCELLHOIUO(Optional) assignment
NO
NO
When the access_delay value in the channel request message is smaller than this parameter, the overlay channels are assigned preferentially; otherwise, the underlay channels are assigned SET GCELLHOIUO(Optional) preferentially. NO
NO
Whether to assign a channel in the overlaid or underlaid subcell in the case of the intra-BSC incoming handover to the concentric cell. If this parameter is set to SysOpt, the measured BCCH of the target cell is included in the intraBSC inter-cell handover request message. Then, the BSC compares the measured value with "RX_LEV Threshold" to choose the preferred subcell. During this course, the BSC does not consider "RX_LEV Hysteresis". If this parameter is set to OSubcell, a channel in the overlaid subcell is assigned preferentially. If this parameter is set to USubcell, a channel in the underlaid subcell is assigned preferentially. If this parameter is set to NoPrefer, a channel is assigned simply according to channel SET GCELLHOIUO(Optional) assignment algorithms. NO
NO
Subcell preferred during the incoming inter-BSC handover to the concentric cell. In the case of incoming inter-BSC handover to the concentric SET GCELLHOIUO(Optional) cell, the channels in this subcell are preferred. NO
NO
One of the parameters that decide the underlay and overlay areas in an enhanced IUO cell. The underlay and overlay areas are decided by "OtoU HO Received Level Threshold", "UtoO HO Received Level Threshold", "RX_QUAL Threshold", "TA Threshold", and "TA Hysteresis" SET GCELLHOIUO(Optional) together. NO
NO
One of the parameters that determine the coverage of the OL subcell and of the UL subcell. "UtoO HO Received Level Threshold", "OtoU HO Received Level Threshold", "ReceiveQualThrshAMRFR", "TA Threshold", and "TA Hysteresis" determine the coverage of SET GCELLHOIUO(Optional) the OL subcell and UL subcell.
NO
NO
When this parameter is set to YES, the existing call is performed in the OL subcell, and "OL to UL HO Allowed" is set to YES, an OL subcell to UL subcell handover is triggered if the traffic volume in the UL subcell is smaller than "En Iuo Out Cell Low Load Thred". If the existing call is performed in the UL subcell, a UL subcell to OL subcell handover is triggered, and "UL to OL HO Allowed" is set to YES, the timer is started and the calls in the UL subcell are hierarchically handed over to the OL subcell if the traffic volume in the UL subcell reaches "En Iuo Out Cell General OverLoad Thred". Otherwise, if the traffic volume in the UL subcell is smaller than "En Iuo Out Cell General OverLoad Thred", the timer stops, and hierarchical handovers are not performed. If this parameter is set to NO, the traffic volume in the UL subcell is not taken into account for triggering the UL subcell to OL subcell handover or the OL subcell to UL subcell handover in an SET GCELLHOIUO(Optional) enhanced concentric cell. NO
NO
Hierarchical handover period of the load handover from the UL subcell to the OL subcell. If the channel seizure ratio of the UL subcell is greater than the UL subcell general overload threshold, all the calls in the cell send handover requests at the same time and the load on the BSC increases in a short time. Thus, congestion may occur in the target cell and call drops may be caused. Through the hierarchical load handover algorithm, the calls in the cell are handed over to the OL subcell by level. This parameter indicates the duration for which each SET GCELLHOIUO(Optional) each level of handover lasts. NO
NO
After an MS performs a OL subcell to UL subcell handover successfully, the MS cannot be handed over to the OL subcell again within the SET GCELLHOIUO(Optional) value of the parameter. NO
NO
After an UL subcell to OL subcell handover of an MS fails, the MS does not perform UL subcell to OL subcell handovers within the value of the SET GCELLHOIUO(Optional) parameter. NO
NO
After an OL subcell to UL subcell handover of an MS fails, the MS does not perform OL subell-UL subcell handovers within the value of the SET GCELLHOIUO(Optional) parameter. NO
NO
When a UL subcell-OL subcel handover decision is performed to a call, the BSC determines whether the number of handover failures reaches the "MaxRetry Time after UtoO Fail". If the number reaches the threshold, the UL subcell to OL subcell handover is prohibited. Otherwise, the UL subcell to OL subcell handover is allowed.If the value of this parameter is 0, the number of handover attempts after a handover from the underlaid SET GCELLHOIUO(Optional) subcell to the overlaid subcell fails is not limited. NO
NO
If the load of the underlaid subcell is less than this threshold, certain calls in the overlaid subcell are handed over to the underlaid subcell to balance the traffic between the overlaid and SET GCELLHOIUO(Optional) underlaid subcells. NO
NO
If the load of the underlaid subcell is greater than this threshold, certain calls in the underlaid subcell are handed over to the overlaid subcell to balance the traffic between the overlaid and SET GCELLHOIUO(Optional) underlaid subcells. NO
NO
If the load of the underlaid subcell is greater than this threshold, the period of the load-based handover from the underlaid subcell to the overlaid subcell, "UL Subcell Load Hierarchical HO Periods", is decreased by "MOD Step LEN of UL Load HO Period" every second to accelerate SET GCELLHOIUO(Optional) the handover. NO
NO
If all the calls in the overlaid subcell are handed over to the underlaid subcell when the channel seizure ratio of the underlaid subcell is less than "En Iuo Out Cell Low Load Thred", the BSC load increases sharply. In this case, the target subcell may be congested and drop calls. To avoid such a problem, the hierarchical load-based handover algorithm is used to hand over the calls from the overlaid subcell to the underlaid cell level by level. This parameter specifies the period of the SET GCELLHOIUO(Optional) handover at each hierarchy level. NO
NO
Signal level step for the hierarchical load-based handover from the overlaid subcell to the SET GCELLHOIUO(Optional) underlaid subcell
NO
NO
IUO cell receive quality threshold (AMRFR), SET GCELLHOIUO(Optional) which is used for IUO handover decision
NO
NO
IUO cell receive quality threshold (AMRHR), SET GCELLHOIUO(Optional) which is used for IUO handover decision
NO
NO
Hierarchical level step of the load handover from SET GCELLHOIUO(Optional) the UL subcell to the OL subcell NO
NO
Initial signal level used to compute the handover zone for an MS during the hierarchical loadbased handover from the underlaid subcell to the SET GCELLHOIUO(Optional) overlaid subcell of the enhanced concentric cell NO Threshold of the receive level for triggering the handover of the PS services from the overlaid SET GCELLHOIUO(Optional) subcell to the underlaid subcell NO Threshold of the receive level for triggering the handover of the PS services from the underlaid SET GCELLHOIUO(Optional) subcell to the overlaid subcell NO SET GCELLHOPANT(Mandatory) Type of an index.
NO
NO
NO
NO
YES
SET Index of a cell, uniquely identifying a cell in a GCELLHOPANT(Mandatory) BSC.
YES
YES
Name of a cell. This parameter uniquely identifies a cell in a BSC. Cell names cannot contain the following invalid characters: ,;="' In addition, cell names cannot contain two or SET more consecutive %, two or more consecutive GCELLHOPANT(Mandatory) spaces, or more than two consecutive +.
NO
YES
SET GCELLHOPANT(Optional)
Whether to enable the TRX to support antenna hopping In a GSM cell, the BCCH broadcasts the frequency, frame number, system information, and paging group. If an MS is in an unfavorable position or the antenna of the main TRX that carries the BCCH fails, the MS receives poor broadcast control signals or even cannot receive any broadcast control message from the BCCH. To avoid such a problem, the antenna hopping function is involved. With this function, the messages transmitted in the main TRX that carries the BCCH are also transmitted on the antennas of all the other TRXs in the cell in turn. This helps the MSs receive quality broadcast control data. This function can be configured only for dual-frequency BTSs. If this parameter is set to NONE, the BTS does not support antenna hopping. NO
NO
ADD GCELLHOPANTGRP(Manda tory) RMV GCELLHOPANTGRP(Manda tory) MOD GCELLHOPANTGRP(Manda tory) Type of an index.
NO
YES
ADD GCELLHOPANTGRP(Manda tory) RMV GCELLHOPANTGRP(Manda tory) MOD GCELLHOPANTGRP(Manda Index of a cell, uniquely identifying a cell in a tory) BSC.
YES
YES
ADD GCELLHOPANTGRP(Manda tory) RMV GCELLHOPANTGRP(Manda tory) MOD GCELLHOPANTGRP(Manda tory)
Name of a cell. This parameter uniquely identifies a cell in a BSC. Cell names cannot contain the following invalid characters: ,;="' In addition, cell names cannot contain two or more consecutive %, two or more consecutive spaces, or more than two consecutive +.
ADD GCELLHOPANTGRP(Manda tory) RMV GCELLHOPANTGRP(Manda tory) MOD GCELLHOPANTGRP(Manda tory)
TRX index that a hopping antenna index corresponds to. A hopping antenna enables signals of multiple TRXs to switch between several antennas instead of fixing an antenna for a TRX. This reduces the effect of Rayleigh fading on signals of some frequencies. YES
NO
YES
YES
Hoping sequence number (HSN) of a hopping antenna group. If the value of this parameter is 0, the services over a TRX are adjusted to other ADD TRXs in the hopping antenna group in GCELLHOPANTGRP(Option sequence. If this parameter is set to a value from al) 1 to 63, the services over a TRX are adjusted to MOD other TRXs in the hopping antenna group in a GCELLHOPANTGRP(Option pseudo-random manner, that is a disciplinary al) random manner. NO
NO
ADD GCELLHOPANTGRP(Option al) MOD GCELLHOPANTGRP(Option al) Index of TRX 1
NO
NO
ADD GCELLHOPANTGRP(Option al) MOD GCELLHOPANTGRP(Option al) Index of TRX 2
NO
NO
ADD GCELLHOPANTGRP(Option al) MOD GCELLHOPANTGRP(Option al) Index of TRX 3
NO
NO
ADD GCELLHOPANTGRP(Option al) MOD GCELLHOPANTGRP(Option al) Index of TRX 4
NO
NO
ADD GCELLHOPANTGRP(Option al) MOD GCELLHOPANTGRP(Option al) Index of TRX 5
NO
NO
ADD GCELLHOPANTGRP(Option al) MOD GCELLHOPANTGRP(Option al) Index of TRX 6
NO
NO
ADD GCELLHOPANTGRP(Option al) MOD GCELLHOPANTGRP(Option al) Index of TRX 7
NO
NO
ADD GCELLHOPANTGRP(Option al) MOD GCELLHOPANTGRP(Option al) Index of TRX 8
NO
NO
ADD GCELLHOPANTGRP(Option al) MOD GCELLHOPANTGRP(Option al) Index of TRX 9
NO
NO
ADD GCELLHOPANTGRP(Option al) MOD GCELLHOPANTGRP(Option al) Index of TRX 10
NO
NO
ADD GCELLHOPANTGRP(Option al) MOD GCELLHOPANTGRP(Option al) Index of TRX 11
NO
NO
ADD GCELLHOPANTGRP(Option al) MOD GCELLHOPANTGRP(Option al) Index of TRX 12
NO
NO
ADD GCELLHOPANTGRP(Option al) MOD GCELLHOPANTGRP(Option al) Index of TRX 13
NO
NO
ADD GCELLHOPANTGRP(Option al) MOD GCELLHOPANTGRP(Option al) Index of TRX 14
NO
NO
ADD GCELLHOPANTGRP(Option al) MOD GCELLHOPANTGRP(Option al) Index of TRX 15
NO
NO
ADD GCELLHOPANTGRP(Option al) MOD GCELLHOPANTGRP(Option al) Index of TRX 16
NO
NO
ADD GCELLHOPANTGRP(Option al) MOD GCELLHOPANTGRP(Option al) Index of TRX 17
NO
NO
ADD GCELLHOPANTGRP(Option al) MOD GCELLHOPANTGRP(Option al) Index of TRX 18
NO
NO
ADD GCELLHOPANTGRP(Option al) MOD GCELLHOPANTGRP(Option al) Index of TRX 19
NO
NO
ADD GCELLHOPANTGRP(Option al) MOD GCELLHOPANTGRP(Option al) Index of TRX 20
NO
NO
ADD GCELLHOPANTGRP(Option al) MOD GCELLHOPANTGRP(Option al) Index of TRX 21
NO
NO
ADD GCELLHOPANTGRP(Option al) MOD GCELLHOPANTGRP(Option al) Index of TRX 22
NO
NO
ADD GCELLHOPANTGRP(Option al) MOD GCELLHOPANTGRP(Option al) Index of TRX 23
NO
NO
Index of TRX 24
NO
NO
Type of an index.
NO
YES
Index of a cell, uniquely identifying a cell in a BSC.
NO
YES
Name of a cell. This parameter uniquely identifies a cell in a BSC. Cell names cannot contain the following invalid characters: ,;="' In addition, cell names cannot contain two or more consecutive %, two or more consecutive spaces, or more than two consecutive +.
NO
YES
ADD GCELLHOPANTGRP(Option al) MOD GCELLHOPANTGRP(Option al) SET GCELLHOPANTQUICKSET UP(Mandatory) SET GCELLHOPANTQUICKSET UP(Mandatory)
SET GCELLHOPANTQUICKSET UP(Mandatory)
SET GCELLHOPANTQUICKSET UP(Mandatory)
Whether to enable the TRX to support antenna hopping In a GSM cell, the BCCH broadcasts the frequency, frame number, system information, and paging group. If an MS is in an unfavorable position or the antenna of the main TRX that carries the BCCH fails, the MS receives poor broadcast control signals or even cannot receive any broadcast control message from the BCCH. To avoid such as problem, the antenna hopping function is involved. With this function, the messages transmitted in the main TRX that carries the BCCH are also transmitted on the antennas of all the other TRXs in the cell in turn. This helps the MSs receive quality broadcast control data. This function can be configured only for dual-frequency BTSs. NO
YES
List of IDs of carriers for frequency hopping.This parameter is represented as a character string where the IDs of the TRXs are separated by &, such as 11&22&33. NO
NO
SET GCELLHOPANTQUICKSET UP(Optional) SET GCELLHOPQUICKSETUP(M andatory) Type of an index. SET GCELLHOPQUICKSETUP(M Index of a cell, uniquely identifying a cell in a andatory) BSC.
Name of a cell. This parameter uniquely identifies a cell in a BSC. Cell names cannot contain the following invalid characters: ,;="' SET In addition, cell names cannot contain two or GCELLHOPQUICKSETUP(M more consecutive %, two or more consecutive andatory) spaces, or more than two consecutive +.
NO
YES
NO
YES
NO
YES
This parameter specifies the frequency hopping mode of a cell. When this parameter is set to "NO_FH", all the TRXs of the cell do not join in frequency hopping. When this parameter is set to "BaseBand_FH", the cell is in baseband frequency hopping mode. In this case, there can be TRXs that do not join in frequency hopping on the cell. When this parameter is set to "RF_FH", the cell is in RF frequency hopping mode. In this case, there can be TRXs that do not join in frequency hopping on the cell. When this parameter is set to "Hybrid_FH", the cell is in hybrid frequency hopping. In this case, some TRXs on the cell must join in baseband SET frequency hopping, some cells on the cell must GCELLHOPQUICKSETUP(M join in RF frequency hopping, and some cells on andatory) the cell must not join in frequency hopping. NO
YES
SET GCELLHOPQUICKSETUP(M Frequency hopping mode of the TRX that carries andatory) the BCCH NO
YES
List of IDs of carriers for frequency hopping.This SET parameter is represented as a character string GCELLHOPQUICKSETUP(O where the IDs of the TRXs are separated by &, ptional) such as 11&22&33. NO
NO
SET GCELLHOPTP(Mandatory)
Type of an index.
NO
YES
SET GCELLHOPTP(Mandatory)
Index of a cell, uniquely identifying a cell in a BSC.
YES
YES
SET GCELLHOPTP(Mandatory)
Name of a cell. This parameter uniquely identifies a cell in a BSC. Cell names cannot contain the following invalid characters: ,;="' In addition, cell names cannot contain two or more consecutive %, two or more consecutive spaces, or more than two consecutive +.
NO
YES
This parameter specifies the frequency hopping mode of a cell. When this parameter is set to "NO_FH", all the TRXs of the cell do not join in frequency hopping. When this parameter is set to "BaseBand_FH", the cell is in baseband frequency hopping mode. In this case, there can be TRXs that do not join in frequency hopping on the cell. When this parameter is set to "RF_FH", the cell is in RF frequency hopping mode. In this case, there can be TRXs that do not join in frequency hopping on the cell. When this parameter is set to "Hybrid_FH", the cell is in hybrid frequency hopping. In this case, some TRXs on the cell must join in baseband frequency hopping, some cells on the cell must join in RF frequency hopping, and some cells on the cell must not join in frequency hopping. NO
SET GCELLHOPTP(Optional) SET GCELLHOTDDBA2(Mandato ry) Type of an index. SET GCELLHOTDDBA2(Mandato Index of a cell, uniquely identifying a cell in a ry) BSC.
Name of a cell. This parameter uniquely identifies a cell in a BSC. Cell names cannot contain the following invalid characters: ,;="' SET In addition, cell names cannot contain two or GCELLHOTDDBA2(Mandato more consecutive %, two or more consecutive ry) spaces, or more than two consecutive +. SET Whether the FDD BA2 table is generated GCELLHOTDDBA2(Mandato automatically according to the neighboring ry) relation or typed manually. SET GCELLHOTDDBA2(Mandato ry) Number of a row to be changed in a BA list SET GCELLHOTDDBA2(Mandato ry) Used for parameter control
SET GCELLHOTDDBA2(Mandato ry) Downlink frequency of the external 3G cell
NO
NO
YES
YES
YES
NO
YES
NO
YES
NO
YES
NO
YES
NO
YES
Cell parameter ID of a TDD cell. The cell parameter ID distinguishes between MSs or cells. It is used after spread spectrum. Therefore, it distinguishes between the signals from different sources, but not the changes in SET the bandwidth of signals. Through scrambling, GCELLHOTDDBA2(Mandato multiple transceivers can use the same codes ry) for spread spectrum.
NO
SyncCase in the TDDBA1 table. This parameter determines the synchronization status. Value 0 SET indicates Sync case 1 and value 1 indicates GCELLHOTDDBA2(Mandato Sync case 2. This parameter is used to identify ry) different 3G cells. NO SET GCELLHOTDDBA2(Mandato Whether to activate transmit diversity on the ry) common channel of a 3G cell NO SET GCELLHOUTRANFDD(Mand atory) Type of an index. NO SET GCELLHOUTRANFDD(Mand Index of a cell, uniquely identifying a cell in a atory) BSC. YES
YES
YES
YES
YES
YES
Name of a cell. This parameter uniquely identifies a cell in a BSC. Cell names cannot contain the following invalid characters: ,;="' SET In addition, cell names cannot contain two or GCELLHOUTRANFDD(Mand more consecutive %, two or more consecutive atory) spaces, or more than two consecutive +.
NO
YES
SET GCELLHOUTRANFDD(Optio This parameter specifies whether to allow 3G nal) better cell handover algorithm.
NO
NO
This parameter specifies whether a 2G cell or to a 3G cell is preferentially selected as the target cell for handover. When this parameter is set to Pre_2G_Cell, the BSC preferentially selects a 2G candidate cell as the target cell for handover. When this parameter is set to Pre_3G_Cell, the BSC preferentially selects a 3G candidate cell as the target cell for handover. When this parameter is set to Pre_2G_CellThres, the BSC preferentially selects a neighboring 3G cell as the handover target cell if the receive level of the neighboring 2G cell that ranks the first in the candidate cell list is equal to or smaller than "HO SET Preference Threshold for 2G Cell". Otherwise, GCELLHOUTRANFDD(Optio the BSC preferentially selects a neighboring 2G nal) cell as the handover target cell. NO
NO
If the receive level of the neighboring 2G cell that ranks the first in the candidate cell list is equal to or smaller than this threshold, the BSC preferentially selects a neighboring 3G cell as SET the handover target cell. Otherwise, the BSC GCELLHOUTRANFDD(Optio preferentially selects a neighboring 2G cell as nal) the handover target cell. NO
NO
SET The 3G better cell handover is triggered only GCELLHOUTRANFDD(Optio when the RSCP of a neighboring 3G cell is nal) greater than this threshold for a period of time.
NO
NO
SET GCELLHOUTRANFDD(Optio nal) SET GCELLHOUTRANTDD(Mand atory) SET GCELLHOUTRANTDD(Mand atory)
The 3G better cell handover can be triggered only when the Ec/No of a neighboring 3G cell is greater than this threshold for a period of time. NO
NO
Type of an index.
NO
YES
Index of a cell, uniquely identifying a cell in a BSC.
YES
YES
NO
YES
Name of a cell. This parameter uniquely identifies a cell in a BSC. Cell names cannot contain the following invalid characters: ,;="' SET In addition, cell names cannot contain two or GCELLHOUTRANTDD(Mand more consecutive %, two or more consecutive atory) spaces, or more than two consecutive +.
This parameter specifies whether a 2G cell or to a 3G cell is preferentially selected as the target cell for handover. When this parameter is set to Pre_2G_Cell, the BSC preferentially selects a 2G candidate cell as the target cell for handover. When this parameter is set to Pre_3G_Cell, the BSC preferentially selects a 3G candidate cell as the target cell for handover. When this parameter is set to Pre_2G_CellThres, the BSC preferentially selects a neighboring 3G cell as the handover target cell if the receive level of the neighboring 2G cell that ranks the first in the candidate cell list is equal to or smaller than "HO SET Preference Threshold for 2G Cell". Otherwise, GCELLHOUTRANTDD(Optio the BSC preferentially selects a neighboring 2G nal) cell as the handover target cell. NO
NO
If the receive level of the neighboring 2G cell that ranks the first in the candidate cell list is equal to or smaller than this threshold, the BSC preferentially selects a neighboring 3G cell as SET the handover target cell. Otherwise, the BSC GCELLHOUTRANTDD(Optio preferentially selects a neighboring 2G cell as nal) the handover target cell. NO
NO
SET The 3G better cell handover is triggered only GCELLHOUTRANTDD(Optio when the RSCP of a neighboring 3G cell is nal) greater than this threshold for a period of time.
NO
NO
SET GCELLHOUTRANTDD(Optio This parameter specifies whether to allow 3G nal) better cell handover algorithm.
NO
NO
SET GCELLIDLEAD(Mandatory)
Type of an index.
NO
YES
SET GCELLIDLEAD(Mandatory)
Index of a cell, uniquely identifying a cell in a BSC.
YES
YES
SET GCELLIDLEAD(Mandatory)
Name of a cell. This parameter uniquely identifies a cell in a BSC. Cell names cannot contain the following invalid characters: ,;="' In addition, cell names cannot contain two or more consecutive %, two or more consecutive spaces, or more than two consecutive +.
NO
YES
SET GCELLIDLEAD(Optional)
Used for notifying MSs where to retrieve relevant parameters during cell reselection. The default value of this parameter is 0 in system message 3 and, has no special significance. In system message 4, if the value of this parameter is 0, it means that the MSs must retrieve the PI parameters and other parameters relevant to cell reselection and the parameters relevant to C2 calculation from the remaining bytes of system message 4.If the value is 1, it means that the MS must retrieve the parameters from the remaining bytes of system message 7 or 8. NO
NO
SET GCELLIDLEAD(Optional)
Cell Reselect Temporary Offset (TO) indicates the temporary correction of C2. This parameter is valid only within the value specified by "Cell Reselect Penalty Time". For details, see GSM Rec. 05.08 and 04.08. This parameter applies to only GSM Phase II MSs. NO
NO
Cell Reselect Penalty Time (PT) is used to ensure the safety and validity of cell reselection because it helps to avoid frequent cell reselection. For details, see GSM Rec. 05.08 and 04.08.
NO
NO
NO
YES
YES
YES
NO
YES
SET GCELLIDLEAD(Optional) SET GCELLIDLEBASIC(Mandator y) Type of an index. SET GCELLIDLEBASIC(Mandator Index of a cell, uniquely identifying a cell in a y) BSC.
Name of a cell. This parameter uniquely identifies a cell in a BSC. Cell names cannot contain the following invalid characters: ,;="' SET In addition, cell names cannot contain two or GCELLIDLEBASIC(Mandator more consecutive %, two or more consecutive y) spaces, or more than two consecutive +.
Attach-detach Allowed (ATT). If this parameter is set to YES, when an MS is powered off, the network does not process any call connection for SET the MS as a called party. In this way, the network GCELLIDLEBASIC(Optional) processing time and resources are saved. NO
NO
Tx-integer (T for short). This parameter specifies the number of timeslots between two transmissions when an MS sends multiple consecutive channel requests. The access algorithm is defined in GSM Rec. 04.08 to reduce the collisions on the RACH and improve the efficiency of the RACH. The algorithm specifies three parameters: Tx-integer (T for short), maximum number of retransmissions (RET), and S related to channel combination. This parameter works with the configuration of the CCCH to determine the parameter S. The relations between this parameter and the configuration of the CCCH are as follows: When this parameter is set to 3, 8, 14, or 50, S is 55 if the CCCH and SDCCH do not share a physical channel. When this parameter is set to 3, 8, 14, or 50, S is 41 if the CCCH and SDCCH share a physical channel. When this parameter is set to 4, 9, or 6, S is 76 if the CCCH and SDCCH do not share a physical channel. When this parameter is set to 4, 9, or 6, S is 52 if the CCCH and SDCCH share a physical channel. When this parameter is set to 5, 10, or 20, S is 109 if the CCCH and SDCCH do not share a physical channel. When this parameter is set to 5, 10, or 20, S is 58 if the CCCH and SDCCH share a physical channel. SET When this parameter is set to 6, 11, or 25, S is GCELLIDLEBASIC(Optional) 163 if the CCCH and SDCCH do not share a NO
NO
Used together with "Cell Bar Qualify" to decide the priority status of a cell. Refer to GSM Rec. 04.08. Cell Bar Qualify Cell Bar Access Cell selection priority Cell reselection priority NO NO Normal Normal NO YES Prohibited Prohibited YES NO Low Normal SET YES YES Low GCELLIDLEBASIC(Optional) Normal
NO
NO
Used together with "Cell Bar Access" to decide the priority status of a cell. See GSM Rec. 0408. This parameter does not affect cell reselection but cell selection only. Cell Bar Qualify Cell Bar Access Cell selection priority Cell reselection priority NO NO Normal Normal NO YES Prohibited Prohibited SET YES NO Low Normal GCELLIDLEBASIC(Optional) YES YES Low Normal NO
NO
BS-AG-BLKS-RES, indicating the number of the CCCH message blocks reserved for the AGCH. After the CCCHs are configured, the value of this SET parameter indicates the actual seizure rates of GCELLIDLEBASIC(Optional) the AGCHs and the PCHs over the CCCHs. NO
NO
Number of multiframes in a cycle on a paging sub-channel. In fact, this parameter specifies the number of paging sub-channels that a paging channel in a cell is divided into. In an actual network, an MS does not listen to other paging sub-channels but its belonging paging sub-channel only. Refer to GSM Rec. 05.02 and GSM Rec. 05.08. The larger the value of this parameter, the more the number of the paging sub-channels in a cell, and the fewer the number of the users belonging to each paging sub-channel. In this case, the mean uptime of the MS battery can be prolonged. Refer to the computing mode of paging group in GSM 05.02 of GSM Standards. The larger the value of this parameter, however, the larger the time delay of a paging message in a space segment. Thus, the average service performance of the system lowers. Based on the principle of ensuring that overload does not occur to paging channels, you must set this parameter to a value as small as possible. You must regularly measure the overload conditions of the paging channels in a running network and accordingly adjust the value of this parameter properly. A paging message in a location area must be sent in all the cells within this location area at the same time. Therefore, the capacity of a paging channel of each cell in a location area must be the same or nearly the SET same. The capacity refers to the calculated GCELLIDLEBASIC(Optional) number of paging sub-channels of each cell. NO
NO
SET This parameter specifies the length of the timer GCELLIDLEBASIC(Optional) for periodic location update.
NO
NO
Cell reselection hysteresis. This is one of the parameters used for deciding whether to reselect cells in different location areas. This parameter can avoid the increase of network signaling SET traffic due to frequent location update and GCELLIDLEBASIC(Optional) reduce the risk of losing paging messages. NO
NO
Cell Reselect Parameters Indication (PI), sent on the broadcast channel, indicates whether "Cell Reselect Offset", "Cell Reselect Temporary SET Offset" in the "SET GCELLIDLEAD" command, GCELLIDLEBASIC(Optional) and "Cell Reselect Penalty Time" are used. NO
NO
A set of NCCs of the cells to be measured by the MS. This parameter is an information element (IE) in the system information type 2 and 6 messages. If a bit of the value of this parameter is set to 1, the MS reports the corresponding measurement report to the BTS. The value of this parameter has a byte (eight bits). Each bit maps with an NCC (0~7) and the most significant bit SET corresponds to NCC 7. If bit N is 0, the MS does GCELLIDLEBASIC(Optional) not measure the cell level of NCC N. NO
NO
Cell Reselect Offset (CRO), indicating a correction of the C2. Proper setting of this parameter can reduce the number of handover times, helpful for assigning an MS to a better cell. In a special case that the PT is 31, the larger the CRO value is, the lower the possibility of handing over an MS to the cell. Generally, do not set the CRO to a value larger than 25 dB. The CRO with a too large value will cause uncertain states in a network. The CRO values of the cells with different priorities in a network are almost the same. Refer to GSM Rec. 05.08 and GSM Rec. 04.08. The setting of SET this parameter affects only the MSs supporting GCELLIDLEBASIC(Optional) the protocol of GSM Phase 2 or a later version. NO
NO
SET GCELLIDLEFDDBA1(Mandat ory) Type of an index. SET GCELLIDLEFDDBA1(Mandat Index of a cell, uniquely identifying a cell in a ory) BSC. Name of a cell. This parameter uniquely identifies a cell in a BSC. Cell names cannot contain the following invalid characters: ,;="' SET In addition, cell names cannot contain two or GCELLIDLEFDDBA1(Mandat more consecutive %, two or more consecutive ory) spaces, or more than two consecutive +.
NO
YES
YES
YES
NO
YES
Input mode of the BA lists. AUTO: In this mode, the system fills in the BA1 and BA2 lists according to neighboring relations of cells. MANU: In this mode, you can maintain the BA tables by yourself. If the neighboring relations of SET cells are changed, for example, after a GCELLIDLEFDDBA1(Mandat neighboring cell is added or deleted, you must ory) maintain the BA1 and BA2 lists by yourself. NO SET GCELLIDLEFDDBA1(Mandat ory) Number of a row to be changed in a BA list NO SET GCELLIDLEFDDBA1(Mandat ory) Used for parameter control NO
Downlink frequency number that an MS in the connected mode retrieves from the 3G neighboring cell list. The numbers are sent SET through system message 2QUATER/MI. The GCELLIDLEFDDBA1(Mandat value ranges of frequency numbers vary with ory) corresponding band reporting.
YES
YES
YES
NO
YES
Scrambling code of a 3G cell, used for distinguishing MSs or cells. Scrambling codes are used after spreading. Therefore, the bandwidth of a signal is not changed. Instead, signals from different sources are differentiated. Scrambling prevents multiple transmitters from using the same code word for spreading. SET On the uplink, the scrambling function is used for GCELLIDLEFDDBA1(Mandat differentiating MSs. On the downlink, the ory) function is used for differentiating cells. NO
YES
Diversity indication of a 3G cell. This parameter indicates whether the transmit diversity mode on the common channel in a cell is activated.0 means No,1 means Yes. NO
YES
Type of an index.
NO
YES
Index of a cell, uniquely identifying a cell in a BSC.
YES
YES
NO
YES
Input mode of the BA table. In auto mode, the system fills in the BA1 and BA2 tables based on the adjacent relation of cells. In manual mode, the user maintains the BA table. If the adjacent SET relation of cells is modified, for example, a GCELLIDLETDDBA1(Mandat neighboring cell is added or a cell is deleted, the ory) user needs to maintain the BA1 and BA2 tables. NO SET GCELLIDLETDDBA1(Mandat ory) Number of a row to be changed in a BA list NO SET GCELLIDLETDDBA1(Mandat ory) Used for parameter control NO
YES
SET GCELLIDLEFDDBA1(Mandat ory) SET GCELLIDLETDDBA1(Mandat ory) SET GCELLIDLETDDBA1(Mandat ory)
Name of a cell. This parameter uniquely identifies a cell in a BSC. Cell names cannot contain the following invalid characters: ,;="' SET In addition, cell names cannot contain two or GCELLIDLETDDBA1(Mandat more consecutive %, two or more consecutive ory) spaces, or more than two consecutive +.
YES
YES
Downlink frequency of frequency 1 in table 3GBA2. This parameter indicates the detected SET downlink frequency in the 3G adjacent cell list in GCELLIDLETDDBA1(Mandat speech. The parameter is delivered in the ory) system information 2QUTER/MI. NO
YES
TDD cell parameter ID. The ID is used to distinguish terminals or cells. This parameter is used after spread spectrum. Therefore, it does not change the bandwidth of signals, but only SET distinguishes the signals from different sources. GCELLIDLETDDBA1(Mandat Through scrambling, multiple transceivers can ory) use the same codes for spread spectrum. NO
YES
SyncCase in the TDDBA1 table. This parameter determines the synchronization status. Value 0 SET indicates Sync case 1 and value 1 indicates GCELLIDLETDDBA1(Mandat Sync case 2. This parameter is used to identify ory) different 3G cells. NO
YES
SET This parameter specifies whether to activate the GCELLIDLETDDBA1(Mandat diversity mode on the common channel of a 3G ory) cell. NO
YES
SET GCELLLCS(Mandatory) Type of an index.
NO
YES
Index of a cell, uniquely identifying a cell in a SET GCELLLCS(Mandatory) BSC.
YES
YES
Name of a cell. This parameter uniquely identifies a cell in a BSC. Cell names cannot contain the following invalid characters: ,;="' In addition, cell names cannot contain two or more consecutive %, two or more consecutive SET GCELLLCS(Mandatory) spaces, or more than two consecutive +.
NO
YES
SET GCELLLCS(Optional)
Mode of inputting the latitude and longitude of a cell location
NO
NO
SET GCELLLCS(Optional)
Whether the cell is located in the south latitude or north latitude
NO
NO
Integer value when the latitude where a cell is SET GCELLLCS(Mandatory) located is indicated in the format of degree
NO
YES
Decimal value when the latitude where a cell is SET GCELLLCS(Mandatory) located is indicated in the format of degree
NO
YES
SET GCELLLCS(Optional)
This parameter is used to select the location of a cell, east or west longitude. NO
Integer value when the longitude where a cell is SET GCELLLCS(Mandatory) located is indicated in the format of degree
NO
NO
YES
Decimal value when the longitude where a cell is SET GCELLLCS(Mandatory) located is indicated in the format of degree NO
YES
Decimal value when the longitude where a cell is SET GCELLLCS(Mandatory) located is indicated in the format of degree NO
YES
Value of the minute part when the latitude is SET GCELLLCS(Mandatory) indicated in the format of degree_minute_second NO Integer value of the second part when the latitude is indicated in the format of SET GCELLLCS(Mandatory) degree_minute_second NO Decimal value of the second part when the latitude is indicated in the format of SET GCELLLCS(Mandatory) degree_minute_second NO Value of the degree part when the latitude is SET GCELLLCS(Mandatory) indicated in the format of degree_minute_second NO Value of the minute part when the longitude is SET GCELLLCS(Mandatory) indicated in the format of degree_minute_second NO Integer value of the second part when the longitude is indicated in the format of SET GCELLLCS(Mandatory) degree_minute_second NO Decimal value of the second part when the longitude is indicated in the format of SET GCELLLCS(Mandatory) degree_minute_second NO
YES
YES
YES
YES
YES
YES
YES
SET GCELLLCS(Optional)
Size of the azimuth angle of the cell antenna
NO
NO
SET GCELLLCS(Optional)
Included angle formed by the major lobe azimuths of the antennas in two cells under one BTS. A major lobe azimuth is measured from the due north to the direction of the cell antenna in a clockwise rotation. NO
NO
SET GCELLLCS(Optional)
Integer part of the antenna altitude
NO
NO
SET GCELLLCS(Optional)
Decimal part of the antenna altitude
NO
NO
ADD GCELLMAGRP(Mandatory) MOD GCELLMAGRP(Mandatory) RMV GCELLMAGRP(Mandatory)
Type of an index.
NO
YES
ADD GCELLMAGRP(Mandatory) MOD GCELLMAGRP(Mandatory) RMV GCELLMAGRP(Mandatory)
Index of a cell, uniquely identifying a cell in a BSC.
YES
YES
ADD GCELLMAGRP(Mandatory) MOD GCELLMAGRP(Mandatory) RMV GCELLMAGRP(Mandatory)
Name of a cell. This parameter uniquely identifies a cell in a BSC. Cell names cannot contain the following invalid characters: ,;="' In addition, cell names cannot contain two or more consecutive %, two or more consecutive spaces, or more than two consecutive +.
NO
YES
ADD GCELLMAGRP(Mandatory) MOD GCELLMAGRP(Mandatory) RMV GCELLMAGRP(Mandatory)
Index of the frequency hopping data, used for a TRX to locate the frequency hopping sequence
YES
YES
ADD GCELLMAGRP(Optional) MOD GCELLMAGRP(Optional)
Hopping sequence number (HSN), indicating 64 types of frequency hopping sequences. If this parameter is set to 0, the frequency hopping is performed in sequence. If this parameter is set to a value from 1 to 63, the frequency hopping is performed in a pseudorandom manner, that is a disciplinary random manner. NO
NO
ADD GCELLMAGRP(Optional) MOD GCELLMAGRP(Optional)
The TSC is short for the Training Sequence Code. For BCCH and CCCH, the TSC must be the same as the BCC. The delay equalization is performed by using the specified TSC when the MS or BTS receives the signal. The demodulation cannot be received because the delay equalization cannot be performed for the signals with same frequency using different TSCs. This can effectively prevent incorrectly invalid reception, and prevent the co-channel interference.
NO
NO
ADD GCELLMAGRP(Mandatory) MOD GCELLMAGRP(Optional)
Implementation mode of frequency hopping
NO
YES
ADD GCELLMAGRP(Optional) MOD GCELLMAGRP(Optional)
Frequency 1
NO
NO
ADD GCELLMAGRP(Optional) MOD GCELLMAGRP(Optional)
Frequency 2
NO
NO
ADD GCELLMAGRP(Optional) MOD GCELLMAGRP(Optional)
Frequency 3
NO
NO
ADD GCELLMAGRP(Optional) MOD GCELLMAGRP(Optional)
Frequency 4
NO
NO
ADD GCELLMAGRP(Optional) MOD GCELLMAGRP(Optional)
Frequency 5
NO
NO
ADD GCELLMAGRP(Optional) MOD GCELLMAGRP(Optional)
Frequency 6
NO
NO
ADD GCELLMAGRP(Optional) MOD GCELLMAGRP(Optional)
Frequency 7
NO
NO
ADD GCELLMAGRP(Optional) MOD GCELLMAGRP(Optional)
Frequency 8
NO
NO
ADD GCELLMAGRP(Optional) MOD GCELLMAGRP(Optional)
Frequency 9
NO
NO
ADD GCELLMAGRP(Optional) MOD GCELLMAGRP(Optional)
Frequency 10
NO
NO
ADD GCELLMAGRP(Optional) MOD GCELLMAGRP(Optional)
Frequency 11
NO
NO
ADD GCELLMAGRP(Optional) MOD GCELLMAGRP(Optional)
Frequency 12
NO
NO
ADD GCELLMAGRP(Optional) MOD GCELLMAGRP(Optional)
Frequency 13
NO
NO
ADD GCELLMAGRP(Optional) MOD GCELLMAGRP(Optional)
Frequency 14
NO
NO
ADD GCELLMAGRP(Optional) MOD GCELLMAGRP(Optional)
Frequency 15
NO
NO
ADD GCELLMAGRP(Optional) MOD GCELLMAGRP(Optional)
Frequency 16
NO
NO
ADD GCELLMAGRP(Optional) MOD GCELLMAGRP(Optional)
Frequency 17
NO
NO
ADD GCELLMAGRP(Optional) MOD GCELLMAGRP(Optional)
Frequency 18
NO
NO
ADD GCELLMAGRP(Optional) MOD GCELLMAGRP(Optional)
Frequency 19
NO
NO
ADD GCELLMAGRP(Optional) MOD GCELLMAGRP(Optional)
Frequency 20
NO
NO
ADD GCELLMAGRP(Optional) MOD GCELLMAGRP(Optional)
Frequency 21
NO
NO
ADD GCELLMAGRP(Optional) MOD GCELLMAGRP(Optional)
Frequency 22
NO
NO
ADD GCELLMAGRP(Optional) MOD GCELLMAGRP(Optional)
Frequency 23
NO
NO
ADD GCELLMAGRP(Optional) MOD GCELLMAGRP(Optional)
Frequency 24
NO
NO
ADD GCELLMAGRP(Optional) MOD GCELLMAGRP(Optional)
Frequency 25
NO
NO
ADD GCELLMAGRP(Optional) MOD GCELLMAGRP(Optional)
Frequency 26
NO
NO
ADD GCELLMAGRP(Optional) MOD GCELLMAGRP(Optional)
Frequency 27
NO
NO
ADD GCELLMAGRP(Optional) MOD GCELLMAGRP(Optional)
Frequency 28
NO
NO
ADD GCELLMAGRP(Optional) MOD GCELLMAGRP(Optional)
Frequency 29
NO
NO
ADD GCELLMAGRP(Optional) MOD GCELLMAGRP(Optional)
Frequency 30
NO
NO
ADD GCELLMAGRP(Optional) MOD GCELLMAGRP(Optional)
Frequency 31
NO
NO
ADD GCELLMAGRP(Optional) MOD GCELLMAGRP(Optional)
Frequency 32
NO
NO
ADD GCELLMAGRP(Optional) MOD GCELLMAGRP(Optional)
Frequency 33
NO
NO
ADD GCELLMAGRP(Optional) MOD GCELLMAGRP(Optional)
Frequency 34
NO
NO
ADD GCELLMAGRP(Optional) MOD GCELLMAGRP(Optional)
Frequency 35
NO
NO
ADD GCELLMAGRP(Optional) MOD GCELLMAGRP(Optional)
Frequency 36
NO
NO
ADD GCELLMAGRP(Optional) MOD GCELLMAGRP(Optional)
Frequency 37
NO
NO
ADD GCELLMAGRP(Optional) MOD GCELLMAGRP(Optional)
Frequency 38
NO
NO
ADD GCELLMAGRP(Optional) MOD GCELLMAGRP(Optional)
Frequency 39
NO
NO
ADD GCELLMAGRP(Optional) MOD GCELLMAGRP(Optional)
Frequency 40
NO
NO
ADD GCELLMAGRP(Optional) MOD GCELLMAGRP(Optional)
Frequency 41
NO
NO
ADD GCELLMAGRP(Optional) MOD GCELLMAGRP(Optional)
Frequency 42
NO
NO
ADD GCELLMAGRP(Optional) MOD GCELLMAGRP(Optional)
Frequency 43
NO
NO
ADD GCELLMAGRP(Optional) MOD GCELLMAGRP(Optional)
Frequency 44
NO
NO
ADD GCELLMAGRP(Optional) MOD GCELLMAGRP(Optional)
Frequency 45
NO
NO
ADD GCELLMAGRP(Optional) MOD GCELLMAGRP(Optional)
Frequency 46
NO
NO
ADD GCELLMAGRP(Optional) MOD GCELLMAGRP(Optional)
Frequency 47
NO
NO
ADD GCELLMAGRP(Optional) MOD GCELLMAGRP(Optional)
Frequency 48
NO
NO
ADD GCELLMAGRP(Optional) MOD GCELLMAGRP(Optional)
Frequency 49
NO
NO
ADD GCELLMAGRP(Optional) MOD GCELLMAGRP(Optional)
Frequency 50
NO
NO
ADD GCELLMAGRP(Optional) MOD GCELLMAGRP(Optional)
Frequency 51
NO
NO
ADD GCELLMAGRP(Optional) MOD GCELLMAGRP(Optional)
Frequency 52
NO
NO
ADD GCELLMAGRP(Optional) MOD GCELLMAGRP(Optional)
Frequency 53
NO
NO
ADD GCELLMAGRP(Optional) MOD GCELLMAGRP(Optional)
Frequency 54
NO
NO
ADD GCELLMAGRP(Optional) MOD GCELLMAGRP(Optional)
Frequency 55
NO
NO
ADD GCELLMAGRP(Optional) MOD GCELLMAGRP(Optional)
Frequency 56
NO
NO
ADD GCELLMAGRP(Optional) MOD GCELLMAGRP(Optional)
Frequency 57
NO
NO
ADD GCELLMAGRP(Optional) MOD GCELLMAGRP(Optional)
Frequency 58
NO
NO
ADD GCELLMAGRP(Optional) MOD GCELLMAGRP(Optional)
Frequency 59
NO
NO
ADD GCELLMAGRP(Optional) MOD GCELLMAGRP(Optional)
Frequency 60
NO
NO
ADD GCELLMAGRP(Optional) MOD GCELLMAGRP(Optional)
Frequency 61
NO
NO
ADD GCELLMAGRP(Optional) MOD GCELLMAGRP(Optional)
Frequency 62
NO
NO
ADD GCELLMAGRP(Optional) MOD GCELLMAGRP(Optional)
Frequency 63
NO
NO
Frequency 64
NO
NO
Type of an index.
NO
YES
Index of a cell, uniquely identifying a cell in a BSC.
YES
YES
ADD GCELLMAGRP(Optional) MOD GCELLMAGRP(Optional) SET GCELLMAIOPLAN(Mandator y) SET GCELLMAIOPLAN(Mandator y)
Name of a cell. This parameter uniquely identifies a cell in a BSC. Cell names cannot contain the following invalid characters: ,;="' SET In addition, cell names cannot contain two or GCELLMAIOPLAN(Mandator more consecutive %, two or more consecutive y) spaces, or more than two consecutive +.
NO
YES
SET GCELLMAIOPLAN(Mandator y) Logical number of the MA group
YES
YES
Mobile allocation index offset 1. Start frequency SET number, which is the number of the frequency GCELLMAIOPLAN(Optional) where frequency hopping starts
NO
NO
Mobile allocation index offset 2. Start frequency SET number, which is the number of the frequency GCELLMAIOPLAN(Optional) where frequency hopping starts
NO
NO
Mobile allocation index offset 3. Start frequency SET number, which is the number of the frequency GCELLMAIOPLAN(Optional) where frequency hopping starts
NO
NO
Mobile allocation index offset 4. Start frequency SET number, which is the number of the frequency GCELLMAIOPLAN(Optional) where frequency hopping starts
NO
NO
Mobile allocation index offset 5. Start frequency SET number, which is the number of the frequency GCELLMAIOPLAN(Optional) where frequency hopping starts
NO
NO
Mobile allocation index offset 6. Start frequency SET number, which is the number of the frequency GCELLMAIOPLAN(Optional) where frequency hopping starts
NO
NO
Mobile allocation index offset 7. Start frequency SET number, which is the number of the frequency GCELLMAIOPLAN(Optional) where frequency hopping starts
NO
NO
Mobile allocation index offset 8. Start frequency SET number, which is the number of the frequency GCELLMAIOPLAN(Optional) where frequency hopping starts
NO
NO
Mobile allocation index offset 9. Start frequency SET number, which is the number of the frequency GCELLMAIOPLAN(Optional) where frequency hopping starts
NO
NO
Mobile allocation index offset 10. Start frequency SET number, which is the number of the frequency GCELLMAIOPLAN(Optional) where frequency hopping starts NO
NO
Mobile allocation index offset 11. Start frequency SET number, which is the number of the frequency GCELLMAIOPLAN(Optional) where frequency hopping starts NO
NO
Mobile allocation index offset 12. Start frequency SET number, which is the number of the frequency GCELLMAIOPLAN(Optional) where frequency hopping starts NO
NO
Mobile allocation index offset 13. Start frequency SET number, which is the number of the frequency GCELLMAIOPLAN(Optional) where frequency hopping starts NO
NO
Mobile allocation index offset 14. Start frequency SET number, which is the number of the frequency GCELLMAIOPLAN(Optional) where frequency hopping starts NO
NO
Mobile allocation index offset 15. Start frequency SET number, which is the number of the frequency GCELLMAIOPLAN(Optional) where frequency hopping starts NO
NO
Mobile allocation index offset 16. Start frequency SET number, which is the number of the frequency GCELLMAIOPLAN(Optional) where frequency hopping starts NO
NO
Mobile allocation index offset 17. Start frequency SET number, which is the number of the frequency GCELLMAIOPLAN(Optional) where frequency hopping starts NO
NO
Mobile allocation index offset 18. Start frequency SET number, which is the number of the frequency GCELLMAIOPLAN(Optional) where frequency hopping starts NO
NO
Mobile allocation index offset 19. Start frequency SET number, which is the number of the frequency GCELLMAIOPLAN(Optional) where frequency hopping starts NO
NO
Mobile allocation index offset 20. Start frequency SET number, which is the number of the frequency GCELLMAIOPLAN(Optional) where frequency hopping starts NO
NO
Mobile allocation index offset 21. Start frequency SET number, which is the number of the frequency GCELLMAIOPLAN(Optional) where frequency hopping starts NO
NO
Mobile allocation index offset 22. Start frequency SET number, which is the number of the frequency GCELLMAIOPLAN(Optional) where frequency hopping starts NO
NO
Mobile allocation index offset 23. Start frequency SET number, which is the number of the frequency GCELLMAIOPLAN(Optional) where frequency hopping starts NO
NO
Mobile allocation index offset 24. Start frequency SET number, which is the number of the frequency GCELLMAIOPLAN(Optional) where frequency hopping starts NO
NO
SET GCELLNC2PARA(Mandatory ) SET GCELLNC2PARA(Mandatory )
Subscribers can specify the cell according to the index or the name. NO
YES
Index of a cell, uniquely identifying a cell in a BSC.
YES
YES
NO
YES
Name of a cell. This parameter uniquely identifies a cell in a BSC. Cell names cannot contain the following invalid characters: ,;="' SET In addition, cell names cannot contain two or GCELLNC2PARA(Mandatory more consecutive %, two or more consecutive ) spaces, or more than two consecutive +.
SET GCELLNC2PARA(Optional)
Minimum receive level for a neighbor cell to become a candidate cell during cell reselection. When the receive level of the serving cell is lower than the value of this parameter, it indicates that the normal cell reselection level is bad. In this case, the parameter value is used for the calculation of the times of the occurrence of bad normal cell reselection level. NO
NO
SET GCELLNC2PARA(Optional)
Indicating that during cell reselection, the level of the target cell should meet the following condition: Level of target cell > [MAX (level of serving cell, "Cell Reselection Level Threshold") + "Cell Reselection Hysteresis"]. In this way, pingpong handovers do not occur. NO
NO
SET GCELLNC2PARA(Optional)
When the cell reselection failure message is received or the load cell reselection is initiated, the "Cell Penalty Level" is subtracted from the receive level of the target cell to avoid that cell reselection failure occurs repeatedly or that multiple MSs are reselected to the same target cell. This parameter is valid only within "Cell Penalty Duration".
NO
NO
SET GCELLNC2PARA(Optional)
Penalty duration for cell reselection. Cell penalty can be performed only in this duration. When this parameter is set to a greater value, the MS cannot reselect a cell for a longer time in the case of reselection failure or reselection due to load. The penalty timer is shorter when this parameter is set to a smaller value. NO
NO
SET GCELLNC2PARA(Optional)
Number of allowed measure report missed. If the number of allowed measure report missed exceeds this value, the previous measure report is invalid. NO
NO
SET GCELLNC2PARA(Optional)
Maximum number of former values when the receive level of the serving cell or the receive level of the neighbor cell is filtered. The greater the value, the greater the weight of the former receive levels; otherwise, the greater the weight of the later receive levels.
NO
NO
SET GCELLNC2PARA(Optional)
When the number of received measurement reports on the downlink transmission quality (Packet Downlink Ack/Nack message) is greater than or equal to this threshold, emergency reselection decision is made. NO
NO
SET GCELLNC2PARA(Optional)
The number of times that the downlink transmission quality of the MS is lower than the transmission quality threshold of the MS ("EDGE GMSK Quality Threshold", "EDGE 8PSK Quality Threshold", or "GPRS Quality Threshold" by TBF type) is calculated accumulatively. When the rate of the accumulated value to the number of received measurement reports on the downlink transmission quality (Packet Downlink Ack/Nack message) is greater than or equal to the value of this parameter, the emergency reselection is triggered. NO
NO
SET GCELLNC2PARA(Optional)
When the uplink load or downlink load of the cell exceeds this threshold, the load reselection decision is made. NO
NO
SET GCELLNC2PARA(Optional)
When the uplink load or downlink load of the target cell is lower than this threshold, it can accept the MSs from the serving cell due to load reselection. NO
NO
SET GCELLNC2PARA(Optional)
Whether to allow cell urgent reselection. If this parameter is set to PERMIT and [NC2 Load Reselection Switch is set to Support, the load of the target cell is involved in the algorithm for NC2 cell reselection. NO
NO
SET GCELLNC2PARA(Optional)
Whether to allow the cell load reselection. If this parameter is set to PERMIT and "NC2 Load Reselection Switch" is set to Support, the load of the target cell is involved in the algorithm for NC2 cell reselection. NO
NO
SET GCELLNC2PARA(Optional)
Whether to allow the cell normal reselection. If this parameter is set to PERMIT and "NC2 Load Reselection Switch" is set to Support, the load of the target cell is involved in the algorithm for NC2 cell reselection. NO
NO
SET GCELLNC2PARA(Optional)
The number of received Packet Measurement Report messages on the receive level of the serving cell is measured continuously. When the statistical value is greater than or equal to the value of this parameter, the normal reselection decision is made. NO
NO
SET GCELLNC2PARA(Optional)
If the number of times when the receive level of the serving cell within "Normal Cell Reselection Watch Period" is lower than "Cell Reselection Level Threshold" is greater than the value of this parameter, the normal cell reselection is triggered. NO
NO
SET GCELLNC2PARA(Optional)
NC2 cell reselection interval in the same cell
NO
NO
SET GCELLNC2PARA(Optional)
Used for EDGE GMSK transmission quality statistics. If MEAN_BEP is less than or equals to this threshold, the transmission quality is regarded deteriorated. MEAN_BEP indicates the average error code rate in one measurement report period. NO
NO
SET GCELLNC2PARA(Optional)
Used for EDGE 8PSK transmission quality statistics. If MEAN_BEP is less than or equals to this threshold, the transmission quality is regarded to be deteriorated. MEAN_BEP indicates the average error code rate in one measurement report period. NO
NO
SET GCELLNC2PARA(Optional)
Used for the GPRS transmission quality statistics. When the transmission quality threshold is exceeded, the transmission quality is regarded deteriorated. NO
NO
SET GCELLNC2PARA(Optional)
Threshold for allowing the MS to reselect a cell during load reelection. When the receive level of the serving cell is lower than this threshold, the load reselection is triggered. NO
NO
Subscribers can specify the cell according to the index or the name. NO
YES
Index of a cell, uniquely identifying a cell in a BSC.
YES
YES
NO
YES
SET GCELLNCRESELECTPARA( Mandatory) SET GCELLNCRESELECTPARA( Mandatory)
Name of a cell. This parameter uniquely identifies a cell in a BSC. Cell names cannot contain the following invalid characters: ,;="' SET In addition, cell names cannot contain two or GCELLNCRESELECTPARA( more consecutive %, two or more consecutive Mandatory) spaces, or more than two consecutive +.
This parameter is used to prevent repeated cell reselection of a fast moving MS. The MS does SET not select this cell when the duration of GCELLNCRESELECTPARA( maintaining the BCCH signal channel strength Optional) does not reach the penalty time.
NO
NO
Timer used when the MS calculates the C2 SET (used to evaluate the channel quality during cell GCELLNCRESELECTPARA( reselection). The time information is transmitted Optional) in the system message of each cell. NO
NO
SET GCELLNCRESELECTPARA( Used for calculating C2. The MS with a large Optional) value can be assigned with high access priority. SET GCELLNWCTRLMSRPARA( Mandatory) SET GCELLNWCTRLMSRPARA( Mandatory)
NO
NO
Subscribers can specify the cell according to the index or the name. NO
YES
Index of a cell, uniquely identifying a cell in a BSC.
YES
YES
Name of a cell. This parameter uniquely identifies a cell in a BSC. Cell names cannot contain the following invalid characters: ,;="' SET In addition, cell names cannot contain two or GCELLNWCTRLMSRPARA( more consecutive %, two or more consecutive Mandatory) spaces, or more than two consecutive +.
NO
YES
SET GCELLNWCTRLMSRPARA( Optional) Period when the cell is in the non-DRX state
NO
NO
SET GCELLNWCTRLMSRPARA( Cell reselection measurement report period in Optional) packet idle mode
NO
NO
SET GCELLNWCTRLMSRPARA( Cell reselection measurement report period in Optional) packet transmission mode
NO
NO
ADD GCELLOSPMAP(Mandatory) MOD GCELLOSPMAP(Mandatory) RMV GCELLOSPMAP(Mandatory) Type of an index.
NO
YES
ADD GCELLOSPMAP(Mandatory) MOD GCELLOSPMAP(Mandatory) RMV Index of a cell, uniquely identifying a cell in a GCELLOSPMAP(Mandatory) BSC.
YES
YES
Name of a cell. This parameter uniquely identifies a cell in a BSC. ADD Cell names cannot contain the following invalid GCELLOSPMAP(Mandatory) characters: MOD ,;="' GCELLOSPMAP(Mandatory) In addition, cell names cannot contain two or RMV more consecutive %, two or more consecutive GCELLOSPMAP(Mandatory) spaces, or more than two consecutive +.
NO
YES
Code of the original signaling point (OSP) in the signaling network. In the signaling network, each signaling point is identified by a signaling point code. NO
YES
Type of an index.
YES
ADD GCELLOSPMAP(Mandatory) MOD GCELLOSPMAP(Mandatory) RMV GCELLOSPMAP(Mandatory) SET GCELLOTHBASIC(Mandator y)
NO
SET GCELLOTHBASIC(Mandator Index of a cell, uniquely identifying a cell in a y) BSC.
YES
YES
Name of a cell. This parameter uniquely identifies a cell in a BSC. Cell names cannot contain the following invalid characters: ,;="' SET In addition, cell names cannot contain two or GCELLOTHBASIC(Mandator more consecutive %, two or more consecutive y) spaces, or more than two consecutive +.
NO
YES
SET Whether to permit the low noise amplifier (LNA) GCELLOTHBASIC(Optional) bypass
NO
NO
Whether to allow the BTS to report the voice quality index (VQI). If this parameter is set to Report, the BTS reports the VQI. The BSC collects the traffic statistics on a per VQI basis. There are 11 levels of speech quality. If the level is lower, the speech quality is better. The traffic related to AMR and non-AMR is measured SET separately, and thus the speech quality is GCELLOTHBASIC(Optional) monitored. NO
NO
Whether to enable power boost before handover. When the receive level of an MS drops rapidly, a handover occurs. In this case, the BSC cannot adjust the transmit power of the MS and the BTS in time. The MS may fail to receive a handover command, thus leading to a call drop. If the value of this parameter is YES (StartUp), the transmit power of the BTS is adjusted to the maximum before the BSC sends a handover command to the MS. In addition, the transmit power of the BTS is not adjusted during the SET handover for the purpose of ensuring the GCELLOTHBASIC(Optional) success of the handover. NO
NO
SET GCELLOTHEXT(Mandatory) Type of an index.
NO
YES
SET Index of a cell, uniquely identifying a cell in a GCELLOTHEXT(Mandatory) BSC.
YES
YES
Name of a cell. This parameter uniquely identifies a cell in a BSC. Cell names cannot contain the following invalid characters: ,;="' In addition, cell names cannot contain two or SET more consecutive %, two or more consecutive GCELLOTHEXT(Mandatory) spaces, or more than two consecutive +.
NO
YES
SET GCELLOTHEXT(Optional)
Data service supported by the BSC. You can set this parameter according to actual requirements. NO
NO
SET GCELLOTHEXT(Optional)
Whether to support the discontinuous reception mechanism (DRX). To reduce the power consumption, the DRX is introduced into the GSM Specification. MSs supporting the DRX can consume less power to receive interested broadcast messages. This prolongs the service time of MS batteries. BSCs supporting the DRX must send scheduling messages to MSs so that the MSs can use the DRX function. The period occupied by broadcast messages that are contained in a scheduling message is called a scheduling period. In the sending sequence, a scheduling message contain the description of each short message to be broadcasted and the position of each broadcast message in the scheduling period. NO
NO
SET GCELLOTHEXT(Optional)
Threshold of forbidding directed retry for cells. When the value of "Assignment Cell Load Judge Enable" in "SET GCELLCCBASIC" is ENABLE, if cells support directed retry and the current cell load is greater than or equal to the value of this parameter, the BSC allocates a channel to an MS through the process of directed retry. NO
NO
SET GCELLOTHEXT(Optional)
Threshold used for interference measurement. The BSS measures the uplink quality of the radio channels occupied by MSs, and calculates and reports the interference on each of the idle channels. This helps the BSC to assign channels. According to the strength of interference signals, the interference signals are classified into five interference levels. The values of these levels are called interference band thresholds. The BTS determines the current interference level based on these thresholds, and then reports a radio resource indication message to the BSC. The BSC compares the busy and idle channels reported in the measurement report and in the radio resource indication message to determine whether to perform a handover. The interference band statistics result provides reference for threshold setting and interference analysis. For details, see GSM Rec. 08.08 and GSM Rec. 08.58. NO
NO
SET GCELLOTHEXT(Optional)
Threshold used for interference measurement. The BSS measures the uplink quality of the radio channels occupied by MSs, and calculates and reports the interference on each of the idle channels. This helps the BSC to assign channels. According to the strength of interference signals, the interference signals are classified into five interference levels. The values of these levels are called interference band thresholds. The BTS determines the current interference level based on these thresholds, and then reports a radio resource indication message to the BSC. The BSC compares the busy and idle channels reported in the measurement report and in the radio resource indication message to determine whether to perform a handover. The interference band statistics result provides reference for threshold setting and interference analysis. For details, see GSM Rec. 08.08 and GSM Rec. 08.58. NO
NO
SET GCELLOTHEXT(Optional)
Threshold used for interference measurement. The BSS measures the uplink quality of the radio channels occupied by MSs, and calculates and reports the interference on each of the idle channels. This helps the BSC to assign channels. According to the strength of interference signals, the interference signals are classified into five interference levels. The values of these levels are called interference band thresholds. The BTS determines the current interference level based on these thresholds, and then reports a radio resource indication message to the BSC. The BSC compares the busy and idle channels reported in the measurement report and in the radio resource indication message to determine whether to perform a handover. The interference band statistics result provides reference for threshold setting and interference analysis. For details, see GSM Rec. 08.08 and GSM Rec. 08.58. NO
NO
SET GCELLOTHEXT(Optional)
Threshold used for interference measurement. The BSS measures the uplink quality of the radio channels occupied by MSs, and calculates and reports the interference on each of the idle channels. This helps the BSC to assign channels. According to the strength of interference signals, the interference signals are classified into five interference levels. The values of these levels are called interference band thresholds. The BTS determines the current interference level based on these thresholds, and then reports a radio resource indication message to the BSC. The BSC compares the busy and idle channels reported in the measurement report and in the radio resource indication message to determine whether to perform a handover. The interference band statistics result provides reference for threshold setting and interference analysis. For details, see GSM Rec. 08.08 and GSM Rec. 08.58. NO
NO
SET GCELLOTHEXT(Optional)
Threshold used for interference measurement. The BSS measures the uplink quality of the radio channels occupied by MSs, and calculates and reports the interference on each of the idle channels. This helps the BSC to assign channels. According to the strength of interference signals, the interference signals are classified into five interference levels. The values of these levels are called interference band thresholds. The BTS determines the current interference level based on these thresholds, and then reports a radio resource indication message to the BSC. The BSC compares the busy and idle channels reported in the measurement report and in the radio resource indication message to determine whether to perform a handover. The interference band statistics result provides reference for threshold setting and interference analysis. For details, see GSM Rec. 08.08 and GSM Rec. 08.58. NO
NO
SET GCELLOTHEXT(Optional)
Threshold used for interference measurement. The BSS measures the uplink quality of the radio channels occupied by MSs, and calculates and reports the interference on each of the idle channels. This helps the BSC to assign channels. According to the strength of interference signals, the interference signals are classified into five interference levels. The values of these levels are called interference band thresholds. The BTS determines the current interference level based on these thresholds, and then reports a radio resource indication message to the BSC. The BSC compares the busy and idle channels reported in the measurement report and in the radio resource indication message to determine whether to perform a handover. The interference band statistics result provides reference for threshold setting and interference analysis. For details, see GSM Rec. 08.08 and GSM Rec. 08.58. NO
NO
SET GCELLOTHEXT(Optional)
Period during which interference levels are averaged. The interference levels on idle channels are averaged before the BTS sends a radio resource indication message to the BSC. The averaging result is used for classifying the interference levels on idle channels into five interference bands. For details, see GSM Rec. 08.08, 08.58, and 12.21.
NO
NO
SET GCELLOTHEXT(Optional)
Maximum number of levels that the BTS RF power decreases. This parameter is used to control the decrease in the BTS RF power. If the value is too large, the BTS power decreases too much. If the value is too small, the BTS power decreases less and the power decrease effect is not good. NO
NO
SET GCELLOTHEXT(Optional)
This parameter indicates start frame number of the BTS. It is used to keep synchronization between the BTS and MS after the BTS is reinitialized.
NO
NO
SET GCELLOTHEXT(Optional)
This parameter specifies a condition for generating a BTS alarm. When the output power of a TRX of a transmitter is lower than a fixed level, an error is generated. This parameter and "Power output reduction threshold" indicate the two thresholds of the error. If this parameter is set to a large value, the error is small. The value range is 0 to 9, indicating -10 dB to -1 dB. NO
NO
SET GCELLOTHEXT(Optional)
This parameter specifies a condition for generating a BTS alarm. When the output power of a TRX of a transmitter is lower than a fixed level, an error is generated. This parameter and "Power output error threshold" indicate the two thresholds of the error. If this parameter is set to a large value, the error is small. The value range is 0 to 9, indicating -10 dB to -1 dB. NO
NO
SET GCELLOTHEXT(Optional)
This parameter specifies a condition for generating a BTS alarm. This parameter together with "VSWR TRX error threshold" is used to detect whether the antenna system connected to the TRX is faulty.
NO
NO
SET GCELLOTHEXT(Optional)
This parameter specifies a condition for generating a BTS alarm. This parameter together with "VSWR TRX unadjusted threshold" are used to check whether the antenna system connecting to the TRX is faulty. If the value of this parameter is smaller, the error is smaller. NO
NO
SET GCELLOTHEXT(Optional)
Frame offset. The frame offset technology arranges the frame numbers of different cells under the same BTS to be different from one another by one frame offset. Thus, the FCH and SCH signals of neighboring cells do not appear in the same frame, which is helpful for the coding of an MS. If the value of this parameter is 0, the cell is not offset. If the value is 255, this parameter is not sent. If the parameter is set to a value except for 0 and 255, the handover of the cell must be changed from the synchronous mode to the asynchronous mode. For BTS3001C, BTS3X, BTS3002C, and doubletransceiver BTSs, the frame offset can be predicted according to the value of this parameter. NO
NO
SET GCELLOTHEXT(Optional)
The parameter determines whether to enable the automatic frequency adjustment function in the uplink for the BTS. When the parameter is set to YES, the BTS calculates the speed at which an MS leaves or approaches it and compensates the fast-moving MS for the frequency offset caused by the Doppler Effect. In addition, the BTS sends the calculated frequency offset to the BSC in an uplink measurement report. The parameter is used for the fast-moving handover algorithm. NO
NO
SET GCELLOTHEXT(Optional)
The parameter determines whether to enable the automatic frequency adjustment function in the downlink for the BTS. When the parameter is set to YES, the BTS starts the automatic frequency adjustment algorithm in the downlink to compensate the fast-moving MS for the frequency offset caused by the Doppler Effect. While enabling the automatic frequency adjustment in the downlink, enable the automatic frequency adjustment in the uplink simultaneously. NO
NO
SET GCELLOTHEXT(Optional)
The parameter is used for the automatic frequency adjustment function in the uplink. It indicates the initial value of frequency before the automatic frequency adjustment in the uplink. After receiving the parameter from the BSC, the BTS automatically adjusts frequency in the uplink according to the parameter value. The parameter consists of 16 bits and needs to be converted into the binary before use. The most significant bit indicates whether the parameter is valid. Bits 14 to 8 indicate the level threshold. Bits 7 to 0 indicate the threshold of the bit error ratio (BER). NO
NO
SET GCELLOTHEXT(Optional)
This parameter specifies the number of idle channels that should be reserved on a cell after the TRX is shut down. When the number of idle channels on a cell is smaller than this threshold, the BSC6900 enables a TRX. This parameter is used to prevent the impact enabling or disabling delay on the efficiency of channel assignment on the cell that is enabled with the TRX Intelligent Shutdown feature. NO
NO
SET GCELLOTHEXT(Optional)
Level threshold for measuring the number of call drops on SDCCH. When call drop occurs on the SDCCH, the BSC determines whether the uplink receive level is lower than this threshold. If the uplink receive level is lower than this threshold and the TA is smaller than the TA threshold of the serving cell, the number of call drops on SDCCH (receive level) is incremented by one. NO
NO
SET GCELLOTHEXT(Optional)
Level threshold for measuring the number of call drops on SDCCH. When call drop occurs on the SDCCH, the BSC determines whether the downlink receive level is lower than this threshold. If the downlink receive level is lower than this threshold and the TA is smaller than the TA threshold of the serving cell, the number of call drops on SDCCH (receive level) is incremented by one. NO
NO
SET GCELLOTHEXT(Optional)
Quality threshold for measuring the number of call drops on SDCCH. When call drop occurs on the SDCCH, the BSC determines whether the uplink quality level multiplied by 10 is higher than this threshold. If all the following four conditions are met, the number of call drops on SDCCH (receive quality) is incremented by one. First, the uplink quality level multiplied by 10 is higher than this threshold. Second, the TA is smaller than the TA threshold of the serving cell. Third, the uplink level is higher than "UL Level Threshold for SDCCH Call Drop". Finally, the downlink level is lower than "DL Level Threshold for SDCCH Call Drop". NO
NO
SET GCELLOTHEXT(Optional)
Quality threshold for measuring the number of call drops on SDCCH. When call drop occurs on the SDCCH, the BSC determines whether the downlink quality level multiplied by 10 is higher than this threshold. If all the following four conditions are met, the number of call drops on SDCCH (receive quality) is incremented by one. First, the downlink quality level multiplied by 10 is higher than this threshold. Second, the TA is smaller than the TA threshold of the serving cell. Third, the uplink level is higher than "UL Level Threshold for SDCCH Call Drop". Finally, the downlink level is lower than "DL Level Threshold for SDCCH Call Drop". NO
NO
SET GCELLOTHEXT(Optional)
This parameter specifies whether to enable the Enhanced BCCH Power Consumption Optimization feature. Generally, the BCCH TRX transmits signals at the maximum transmit power. When this parameter is set to YES, the BSC6900 is allowed to reduce the transmit power of the non-BCCH idle timeslots on the BCCH TRX. NO
NO
SET GCELLOTHEXT(Optional)
This parameter specifies the start time of the period during which the power of the non-BCCH timeslots on the BCCH TRX is derated. NO
NO
SET GCELLOTHEXT(Optional)
This parameter specifies the end time of the period during which the power of the non-BCCH timeslots on the BCCH TRX is derated. NO
NO
SET GCELLOTHEXT(Optional)
This parameter specifies the range of power derating over the non-BCCH timeslots on the BCCH TRX.
NO
NO
SET GCELLOTHEXT(Optional)
When this parameter is set to YES, the BSC6900 is allowed to reduce the transmit power of the non-BCCH timeslots on the BCCH TRX.
NO
NO
SET GCELLOTHEXT(Optional)
Threshold of the downlink receive level of an weak-coverage cell. If the downlink level of a cell is lower than the value of this parameter and the timing advance (TA) is smaller than the value of "Cell Weak Coverage TA Threshold" in more than 30% measurement reports, the cell is defined as an weak-coverage cell. NO
NO
SET GCELLOTHEXT(Optional)
Threshold of the TA of an weak-coverage cell. If the downlink level of a cell is lower than the value of this parameter and the timing advance (TA) is smaller than the value of "Cell Weak Coverage TA Threshold" in more than 30% measurement reports, the cell is defined as an weak-coverage cell. NO
NO
SET GCELLOTHEXT(Optional)
Threshold of the downlink receive level of an over-coverage cell. If the downlink level of a cell is higher than the value of this parameter and the timing advance (TA) is greater than the value of "Cell Over Coverage TA Threshold" in more than 20% measurement reports, the cell is defined as an over-coverage cell. NO
NO
SET GCELLOTHEXT(Optional)
Threshold of the TA of an over-coverage cell. If the downlink level of a cell is higher than the value of this parameter and the timing advance (TA) is greater than the value of "Cell Over Coverage TA Threshold" in more than 20% measurement reports, the cell is defined as an over-coverage cell.
NO
NO
SET GCELLOTHEXT(Optional)
If the coverage type of a cell is outdoor coverage, the BTS detects whether the standing wave alarm is generated only when the forward power is greater than 35 dBm. If the coverage type of a cell is indoor coverage, the BTS detects whether the standing wave radio alarm is generated only when the forward power is greater than 30 dBm. NO
NO
SET GCELLOTHEXT(Optional)
When a call drops on the TCH, the corresponding TCH call drop counter is incremented by one if the uplink level carried in the last MR is lower than the value of this parameter.
NO
NO
SET GCELLOTHEXT(Optional)
When a call drops on the TCH, the corresponding TCH call drop counter is incremented by one if the downlink level carried in the last MR is lower than the value of this parameter.
NO
NO
SET GCELLOTHEXT(Optional)
When a call drops on the TCH, the corresponding TCH call drop counter is incremented by one if the uplink quality carried in the last MR is greater than the value of this parameter. NO
NO
SET GCELLOTHEXT(Optional)
When a call drops on the TCH, the corresponding TCH call drop counter is incremented by one if the downlink quality carried in the last MR is greater than the value of this parameter. NO
NO
SET GCELLOTHEXT(Optional)
When a call drops on the TCH, the corresponding TCH call drop counter is incremented by one if the UL FER carried in the last MR is greater than the value of this parameter. NO
NO
SET GCELLOTHEXT(Optional)
When a call drops on the TCH, the corresponding TCH call drop counter is incremented by one if the DL FER carried in the last MR is greater than the value of this parameter. NO
NO
SET GCELLOTHEXT(Optional)
If the FER carried in the measurement report (MR) received is lower than or equal to "FER threshold 1", the value of "FER 0 and Quality Level N" is incremented by one. If the FER in the MR received is greater than "FER threshold 1" but meanwhile lower than or equal to "FER threshold 2", the value of "FER 1 and Quality Level N" is incremented by one. NO
NO
SET GCELLOTHEXT(Optional)
If the FER carried in the MR received is greater than "FER threshold 2" but meanwhile lower than "FER threshold 3", the value of "FER 2 and Quality Level N" is incremented by one. NO
NO
SET GCELLOTHEXT(Optional)
If the FER carried in the MR received is greater than "FER threshold 3" but meanwhile lower than "FER threshold 4", the value of "FER 3 and Quality Level N" is incremented by one. NO
NO
SET GCELLOTHEXT(Optional)
If the FER carried in the MR received is greater than "FER threshold 4" but meanwhile lower than "FER threshold 5", the value of "FER 4 and Quality Level N" is incremented by one. NO
NO
SET GCELLOTHEXT(Optional)
If the FER carried in the MR received is greater than "FER threshold 5" but meanwhile lower than "FER threshold 6", the value of "FER 5 and Quality Level N" is incremented by one. NO
NO
SET GCELLOTHEXT(Optional)
If the FER carried in the MR received is greater than "FER threshold 6" but meanwhile lower than "FER threshold 7", the value of "FER 6 and Quality Level N" is incremented by one. NO If the FER carried in the MR received is greater than "FER threshold 7", the value of "FER 7 and Quality Level N" is incremented by one. NO
SET GCELLOTHEXT(Optional)
This parameter specifies whether to enable the function of information exchange on the Iur-g interface. When this parameter is set to Yes, information about cell load and cell capacity can be exchanged on the Iur-g interface between the RNC and the BSC. NO
NO
SET GCELLOTHEXT(Optional)
Low threshold of VQI. This parameter is used to measure the number of times that uplink or downlink VQI is smaller than the value of this parameter during a call. The measurement report sent from a BTS to the GBSC contains the VQI. If the VQI reported by a BTS is smaller than or equal to the value of this parameter, the number of low VQIs is incremented by one. If the total number of low VQIs exceeds 254, the value of low VQIs is recorded as 254. Value 255 indicates that the number of low VQIs is invalid. When a call ends, the number of low VQIs is recorded in the Call History Record (CHR). NO
NO
SET GCELLPRACH(Mandatory)
Subscribers can specify the cell according to the index or the name. NO
YES
SET GCELLPRACH(Mandatory)
Index of a cell, uniquely identifying a cell in a BSC.
YES
SET GCELLOTHEXT(Optional)
YES
NO
NO
SET GCELLPRACH(Mandatory)
Name of a cell. This parameter uniquely identifies a cell in a BSC. Cell names cannot contain the following invalid characters: ,;="' In addition, cell names cannot contain two or more consecutive %, two or more consecutive spaces, or more than two consecutive +.
NO
YES
SET GCELLPRACH(Optional)
Access control class of the MS
NO
NO
SET GCELLPRACH(Optional)
Maximum retransmission for radio priority 1. The 2bit Radio Priority message carried by the MS in the Packet Channel Request message has four levels of priorities. Level 1 is the highest priority, and level 4 is the lowest priority. NO
NO
SET GCELLPRACH(Optional)
Maximum retransmission for radio priority 2. The 2bit Radio Priority message carried by the MS in the Packet Channel Request message has four levels of priorities. Level 1 is the highest priority, and level 4 is the lowest priority. NO
NO
SET GCELLPRACH(Optional)
Maximum retransmission for radio priority 3. The 2bit Radio Priority message carried by the MS in the Packet Channel Request message has four levels of priorities. Level 1 is the highest priority, and level 4 is the lowest priority. NO
NO
SET GCELLPRACH(Optional)
Maximum retransmission for radio priority 4. The 2bit Radio Priority message carried by the MS in the Packet Channel Request message has four levels of priorities. Level 1 is the highest priority, and level 4 is the lowest priority. NO
NO
SET GCELLPRACH(Optional)
Minimum timeslots between two successive channel requests. After sending the access request, if the MS does not receive the response message after waiting for the minimum timeslots between two successive channel requests, the MS resends the access request. NO
NO
SET GCELLPRACH(Optional)
Extension transmission timeslots of random access. This parameter determines the interval of sending another channel request after the MS fails to request a channel. NO
NO
SET GCELLPRACH(Optional)
Persistence level 1 of the radio access priority. During MS access, the access priority of the MS is set. If the priority of the MS is higher than the access priority of the MS, the cell allows the access of the MS. Otherwise, the cell rejects the access of the MS. The value "no use" indicates this parameter is not used. NO
NO
SET GCELLPRACH(Optional)
Persistence level 2 of the radio access priority. During MS access, the access priority of the MS is set. If the priority of the MS is higher than the access priority of the MS, the cell allows the access of the MS. Otherwise, the cell rejects the access of the MS. The value "no use" indicates this parameter is not used. NO
NO
SET GCELLPRACH(Optional)
Persistence level 3 of the radio access priority. During MS access, the access priority of the MS is set. If the priority of the MS is higher than the access priority of the MS, the cell allows the access of the MS. Otherwise, the cell rejects the access of the MS. The value "no use" indicates this parameter is not used. NO
NO
Persistence level 4 of the radio access priority. During MS access, the access priority of the MS is set. If the priority of the MS is higher than the access priority of the MS, the cell allows the access of the MS. Otherwise, the cell rejects the access of the MS. The value "no use" indicates this parameter is not used. NO
NO
SET GCELLPRACH(Optional) SET GCELLPRIEUTRANSYS(Ma ndatory) Type of an index. SET GCELLPRIEUTRANSYS(Ma Index of a cell, uniquely identifying a cell in a ndatory) BSC.
Name of a cell. This parameter uniquely identifies a cell in a BSC. Cell names cannot contain the following invalid characters: ,;="' SET In addition, cell names cannot contain two or GCELLPRIEUTRANSYS(Ma more consecutive %, two or more consecutive ndatory) spaces, or more than two consecutive +.
NO
YES
YES
YES
NO
YES
SET GCELLPRIEUTRANSYS(Opti Priority of GERAN. Value 0 indicates the lowest onal) priority, and value 7 indicates the highest priority. NO
NO
SET GCELLPRIEUTRANSYS(Opti Priority of UTRAN. Value 0 indicates the lowest onal) priority, and value 7 indicates the highest priority. NO
NO
SET GCELLPRIEUTRANSYS(Opti Priority of EUTRAN. Value 0 indicates the lowest onal) priority, and value 7 indicates the highest priority. NO
NO
When the receive level of the serving cell is higher than the value of this parameter, the MS does not search for neighboring cells in UTRAN or EUTRAN whose priority is lower than the GERAN priority. The values of this parameter correspond to the following decibel values: 0: -98 dBm, 1: -95 dBm, 2: -92 dBm, ..., 13: -59 dBm, 14: -56 dBm, SET 15: (always), that is, the MS always searches for GCELLPRIEUTRANSYS(Opti neighboring cells in UTRAN or EUTRAN whose onal) priority is lower than the GERAN priority. NO
NO
If the receive levels of the serving cell and all neighboring GSM cells are lower than the value of this parameter, the MS is allowed to reselect a neighboring cell in UTRAN or EUTRAN whose priority is lower than the GERAN priority. The values of this parameter correspond to the following decibel values: 0: -100 dBm, 1: -98 dBm, 2: -96 dBm, ..., 13: -74 dBm, 14: -72 dBm, 15: (always), that is, the MS is always allowed to SET reselect a neighboring cell in UTRAN or GCELLPRIEUTRANSYS(Opti EUTRAN whose priority is lower than the onal) GERAN priority. NO
NO
If the measured RSCP value of one or more neighboring UTRAN cells is higher than the value of this parameter, the MS is allowed to reselect a neighboring cell in UTRAN whose priority is higher than the GERAN priority. The values of this parameter correspond to the following decibel values: 0: 0 dB, 1: 2 dB, 2: 4 dB, 3: 6 dB, SET ..., GCELLPRIEUTRANSYS(Opti 30: 60 dB, onal) 31: 62 dB.
NO
NO
If the receive levels of the serving cell and all neighboring GSM cells are lower than "Low GSM Threshold Based on Priority", and if the measured RSCP value of one or more neighboring UTRAN cells is higher than the value of this parameter, the MS is allowed to reselect a neighboring cell in UTRAN whose priority is lower than the GERAN priority. The values of this parameter correspond to the following decibel values: 0: 0 dB, 1: 2 dB, 2: 4 dB, 3: 6 dB, SET ..., GCELLPRIEUTRANSYS(Opti 30: 60 dB, onal) 31: 62 dB. NO
NO
Used to calculate the RSCP threshold for the target cell when a priority-based decision to perform GSM to UTRAN cell reselection is made. The values of this parameter correspond to the following decibel values: 0: -119 dBm, 1: -117 dBm, 2: -115 dBm, SET ..., GCELLPRIEUTRANSYS(Opti 30: -59 dBm, onal) 31: -57 dBm.
NO
NO
If the measured RSRP value of one or more neighboring EUTRAN cells is higher than the value of this parameter, the MS is allowed to reselect a neighboring cell in EUTRAN whose priority is higher than the GERAN priority. The values of this parameter correspond to the following decibel values: 0: 0dB, 1: 2dB, 2: 4dB, 3: 6dB, SET ..., GCELLPRIEUTRANSYS(Opti 30: 60dB, onal) 31: 62dB.
NO
NO
If the receive levels of the serving cell and all neighboring GSM cells are lower than "Low GSM Threshold Based on Priority", and if the measured RSRP value of one or more neighboring EUTRAN cells is higher than the value of this parameter, the MS is allowed to reselect a neighboring cell in EUTRAN whose priority is lower than the GERAN priority. The values of this parameter correspond to the following decibel values: 0: 0dB, 1: 2dB, 2: 4dB, 3: 6dB, SET ..., GCELLPRIEUTRANSYS(Opti 30: 60dB, onal) 31: 62dB. NO
NO
Used to calculate the RSRP threshold for the target cell when a priority-based decision to perform GSM to EUTRAN cell reselection is made. The values of this parameter correspond to the following decibel values: 0: -140 dBm, 1: -138 dBm, 2: -136 dBm, SET ..., GCELLPRIEUTRANSYS(Opti 30: -80 dBm, onal) 31: -78 dBm.
NO
NO
The MS is allowed to reselect a neighboring cell in UTRAN or EUTRAN whose priority is lower than the GERAN priority when all the following conditions are fulfilled: 1)The receive levels of the serving cell and all neighboring GSM cells are lower than "Low GSM Threshold Based on Priority". 2)The measured RSCP value of no neighboring UTRAN cell is higher than "UTRAN Cell Resel High THD Based on PRI", and the measured RSRP value of no neighboring EUTRAN cell is higher than "EUTRAN Cell Resel High THD Based on PRI". 3)The measured RSCP (or RSRP) value of one or more neighboring UTRAN (or EUTRAN) cells exceeds the measured receive level of the serving cell by at least the decibel value corresponding to the value of this parameter. The values of this parameter correspond to the following decibel values: 0: positive infinity, SET 1: 5 dB, GCELLPRIEUTRANSYS(Opti 2: 4 dB, onal) 3: 3 dB. NO Period during which the measured RSCP (or RSRP) value must meet the cell reselection condition when a priority-based decision to perform a GSM to UTRAN (or EUTRAN) cell reselection is made. The values of this parameter correspond to the following time values: 0: 5s, SET 1: 10s, GCELLPRIEUTRANSYS(Opti 2: 15s, onal) 3: 20s. NO SET Number of neighboring EUTRAN cells that need GCELLPRIEUTRANSYS(Opti to be contained in the measurement report sent onal) by an MS. NO A measurement report is valid only when the receive level of an LTE cell in the measurement report exceeds the value of this parameter. The values of this parameter correspond to the following decibel values: 0: 0 dB, 1: 6 dB, SET ..., GCELLPRIEUTRANSYS(Opti 6: 36 dB, onal) 7: positive infinity.
NO
NO
NO
NO
NO
SET GCELLPRIVATEOPTPARA( Mandatory) SET GCELLPRIVATEOPTPARA( Mandatory)
Subscribers can specify the cell according to the index or the name. NO
YES
Index of a cell, uniquely identifying a cell in a BSC.
YES
YES
NO
YES
Name of a cell. This parameter uniquely identifies a cell in a BSC. Cell names cannot contain the following invalid characters: ,;="' SET In addition, cell names cannot contain two or GCELLPRIVATEOPTPARA( more consecutive %, two or more consecutive Mandatory) spaces, or more than two consecutive +.
Delay of releasing the non-extended uplink TBF. After receiving the last uplink RLC data block (CountValue=0), the network side sends the message Packet Uplink Ack/Nack with FAI=1 to notify the MS of releasing the uplink TBF. After this parameter is set, the network side notifies the MS of releasing this TBF after specified delay. In this way, the downlink TBF can be established on the unreleased uplink TBF. This uplink TBF is automatically released when the downlink TBF is established or when the delay SET duration exceeds the time set by the uplink nonGCELLPRIVATEOPTPARA( extended TBF. If this parameter is set to 0, the Optional) release delay of non-extended TBF is disabled. NO
NO
Inactive period of extended uplink TBF. After the network side receives the last uplink RLC data block (CountValue=0) of the MS supporting the extended uplink TBF, the uplink TBF is not released immediately. Instead, the uplink TBF is set to the inactive state. In the inactive period, if the MS needs to transmit the uplink RLC data block, the MS can use the inactive uplink TBF without rebuilding a new uplink TBF. This inactive uplink TBF is switched to the active state automatically. At the end of the inactive period, if the MS does not transmit the uplink RLC data block, the network side sends the message Packet Uplink Ack/Nack to notify the MS of releasing the uplink TBF. When the uplink TBF is inactive, the downlink TBF can be established SET according to this uplink TBF. 0: disable the GCELLPRIVATEOPTPARA( function of the extended uplink TBF (this function Optional) can be disabled on the BSC side). NO
NO
Delay of releasing the downlink TBF. After the last downlink RLC data block is transmitted on the network side and all the transmitted downlink data blocks are received, the MS is not informed to stop this downlink TBF. Instead, the state of the last data block is forcibly set to "not received" and the RRBP flag of the last data block is retransmitted continuously so that the downlink TBF is not released. During the downlink delay release, if the upper layer of the network side needs to transmit downlink data, the downlink RLC block for unpacking can be transmitted in the downlink TBF for delay release. The state of the downlink TBF is changed from delay releasing to downlink transmitting. In addition, the MS must respond to the Packet Downlink Ack/Nack message through the uplink data block of the RRBP to exchange messages with the network side. When the MS needs to send data, the MS can send the uplink request to the network sides through the Packet Downlink SET Ack/Nack with the channel request description. If GCELLPRIVATEOPTPARA( this parameter is set to 0, the release delay of Optional) downlink TBF is disabled. NO
NO
Time interval between sending of the Packet Uplink Ack/Nack message and setup of the DL TBF. After receiving the Packet Uplink Ack/Nack message (FAI = 1), the MS releases the UL TBF and starts to monitor CCCH. In this case, if the MS receives the downlink assignment message before being handed over to the CCCH, the MS fails to respond to the downlink assignment message. Therefore, a delay is required for establishing DL TBF, to avoid such a situation. That is, the DL TBF will not be set up immediately after the Packet Uplink Ack/Nack SET message (FAI = 1) is sent. In this way, the MS GCELLPRIVATEOPTPARA( can respond to the downlink assignment Optional) message properly. NO
NO
Whether to enable the PS DTX function. When "OFF" is selected, the PS DTX function is disabled. When "ON when no MS is accessed" is selected, the PS DTX function is enabled when no MS is accessed on the PDCH. In this case, the BTS shuts down the power amplifier of the TRX. When "ON when no valid data needs to be sent" is selected, the PS DTX function is enabled SET when no valid data needs to be sent on the GCELLPRIVATEOPTPARA( PDCH. In this case, the BTS shuts down the Optional) power amplifier of the TRX. NO
NO
SET GCELLPSBASE(Mandatory)
Subscribers can specify the cell according to the index or the name. NO
YES
SET GCELLPSBASE(Mandatory)
Index of a cell, uniquely identifying a cell in a BSC.
YES
YES
SET GCELLPSBASE(Mandatory)
Name of a cell. This parameter uniquely identifies a cell in a BSC. Cell names cannot contain the following invalid characters: ,;="' In addition, cell names cannot contain two or more consecutive %, two or more consecutive spaces, or more than two consecutive +.
NO
YES
SET GCELLPSBASE(Optional)
This parameter is related to the paging channel of the system. There are three network operation modes: network operation mode I, network operation mode II, and network operation mode III. Network operation mode I is used when the system is configured with the Gs interface. Network operation mode II is used when the system is not configured with the Gs interface and the PCCCH is not configured. Network operation mode III is used when the system is not configured with the Gs interface and the PCCCH is configured. NO
NO
SET GCELLPSBASE(Optional)
T3168 is used to set the maximum duration for the MS to wait for the uplink assignment message. After the MS originates the uplink TBF setup request by sending the packet resource request or the channel request in the packet uplink acknowledge message, the timer T3168 is started to wait for the packet uplink assignment message on the network side. If the MS receives the packet uplink assignment message before T3168 expires, T3168 is reset. Otherwise, the MS originates the packet access request for four times. Then the MS regards this as the TBF setup failure. NO
NO
SET GCELLPSBASE(Optional)
Duration of releasing the TBF after the MS receives the last data block. When the MS receives the RLC data block containing the flag identifying the last data block and confirms that all the RLC data blocks in the TBF are received, the MS sends the packet downlink acknowledge message containing the last flag acknowledgement and the timer T3192 is started. If the timer T3192 expires, the MS releases the TBF related resources and starts monitoring the paging channel. During TBF releasing, if the MS is the half duplex mode and receives the packet uplink assignment, the MS responds this command. During TBF releasing, if the MS is the half duplex mode and receives no packet uplink assignment message, the MS enters the packet idle mode. If the MS is in the dual transmission mode, the MS enters the special mode. NO
NO
SET GCELLPSBASE(Optional)
Duration of the timer for entering the DRX mode. DRX is the parameter in the cell broadcast message. It indicates non-continuous receiving mode. When the MS is switched from the packet transmission mode to the idle mode, the MS needs to maintain the none DRX mode for a moment. After the TBF is released, in the period when the MS is in non-DRX mode, the MS monitors all the CCCH blocks and the BSC stores the context of the MS. The reservation duration is determined by the minimum value of DRX_Timer_Max and NON_DRX_TIMER. The parameter NON_DRX_TIMER is negotiated with the SGSN during GPRS attaching of the MS. Normally, this value is greater than that of DRX_TIMER_MAX. Therefore, the value of DRX_TIMER_MAX is used. 0: switch to the DRX mode immediately; 1: switch to the DRX mode in one second. Value n indicates that the MS enters the DRX mode n seconds later. NO
NO
SET GCELLPSBASE(Optional)
Access pulse type of the PRACH, uplink PTCCH and packet control acknowledge message of the MS. 8bit: 8 bit pulse access mode; 11bit: 11 bit pulse access mode. NO
NO
SET GCELLPSBASE(Optional)
Format of the control acknowledge message of the MS. Four access bursts are used to obtain timing advance without sending polling message; RLC/MAC control block is used to obtain timing advance after sending polling message. NO
NO
SET GCELLPSBASE(Optional)
This parameter is used to set the parameter BS_CV_MAX for MS countdown. This parameter is used for the MS to calculate the CV. This parameter also determines the duration of the timer T3198. When the MS sends one uplink RLC data block, the receiving state of this data block is set to Pending and the timer T3198 is started. If the MS receives the packet uplink acknowledge before the timer T3198 expires, the MS updates the receiving state of each uplink RLC data block according to the bit map in the message. If the timer T3198 of the RLC data block in the Pending state expires, the MS sets the receiving state of this data block to Nack and retransmits the data block. NO
NO
SET GCELLPSBASE(Optional)
This parameter sets the PAN_DEC value used by the counter N3102 of the MS. When the timer T3182 of the MS expires, the N3102 reduces the value of PAN_DEC. 0: the value of PAN_DEC is 0; 7: the value of PAN_DEC is 7; Value N indicates that PAN_DEC is N; Not use: this parameter is not used. NO
NO
SET GCELLPSBASE(Optional)
This parameter sets the PAN_INC value used by the counter N3102 of the MS. When receiving the packet uplink acknowledged or unacknowledged message sent by the network (V(S) or V(A) increases), the MS increases the count (PAN_INC) of the counter N3102. 0: the value of PAN_INC is 0; 7: the value of PAN_INC is 7; Value N indicates that PAN_DEC is N; Not use: this parameter is not used. NO
NO
SET GCELLPSBASE(Optional)
RAN_MAX value, the maximum value of the N3102. 4: the value of PAN_MAX is 4; 32: the value of PAN_MAX is 32. Value N indicates that PAN_DEC is N; Not use: this parameter is not used. NO
NO
SET GCELLPSBASE(Optional)
Network control mode for cell reselection of the MS. There are three modes. NC0: normal MS control. The MS shall perform autonomous cell re-selection. NC1: MS control with measurement reports. The MS shall send measurement reports to the network and the MS shall perform autonomous cell re-selection. NC2: network control. The MS shall send measurement reports to the network. The MS shall only perform autonomous cell re-selection when the reselection is triggered by a downlink signaling failure or a random access failure. When this parameter is set to NC2 and "Support NC2" in "SET GCELLGPRS" is set to "YES", the network side can control the cell reselection for the MS. NO
NO
SET GCELLPSBASE(Optional)
Whether to support SPLIT_PG_CYCLE on CCCH. The parameter SPLIT_PG_CYCLE is used to define the DRX period. You can specify whether the paging group based on SPLIT_PG_CYCLE is supported on CCCH for the BTS and the MS. Yes: the paging group based on SPLIT_PG_CYCLE is supported on CCCH. No: the paging group based on SPLIT_PG_CYCLE is not supported on CCCH.
NO
NO
SET GCELLPSBASE(Optional)
Access priority of the MS that is allowed to access the cell. The MS sends the packet channel request containing the 2-bit radio priority message. The priority of the 2-bit radio priority message ranges from 1 to 4 in descending order. During the MS access, the BSC compares the radio priority in the channel request with the parameter setting of the cell. If the radio priority equals to the parameter setting of the cell, the BSC sets up the TBF for the channel request. NO
NO
SET GCELLPSBASE(Optional)
Routing area color code of the GPRS cell
NO
NO
SET GCELLPSBASE(Optional)
Whether to support the 11-bit EGPRS access request
NO
NO
SET GCELLPSBASE(Optional)
Whether to support the paging function of the CS domain of the A interface. Yes: the MS can be called upon paging request on the A interface when handling the PS service; No: the MS cannot be called upon paging request on the A interface when handling the PS service. NO
NO
SET GCELLPSBASE(Optional)
Whether to send the Dummy message during the deactivated period of the extended uplink TBF
NO
NO
SET GCELLPSBASE(Optional)
Protocol version supported by the SGSN
NO
NO
SET GCELLPSCHM(Mandatory)
Subscribers can specify the cell according to the index or the name. NO
YES
SET GCELLPSCHM(Mandatory)
Index of a cell, uniquely identifying a cell in a BSC.
YES
YES
SET GCELLPSCHM(Mandatory)
Name of a cell. This parameter uniquely identifies a cell in a BSC. Cell names cannot contain the following invalid characters: ,;="' In addition, cell names cannot contain two or more consecutive %, two or more consecutive spaces, or more than two consecutive +.
NO
YES
SET GCELLPSCHM(Optional)
Maximum value of the PDCH ratio in a cell. The number of available TCHs and PDCHs in a cell is set to a fixed value. The PDCH ratio is: Number of available PDCHs/(Number of available TCHFs + Number of available static PDCHs). This parameter is used to restrict the PDCH ratio. NO
NO
SET GCELLPSCHM(Optional)
Controls channel conversion requests and releases according to cell load Maximum number of the users multiplexing one channel, which is a trigger condition for the uplink dynamic channel transition. When "Upper Threshold for CS Idle Channel Rate" is set to "100" and the number of the users multiplexing one channel reaches "Uplink Multiplex Threshold of Dynamic Channel Conversion"/10, the request for channel conversion is triggered. When channel bandwidth is not greater than "PS Service Guaranteed Rate" set through the "SET BTSOTHPARA" command, a channel conversion request is raised if the CS idle channel rate is above "Upper Threshold for CS Idle Channel Rate" and the number of users carried on the channel reaches "Uplink Multiplex Threshold of Dynamic Channel Conversion"/10. When "Upper Threshold for CS Idle Channel Rate" is not set to "100", if the CS idle channel rate is below "Lower Threshold for CS Idle Channel Rate" and the number of the users multiplexing one channel is smaller than "Uplink Multiplex Threshold of Dynamic Channel Conversion"/10, the related channel is released. In the case of insufficient Abis or DSP resources, the resources of other cells can be preempted only when the cell load is higher than "Uplink Multiplex Threshold of Dynamic Channel Conversion"/10. Resources and channels can be released only when the cell load is lower than "Uplink Multiplex Threshold of Dynamic Channel Conversion"/10. We recommend that the value of "Uplink Multiplex Threshold of Dynamic Channel Conversion" should be less than NO
NO
SET GCELLPSCHM(Optional)
Controls channel conversion requests and releases according to cell load Maximum number of the users multiplexing one channel, which is a trigger condition for the downlink dynamic channel transition. When "Upper Threshold for CS Idle Channel Rate" is set to "100" and the number of the users multiplexing one channel reaches "Downlink Multiplex Threshold of Dynamic Channel conversion"/10, the request for channel conversion is triggered. When channel bandwidth is not greater than "PS Service Guaranteed Rate" set through the "SET BTSOTHPARA" command, a channel conversion request is raised if the CS idle channel rate is above "Upper Threshold for CS Idle Channel Rate" and the number of users carried on the channel reaches "Downlink Multiplex Threshold of Dynamic Channel Conversion"/10. When "Upper Threshold for CS Idle Channel Rate" is not set to "100", If the CS idle channel rate is below "Lower Threshold for CS Idle Channel Rate" and the number of the users multiplexing one channel is smaller than "Downlink Multiplex Threshold of Dynamic Channel Conversion"/10. In the case of insufficient Abis or DSP resources, the resources of other cells can be preempted only when the cell load is higher than "Downlink Multiplex Threshold of Dynamic Channel Conversion"/10. Resources and channels can be released only when the cell load is lower than "Downlink Multiplex Threshold of Dynamic Channel Conversion"/10. We recommend that NO
NO
SET GCELLPSCHM(Optional)
PDCH uplink multiplex threshold, indicating the maximum TBFs on the uplink PDCH (parameter value/10). We recommend that the value of "Uplink Multiplex Threshold of Dynamic Channel Conversion" should be less than "PDCH Uplink Multiplex Threshold" for triggering converting dynamic channel in time and reducing PDCH multiplex. NO
NO
SET GCELLPSCHM(Optional)
PDCH downlink multiplex threshold, Indicating the maximum TBFs on the downlink PDCH (parameter value/10). We recommend that the value of "Downlink Multiplex Threshold of Dynamic Channel Conversion" should be less than "PDCH Downlink Multiplex Threshold" for triggering converting dynamic channel in time and reducing PDCH multiplex.
NO
NO
SET GCELLPSCHM(Optional)
Conversion policy of the dynamic channel of the concentric cell NO
NO
SET GCELLPSCHM(Optional)
Time to wait for releasing the dynamic channel after the TBF on the dynamic channel is released. When all the TBFs on the channel are released, the dynamic channel is not released at once. Instead, the timer is started when the channels are idle. Before the timer expires, if new service request is received, the dynamic channel is still occupied and timer is stopped; otherwise, the dynamic channel is released after the timer expired. NO
NO
SET GCELLPSCHM(Optional)
Mode of preempting the dynamic channel for the CS domain and PS domain. Only the channel configured in the TCH/F mode can be preempted. "Preempt all dynamic TCHFs" indicates the circuit domain can preempt all the dynamic channels. "No preempt of CCHs" indicates the circuit domain can preempt all the dynamic channels except the CCHs. "No preempt of service TCHF" indicates the circuit domain cannot preempt all the dynamic channels of bearer services. NO
NO
SET GCELLPSCHM(Optional)
Number of full-rate TCHs reserved for the CS domain
NO
NO
SET GCELLPSCHM(Optional)
Interval between detection of the Abis timeslot being in idle state and releasing of the Abis timeslot. When channels are idle, the timer is started. When the timer is expires, the Abis timeslot is released. When all the TBFs on the channel are released, the Abis timeslot is not released at once. Instead, the timer is started when the channels are idle. Before the timer expires, if new service request is received and the Abis timeslot is occupied, then the timer is stopped; otherwise, the timeslot is released after the timer expires. When "Number of Dynamic Channel PreConverted" is greater than 0, the Abis timeslots are not released after the static PDCH and preconverted PDCH are idle. NO
NO
SET GCELLPSCHM(Optional)
Combination of the THP1 and ARP1 priority in the Interactive service. THP1-ARP1 priority weight determines the number of the budget blocks and the block scheduling priority.
NO
NO
SET GCELLPSCHM(Optional)
Combination of the THP1 and ARP2 priority in the Interactive service. THP1-ARP2 priority weight determines the number of the budget blocks and the block scheduling priority.
NO
NO
SET GCELLPSCHM(Optional)
Combination of the THP1 and ARP3 priority in the Interactive service. THP1-ARP3 priority weight determines the number of the budget blocks and the block scheduling priority.
NO
NO
SET GCELLPSCHM(Optional)
Combination of the THP2 and ARP1 priority in the Interactive service. THP2-ARP1 priority weight determines the number of the budget blocks and the block scheduling priority.
NO
NO
SET GCELLPSCHM(Optional)
Combination of the THP2 and ARP2 priority in the Interactive service. THP2-ARP2 priority weight determines the number of the budget blocks and the block scheduling priority.
NO
NO
SET GCELLPSCHM(Optional)
Combination of the THP2 and ARP3 priority in the Interactive service. THP2-ARP3 priority weight determines the number of the budget blocks and the block scheduling priority.
NO
NO
SET GCELLPSCHM(Optional)
Combination of the THP3 and ARP1 priority in the Interactive service. THP3-ARP1 priority weight determines the number of the budget blocks and the block scheduling priority.
NO
NO
SET GCELLPSCHM(Optional)
Combination of the THP3 and ARP2 priority in the Interactive service. THP3-ARP2 priority weight determines the number of the budget blocks and the block scheduling priority.
NO
NO
SET GCELLPSCHM(Optional)
Combination of the THP3 and ARP3 priority in the Interactive service. THP3-ARP3 priority weight determines the number of the budget blocks and the block scheduling priority.
NO
NO
SET GCELLPSCHM(Optional)
ARP1 priority in the Background service. ARP1 priority weight determines the number of the budget blocks and the block scheduling priority.
NO
NO
SET GCELLPSCHM(Optional)
ARP2 priority in the Background service. ARP2 priority weight determines the number of the budget blocks and the block scheduling priority.
NO
NO
SET GCELLPSCHM(Optional)
ARP3 priority in the Background service. ARP3 priority weight determines the number of the budget blocks and the block scheduling priority.
NO
NO
SET GCELLPSCHM(Optional)
ARP1 priority in the BE service. ARP1 priority weight determines the number of the budget blocks and the block scheduling priority.
NO
NO
SET GCELLPSCHM(Optional)
ARP2 priority in the BE service. ARP2 priority weight determines the number of the budget blocks and the block scheduling priority.
NO
NO
SET GCELLPSCHM(Optional)
ARP3 priority in the BE service. ARP3 priority weight determines the number of the budget blocks and the block scheduling priority.
NO
NO
SET GCELLPSCHM(Optional)
This parameter must be used together with "Level of Preempting Dynamic Channel" in the following conditions: 1. When "Level of Preempting Dynamic Channel" is set to "No preempt of service TCHF" and "PDCH Reforming" is set to "Yes", the channels for the CS service is released if the CS service fails to be switched to another channel. 2: When "Level of Preempting Dynamic Channel" is set to "Preempt all dynamic TCHFs" or "No preempt of CCHs" and "PDCH Reforming" is set to "Yes", the CS service is switched to the original channel if the CS service fails to be switched to another channel. NO
NO
SET GCELLPSCHM(Optional)
PDCH Downlink multiplex threshold in the Mobile Station Receiver Diversity (MSRD) mode. When this parameter is set to "80", the MS does not adopt the MSRD mode. When the number of the TBF on the PDCH that is assigned to the MS exceeds this parameter or the coding rate of the PDCH is smaller than the threshold of the coding rate in MSRD mode, the MS is required to adopt the MSRD mode. NO
NO
SET GCELLPSCHM(Optional)
Threshold of the MS Receiver Diversity (MSRD) mode NO
NO
SET GCELLPSCHM(Optional)
Maximum number of RTTI TBFs that can be multiplexed on the PDCH. A PDCH can be assigned when the number of RTTI TBFs on it is smaller than the value of this parameter. This parameter is valid only when its value is smaller than or equal to "MSRD PDCH DL Multiplexing Threshold". NO
NO
SET GCELLPSCHM(Optional)
This parameter specifies the default preconverted PDCHs in the dynamic transferable channel pool. When this parameter is greater than 0, three sublinks are bound to the static PDCH and preconverted PDCH in a cell by default. The pre-converted PDCH can be preempted when it is idle. You can set "Number of Reserved Dynamic Channel" as required when you expect the pre-converted PDCH not to be preempted. NO
NO
SET GCELLPSCHM(Optional)
This parameter specifies the number of the reserved PDCHs that are not used for channel conversation in the dynamic transferable channel pool. NO
NO
SET GCELLPSCHM(Optional)
When this parameter is set to ON, the GMM/SM signaling service is assigned only one PDCH; otherwise, the GMM/SM signaling service is assigned one or more PDCHs as required. NO
NO
SET GCELLPSCHM(Optional)
When the channel is multiplexed by more than one user and the idle channel rate is above this parameter, a dynamic channel conversion request is raised. The CS idle channel rate can be calculated as follows: CS Idle channel rate = Idle cell channels for CS service/Available cell channels for CS service x 100%. Here, available cell channels refer to the number of available TCHFs or TCHHs in a cell. Idle cell channels refer to the number of the TCHFs or TCHHs that do not carry any CS service data in a cell. Two TCHHs are considered as one TCHF. When this parameter is set to "100", it is invalid. NO
NO
SET GCELLPSCHM(Optional) SET GCELLPSCHM(Optional) SET GCELLPSCHM(Optional)
When the CS idle channel rate is below this threshold, a dynamic channel can be released. The CS idle channel rate can be calculated as follows: CS Idle channel rate = Idle cell channels for CS service/Available cell channels for CS service x 100%. Here, available cell channels refer to the available TCHFs or TCHHs in a cell. Idle cell channels refer to the TCHFs or TCHHs that do not carry any CS services data in a cell. Two TCHHs are considered as one TCHF. When "Upper Threshold for CS Idle Channel Rate" is set to "100", it is invalid. NO Determines whether the PS resources in other cells can be preempted when the PS resources are insufficient in the current cell. NO Determines whether the PS resources in the current cell can be preempted, to ensure the PS services in other cells. NO
NO
NO
NO
SET GCELLPSCHM(Optional)
Threshold of the average number of MSs multiplexed on each PDCH in a cell. When the average number of MSs multiplexed on each PDCH in a cell is greater than this threshold, the PS traffic volume in the cell is considered to be high. In this case, each newly admitted MS is assigned only one PDCH. When the PS traffic volume is not high, the MS with only one PDCH is re-assigned a certain number of PDCHs as required. NO
NO
SET GCELLPSCS(Mandatory)
Subscribers can specify the cell according to the index or the name. NO
YES
SET GCELLPSCS(Mandatory)
Index of a cell, uniquely identifying a cell in a BSC.
YES
YES
SET GCELLPSCS(Mandatory)
Name of a cell. This parameter uniquely identifies a cell in a BSC. Cell names cannot contain the following invalid characters: ,;="' In addition, cell names cannot contain two or more consecutive %, two or more consecutive spaces, or more than two consecutive +.
NO
YES
SET GCELLPSCS(Optional)
Adjustment mode of the uplink GPRS link coding scheme. If the fixed coding scheme is used, this parameter is a value ranging from CS1 to CS4. If the dynamic coding scheme is used, this parameter is set to UNFIXED. NO
NO
SET GCELLPSCS(Optional)
Default coding scheme of the uplink GPRS link. If the uplink adopts the dynamic adjustment coding scheme, this parameter can be used to set the coding scheme for transmission during initial access. If the uplink uses the fixed coding scheme, the TBF uses the fixed coding scheme. NO
NO
SET GCELLPSCS(Optional)
Retransmission threshold when the coding mode of the uplink TBF is changed from CS1 to CS2. When the retransmission rate of the uplink TBF is less than or equal to this threshold, the coding mode of the uplink TBF is changed from CS1 to CS2. NO
NO
SET GCELLPSCS(Optional)
Retransmission threshold when the coding mode of the uplink TBF is changed from CS2 to CS3. When the retransmission rate of the uplink TBF is less than or equal to this threshold, the coding mode of the uplink TBF is changed from CS2 to CS3. NO
NO
SET GCELLPSCS(Optional)
Retransmission threshold when the coding mode of the uplink TBF is changed from CS3 to CS4. When the retransmission rate of the uplink TBF is less than or equal to this threshold, the coding mode of the uplink TBF is changed from CS3 to CS4. NO
NO
SET GCELLPSCS(Optional)
Retransmission threshold when the coding mode of the uplink TBF is changed from CS2 to CS1. When the retransmission rate of the uplink TBF is greater than or equal to this threshold, the coding mode of the uplink TBF is changed from CS2 to CS1. NO
NO
SET GCELLPSCS(Optional)
Retransmission threshold when the coding mode of the uplink TBF is changed from CS3 to CS2. When the retransmission rate of the uplink TBF is greater than or equal to this threshold, the coding mode of the uplink TBF is changed from CS3 to CS2. NO
NO
SET GCELLPSCS(Optional)
Retransmission threshold when the coding mode of the uplink TBF is changed from CS4 to CS3. When the retransmission rate of the uplink TBF is greater than or equal to this threshold, the coding mode of the uplink TBF is changed from CS4 to CS3. NO
NO
SET GCELLPSCS(Optional)
Adjustment mode of the downlink GPRS link coding scheme. If the fixed coding scheme is used, this parameter is set to a value ranging from CS1 to CS4. If the dynamic coding scheme is used, this parameter is set to UNFIXED. NO
NO
SET GCELLPSCS(Optional)
Coding scheme of the default GPRS downlink. Dynamic adjustment coding: the coding scheme used during initial access transmission. If the downlink uses the fixed coding scheme, the TBF uses the fixed coding scheme. NO
NO
SET GCELLPSCS(Optional)
Retransmission threshold when the coding mode of the downlink TBF is changed from CS1 to CS2. When the TBF retransmission rate is less than or equals to this value, the coding mode of the TBF is changed from CS1 to CS2. NO
NO
SET GCELLPSCS(Optional)
Retransmission threshold when the coding mode of the TBF is changed from CS2 to CS3. When the downlink TBF retransmission rate is less than or equals to CS2 to CS1, the coding mode of the TBF is changed from CS2 to CS3. NO
NO
SET GCELLPSCS(Optional)
Retransmission threshold when the coding mode of the downlink TBF is changed from CS3 to CS4. When the downlink TBF retransmission rate is less than or equals to this value, the coding mode of the downlink TBF is changed from CS3 to CS4. NO
NO
SET GCELLPSCS(Optional)
Retransmission threshold when the coding mode of the downlink TBF is changed from CS2 to CS1. When the downlink TBF retransmission rate is greater than or equals to this value, the coding mode of the TBF is changed from CS2 to CS1. NO
NO
SET GCELLPSCS(Optional)
Retransmission threshold when the coding mode of the TBF is changed from CS3 to CS2. When the TBF retransmission rate is greater than or equals to this value, the coding mode of the TBF is changed from CS3 to CS2. NO
NO
SET GCELLPSCS(Optional)
Retransmission threshold when the coding mode of the downlink TBF is changed from CS4 to CS3. When the downlink TBF Retransmission rate is greater than or equals to this value, the coding mode of the TBF is changed from CS4 to CS3. NO
NO
Subscribers can specify the cell according to the SET GCELLPSI1(Mandatory) index or the name. NO
YES
Index of a cell, uniquely identifying a cell in a SET GCELLPSI1(Mandatory) BSC.
YES
YES
Name of a cell. This parameter uniquely identifies a cell in a BSC. Cell names cannot contain the following invalid characters: ,;="' In addition, cell names cannot contain two or more consecutive %, two or more consecutive SET GCELLPSI1(Mandatory) spaces, or more than two consecutive +.
NO
YES
SET GCELLPSI1(Optional)
Period for sending the packet message PSI. If the period is too long, the message PSI cannot be obtained in real time. If the period is too short, the message PSI is broadcast frequently, which occupies too much system resources. NO
NO
SET GCELLPSI1(Optional)
Whether to allow the MS to the send the PS measurement report to the network side
NO
NO
SET GCELLPSI1(Optional)
Whether the BSC supports the state message PSI. The state message PSI refers to PSI STATUS.
NO
NO
SET GCELLPSOTHERPARA(Man datory) SET GCELLPSOTHERPARA(Man datory)
Subscribers can specify the cell according to the index or the name. NO
YES
Index of a cell, uniquely identifying a cell in a BSC.
YES
YES
NO
YES
Name of a cell. This parameter uniquely identifies a cell in a BSC. Cell names cannot contain the following invalid characters: ,;="' SET In addition, cell names cannot contain two or GCELLPSOTHERPARA(Man more consecutive %, two or more consecutive datory) spaces, or more than two consecutive +.
Obtains the QoS parameter from the Aggregate BSS QoS Profile (ABQP) of packet flow context (PFC) when the MS and the network support the PFC; obtains the QoS parameter from the uplink SET request originated by the MS or the DL GCELLPSOTHERPARA(Opti UNITDATA of the SGSN. GBR: guaranteed bit onal) rate. NO
NO
This parameter specifies whether to support the takeover of the packet immediate assignment by the BTS. It is relative to the uplink immediate assignment. To improve the access rate of the MS, the BSS allocates the uplink TBF resources to the BTS in advance. The BTS sends the immediate assignment message to the MS through the resources allocated by the BSC. When receiving the immediate assignment message, the MS can send the data block. The BTS needs to send the assistant channel request to the BSC. When receiving the request, SET the BSC sends the immediate assignment GCELLPSOTHERPARA(Opti request to the BTS to complete the TDF setup onal) flow. NO
NO
Whether to support the function of moving the packet assignment down to the BTS. To improve the access speed of the MS, after the packet assignment is moved down to the BTS, the BSC reserves the uplink resources for the BTS. The BTS obtains the channel request of the MB by analyzing the downlink acknowledgement SET message sent by the MS. Then the BTS GCELLPSOTHERPARA(Opti allocates the reserved uplink resources to the onal) MS to move the packet assignment to the BTS. NO
NO
Minimum bandwidth of the POC service (push to talk over cellular). The transmission delay of the POC service must be relatively small. The network side must support the function of detecting the POC service type and reduce the delay through related processing to meet the POC service requirement. For the POC service SET received by the network side, GbrValue in the GCELLPSOTHERPARA(Opti ABQP must be larger than the minimum onal) bandwidth of the POC service. NO
NO
Maximum bandwidth of the POC service (push to talk over cellular). The transmission delay of the POC service must be relatively small. The network side must support the function of detecting the POC service type and reduce the delay through related processing to meet the POC service requirement. For the POC service SET received by the network side, GbrValue in the GCELLPSOTHERPARA(Opti ABQP must be lower than the maximum onal) bandwidth of the POC service.
NO
NO
Maximum transmission delay of the POC service (push to talk over cellular). The transmission delay of the POC service must be relatively small. The network side must support the function of detecting the POC service type and reduce the delay through related processing to meet the POC service requirement. For the POC SET service received by the network side, Transfer GCELLPSOTHERPARA(Opti Delay in the ABQP must be lower than the onal) transmission threshold of the POC service. NO
NO
Whether to support QoC optimization. The GSN equipment for the GPRS provides flexible QoS mechanisms for different subscribers. The QoS level is also set during subscription. The QoS control parameters include: service priority, reliability level, delay level, and data throughput level. During QoS negotiation, the MS can apply for one value for each QoS attribute. When receiving the request from the MS, the network must allocate a QoS level to each attribute for SET each QoS document. The network provides GCELLPSOTHERPARA(Opti related resources for the negotiated QoS onal) document. NO
NO
Whether to support the downlink throughput enhancement function of the dual timeslot cell. When this switch is turned on, the system can SET allocate the packet downlink channel of the odd GCELLPSOTHERPARA(Opti number timeslot of dual timeslot bearer of the onal) dual timeslot cell.
NO
NO
SET Whether to support the cell reselection from the GCELLPSOTHERPARA(Opti GSM network to the TD network in the packet onal) transmission mode
NO
NO
SET GCELLPSOTHERPARA(Opti Whether to support the push to talk over cellular onal) (POC) service NO
NO
When the PDCHs are insufficient, the streaming service with high priority can preempt the PDCHs that are seized by the streaming service with low priority. After the PDCH resource preemption, the streaming service with low priority initiates the QoS negotiation with the SET SGSN. If the QoS negotiation fails, or if all the GCELLPSOTHERPARA(Opti PDCHs are preempted, then the streaming onal) service with low priority is disrupted. NO
NO
Whether to support PS downlink MAC back pressures in GSM. When the buffer is overflowed, the L2 transmission rate is limited if "User Plane DL Flow Ctrl Switch" is "ON". Thus, the data blocks are not lost. If "User Plane DL Flow Ctrl Switch" is "OFF", the L2 transmission rate is not limited. In this case, the loss of data SET blocks may occur. When "User Plane DL Flow GCELLPSOTHERPARA(Opti Ctrl Switch" is set to "ON", the LDR needs to be onal) disabled through the "SET LDR" command. NO
NO
SET GCELLPSOTHERPARA(Opti Whether the initial service is uplink, downlink or onal) neutral
NO
NO
Expanded size of the GPRS RLC window. This parameter is used to expand the size of the GRPS RLC window. The expanded window size SET breaks the restrictions of 64 defined in the GCELLPSOTHERPARA(Opti protocol and reduces the probability of GRPS onal) RLC window stopping. NO
NO
SET GCELLPSOTHERPARA(Opti This parameter indicates whether the feature onal) "PS Service in Priority" is supported.
NO
NO
SET GCELLPSOTHERPARA(Opti This parameter indicates the type of the MAC onal) scheduling algorithm.
NO
NO
SET This parameter indicates the minimum GCELLPSOTHERPARA(Opti guaranteed rate in downlink to ensure the onal) normal processing of PS services of users.
NO
NO
This parameter indicates the block periods selected as the time length for rate filtering, when calculating the current data rate of TBF. If this parameter is set to a higher value, the weight of the current instantaneous rate against the filer rate is lower whereas the weight of the history rate against the filer rate is higher. If this parameter is set to a lower value, the weight of SET the current instantaneous rate against the filter GCELLPSOTHERPARA(Opti rate is higher whereas the weight of the history onal) rate against the filer rate is lower.
NO
NO
This parameter indicates the interval time between arrival of a downlink data frame in the BTS and the start of coding over the air interface. The setting of this parameter depends on the following values: Network jitter delay "Maximum Delay Time[ms]" (This parameter is valid only when IPMUX is enabled. The "LST IPMUX" command is used to query whether IPMUX is enabled.) Thresholds of packet loss rate in the queue (These thresholds are queried by running the "LST ADJMAP", "LST TRMMAP", "LST PHBMAP", "LST QUEUEMAP", and "LST PORTFLOWCTRLPARA" commands. If this parameter is set based on these thresholds, delay on the Abis interface is prolonged; therefore, it is recommended that each of these thresholds be set to no longer than 30 ms. In addition, these thresholds are valid only when the following conditions are met: "User Plane DL Flow Ctrl Switch" is set to "ON". This parameter setting is queried by running the "LST GCELLPSOTHERPARA" command. "Carry Flag" is set to "IP Logic Port". This parameter setting is queried by running the "LST BTSIP" command. "Flow control switch" of the Abis interface board is set to "ON". This parameter setting is queried by running the "LST IPLOGICPORT" command.) The formula for calculating the value of this SET parameter is as follows: GCELLPSOTHERPARA(Opti "Time to Wait Coding in BTS" = Network jitter onal) delay + "Maximum Delay Time[ms]" of IPMUX + NO SET GCELLPSPWPARA(Mandato ry) SET GCELLPSPWPARA(Mandato ry)
NO
Subscribers can specify the cell according to the index or the name. NO
YES
Index of a cell, uniquely identifying a cell in a BSC.
YES
YES
NO
YES
Name of a cell. This parameter uniquely identifies a cell in a BSC. Cell names cannot contain the following invalid characters: ,;="' SET In addition, cell names cannot contain two or GCELLPSPWPARA(Mandato more consecutive %, two or more consecutive ry) spaces, or more than two consecutive +.
It is used to perform open loop power control. Alpha parameter is used by the MS to calculate the output power PCH of the uplink PDCH. This parameter is used to set the reduced class of the SET Tx power of the MS, in correspondence with the GCELLPSPWPARA(Optional path loss, when the GPRS dynamic power ) control is enabled. NO
NO
SET Expected signal receiving strength on the BTS GCELLPSPWPARA(Optional side when GPRS dynamic power control is ) implemented
NO
NO
Filter period of the signal strength in the packet idle mode of the MS. The MS in the packet idle mode measures the downlink signal strength. SET This parameter is used to calculate the Cn value GCELLPSPWPARA(Optional of the MS output power. This parameter ) specifies the relation between Cn and Cn-1. NO
NO
Filter period of the signal strength in the packet transmission mode of the MS. The MS in the packet transmission mode measures the downlink signal strength. This parameter is used SET to calculate the Cn value of the MS output GCELLPSPWPARA(Optional power. This parameter specifies the relation ) between Cn and Cn-1. NO
NO
SET GCELLPSPWPARA(Optional BTS power attenuation on the measured ) PBCCH
NO
NO
Channel used for the measured receiving power. SET It is used to set the measured receiving power GCELLPSPWPARA(Optional level of the channel and control the power of the ) uplink. NO
NO
Filter consistent of the collision signal strength of SET power control. When sampling must be GCELLPSPWPARA(Optional performed (NAVGI) times before the MS obtains ) the efficient measurement signal. NO
NO
SET GCELLPSPWPARA(Optional Switch for PS downlink closed-loop power ) control
NO
NO
Threshold for the times of coding scheme adaptation (measurement period in which the stability of a code scheme can be determined). SET That is, the coding scheme stability can be GCELLPSPWPARA(Optional determined only when the times of coding ) scheme adaptation is equal to this parameter.
NO
NO
Threshold for the times of using current coding scheme in a measurement period. This parameter is used to determine whether the coding scheme is stable. When the number of SET using the current coding scheme in a GCELLPSPWPARA(Optional measurement period is equal to this parameter, ) the coding scheme is stable.
NO
NO
SET Initial attenuation value of the transmit power for GCELLPSPWPARA(Optional other channel relative to the maximum BCCH ) transmit power for PS downlink power control NO
NO
Position corresponding to the target CIR in the SET value range for the specified coding scheme, GCELLPSPWPARA(Optional that is, the delta between the target CIR and the ) minimum value in the value range. NO
NO
SET Maximum offset of the target CIR. This GCELLPSPWPARA(Optional parameter, together with target CIR, are used to ) determine the value range of the target CIR. NO
NO
SET GCELLPSPWPARA(Optional ) Maximum step size of power control
NO
NO
SET This parameter indicates the minimum GCELLPSPWPARA(Optional granularity of BTS output power during PS ) downlink power control.
NO
NO
SET GCELLPWR2(Mandatory)
Type of an index.
NO
YES
SET GCELLPWR2(Mandatory)
Index of a cell, uniquely identifying a cell in a BSC.
YES
YES
SET GCELLPWR2(Mandatory)
Name of a cell. This parameter uniquely identifies a cell in a BSC. Cell names cannot contain the following invalid characters: ,;="' In addition, cell names cannot contain two or more consecutive %, two or more consecutive spaces, or more than two consecutive +.
NO
YES
NO
NO
When the network receives measurement reports, in consideration of the accuracy of a single measurement report, the measurement values in certain measurement reports are filtered to represent the radio operating environment. This parameter specifies the number of measurement reports sampled for SET GCELLPWR2(Optional) filtering the uplink signal strength.
Number of measurement reports sampled for averaging downlink signal strength. A single measurement report may not reflect the actual network situations accurately. Therefore, the BSC needs to average the measured values in several successive measurement reports to SET GCELLPWR2(Optional) reflect the radio environment.
NO
NO
When the network receives measurement reports, the measurement values in several straight measurement reports are filtered to reflect the radio operating environment for the sake of accuracy. This parameter specifies the number of measurement reports sampled for SET GCELLPWR2(Optional) filtering the uplink signal quality.
NO
NO
Number of measurement reports sampled for averaging downlink signal quality. A single measurement report may not reflect the actual network situations accurately. Therefore, the BSC needs to average the measured values in several successive measurement reports to SET GCELLPWR2(Optional) reflect the radio environment.
NO
NO
Whether power control algorithm II allows measurement report compensation. When making a power control decision, the BSC retrieves a certain number of history measurement reports and performs weighted filtering on the receive level values and receive quality values in these reports, which may be obtained when different transmit powers were used by BTSs or MSs. To ensure that correct receive level values and receive quality values are used in filtering, you must compensate the receive level values and receive quality values in history measurement reports obtained when transmit powers different than the current one SET GCELLPWR2(Optional) were used. NO
NO
After the BSC delivers the power control command, it should wait for a certain period before affirming the effect of the power control. Therefore, the MR that power control decision is based on cannot accurately reflect the radio environment during the power adjustment, but misses the latest changes of the receive level and receive quality of the MS. Thus, the power adjustment is delayed. To compensate the delay of power adjustment, the power control algorithm implements the prediction and filtering function. In other words, the BSC samples several uplink measurement reports, performs weighted filtering, and predicts N measurement reports from the current time onwards in a short period. This parameter determines the number of uplink measurement reports predicted by the BSC. In other words, the value of this parameter equals SET GCELLPWR2(Optional) to the previous number N. NO
NO
Number of downlink measurement reports that the BSC predicts. The BSC takes a while to confirm the power control effect of a power control command. Thus, the BSC makes a power control decision based on a measurement report that lags behind the changes in the receive level and quality instead of reflecting the real-time radio environment. As a result, the power control is late. To prevent late power control to a certain degree, the power control algorithm involves a measurement report prediction filter. The BSC can sample several downlink measurement reports in a short time and then weigh them to predict future N measurement reports. SET GCELLPWR2(Optional) This parameter specifies the number N. NO
NO
Huawei power control algorithm II divides three quality zones according to the quality of the receive signals. When the power is downwardly adjusted according to the level, the maximum downward adjustment step can vary according to the quality of the received signals. This parameter specifies the maximum step of downward power adjustment when the quality of SET GCELLPWR2(Optional) the received signals falls into quality zone 0. NO
NO
Huawei power control algorithm II divides three quality zones according to the quality of the receive signals. When the power is downwardly adjusted according to the level, the maximum downward adjustment step can vary according to the quality of the received signals. This parameter specifies the maximum step of downward power adjustment when the quality of SET GCELLPWR2(Optional) the received signals falls into quality zone 1. NO
NO
Huawei power control algorithm II divides three quality zones according to the quality of the receive signals. When the power is downwardly adjusted according to the level, the maximum downward adjustment step can vary according to the quality of the received signals. This parameter specifies the maximum step of downward power adjustment when the quality of SET GCELLPWR2(Optional) the received signals falls into quality zone 2. NO
NO
Step of downward power adjustment according SET GCELLPWR2(Optional) to the quality of the received signals
NO
NO
Step of upward power adjustment according to SET GCELLPWR2(Optional) the quality of the received signals
NO
NO
Step of upward power adjustment according to SET GCELLPWR2(Optional) the quality of the received signals
NO
NO
In the case of power control, when the uplink receive quality is not smaller than "UL Qual. Bad Trig Threshold", the actual "UL RX_LEV Upper Threshold" is increased by "UL Qual. Bad SET GCELLPWR2(Optional) UpLEVDiff". NO
NO
In the case of power control, when the uplink receive quality is not smaller than "UL Qual. Bad Trig Threshold", the actual "UL RX_LEV Upper Threshold" is increased by "UL Qual. Bad SET GCELLPWR2(Optional) UpLEVDiff". NO
NO
During downlink power control, if the downlink receive quality level is equal to or greater than "DL Qual, bad Trig Threshold", "DL RX_LEV Upper Threshold" is increased by "DL Qual. Bad UpLEVDiff" to further increase the expected SET GCELLPWR2(Optional) downlink power level. NO
NO
During downlink power control, if the downlink receive quality level is equal to or greater than "DL Qual, bad Trig Threshold", "DL RX_LEV Upper Threshold" is increased by "DL Qual. Bad UpLEVDiff" to further increase the expected SET GCELLPWR2(Optional) downlink power level. NO
NO
Maximum degree by which the BSC can control SET GCELLPWR2(Optional) the power of the BTS dynamically
NO
NO
Minimum interval between two consecutive AMR SET GCELLPWR2(Optional) power control commands NO
NO
Number of measurement reports sampled for averaging uplink AMR signal strength. A single measurement report may not reflect the actual network situations accurately. Therefore, the BSC needs to average the measured values in several successive measurement reports to SET GCELLPWR2(Optional) reflect the radio environment.
NO
NO
Number of measurement reports sampled for averaging downlink AMR signal strength. A single measurement report may not reflect the actual network situations accurately. Therefore, the BSC needs to average the measured values in several successive measurement reports to SET GCELLPWR2(Optional) reflect the radio environment. NO
NO
Number of measurement reports sampled for averaging uplink AMR signal quality. A single measurement report may not reflect the actual network situations accurately. Therefore, the BSC needs to average the measured values in several successive measurement reports to SET GCELLPWR2(Optional) reflect the radio environment.
NO
NO
Number of measurement reports sampled for averaging downlink AMR signal quality. A single measurement report may not reflect the actual network situations accurately. Therefore, the BSC needs to average the measured values in several successive measurement reports to SET GCELLPWR2(Optional) reflect the radio environment. NO
NO
Whether to enable the compensation of AMR measurement reports in Huawei power control algorithm generation II If this parameter is set to YES, Huawei power control algorithm generation II puts a currently received measurement report into the measurement report compensation queue. Then, the algorithm records the change in the transmit power based on the MS/BTS power in the measurement report. According to the power change, the algorithm compensates the received signal level in a history measurement report after measurement report interpolation. Before making a power control decision, the BSC samples and weights the received signal level and quality in several history measurement reports. The MS/BTS transmit power may vary over these measurement reports. To ensure the accuracy of the received signal level and quality to be weighted, the power control algorithm needs to compensate the received signal level and quality in the history measurement reports where the transmit power differs from the current SET GCELLPWR2(Optional) transmit power. NO
NO
Number of uplink AMR measurement reports that the BSC predicts. The BSC takes a while to confirm the power control effect of a power control command. Thus, the BSC makes a power control decision based on a measurement report that lags behind the changes in the receive level and quality instead of reflecting the real-time radio environment. As a result, the power control is late. To prevent late power control to a certain degree, the power control algorithm involves a measurement report prediction filter. The BSC can sample several downlink measurement reports in a short time and then weigh them to predict future N measurement reports. SET GCELLPWR2(Optional) This parameter specifies the number N. NO
NO
Number of downlink AMR measurement reports that the BSC predicts. The BSC takes a while to confirm the power control effect of a power control command. Thus, the BSC makes a power control decision based on a measurement report that lags behind the changes in the receive level and quality instead of reflecting the real-time radio environment. As a result, the power control is late. To prevent late power control to a certain degree, the power control algorithm involves a measurement report prediction filter. The BSC can sample several downlink measurement reports in a short time and filter them according to a specific weight to predict future N measurement reports. SET GCELLPWR2(Optional) This parameter specifies the number N. NO
NO
Upper threshold for uplink AMR signal strength If the uplink received AMR signal level is greater than this threshold, a power decrease is computed. Then, the power is decreased by the least of the power decrease, maximum power adjustment step allowed by the quality zone to which the received signal quality belongs, and "AMR MAX Down Adj. PC Value by Qual.". Power decrease = uplink received signal level ("AMR UL RX_LEV Upper Threshold" + "AMR UL RX_LEV Lower Threshold")/2 The maximum power adjustment step allowed by the quality zone is chosen from "AMR MAX Down Adj. Value Qual. Zone 0", "AMR MAX Down Adj. Value Qual. Zone 1", and "AMR MAX Down Adj. Value Qual. Zone 2" according to the SET GCELLPWR2(Optional) quality zone. NO
NO
Lower threshold for uplink AMR signal strength. If the uplink received AMR signal level is less than this threshold, a power increase is computed. Then, the power is increased by the least of the power increase, "AMR MAX Up Adj. PC Value by RX_LEV", and "AMR MAX Up Adj. PC Value by Qual.". Power increase = ("AMR UL RX_LEV Upper Threshold" + "AMR UL RX_LEV Lower SET GCELLPWR2(Optional) Threshold")/2 - uplink received signal level.
NO
NO
Quality level threshold for decreasing the power of an uplink AMR call. If the MS transmits AMR signals at a quality level less than "AMR ULQual. Upper Threshold", the BTS decreases the power of the MS. If (uplink receive level - "AMR MAX Down Adj. PC Value by Qual.") < "AMR UL RX_LEV Lower Threshold", the BTS does not SET GCELLPWR2(Optional) adjust the transmit power. NO
NO
Quality level threshold for increasing the power of an uplink AMR call. If the MS transmits AMR signals at a quality level greater than "AMR UL Qual. Lower Threshold", the BTS increases the power of the MS. If (uplink receive level + "AMR MAX Up Adj. PC Value by Qual.") > "AMR UL RX_LEV Upper Threshold", the BTS does not SET GCELLPWR2(Optional) adjust the transmit power. NO
NO
Upper threshold for downlink AMR signal strength. If the downlink received AMR signal level is greater than this threshold, a power decrease is computed. Then, the power is decreased by the least of the power decrease, maximum power adjustment step allowed by the quality zone to which the received signal quality belongs, and "AMR MAX Down Adj. PC Value by Qual.". Power decrease = downlink received signal level - ("AMR DL RX_LEV Upper Threshold" + "AMR DL RX_LEV Lower Threshold")/2 The maximum power adjustment step allowed by the quality zone is chosen from "AMR MAX Down Adj. Value Qual. Zone 0", "AMR MAX Down Adj. Value Qual. Zone 1", and "AMR MAX Down Adj. Value Qual. Zone 2" according to the SET GCELLPWR2(Optional) quality zone. NO
NO
Lower threshold for downlink AMR signal strength. If the downlink received AMR signal level is less than this threshold, a power increase is computed. Then, the power is increased by the least of the power increase, "AMR MAX Up Adj. PC Value by RX_LEV", and "AMR MAX Up Adj. PC Value by Qual.". Power increase = ("AMR DL RX_LEV Upper Threshold" + "AMR DL RX_LEV Lower SET GCELLPWR2(Optional) Threshold")/2 - downlink received signal level. NO
NO
Quality level threshold for decreasing downlink AMR signal power. If the BTS transmits AMR signals at a quality level less than "AMR DL Qual. Upper Threshold", the BSC decreases the power of the BTS. If (downlink receive level "AMR MAX Down Adj. PC Value by Qual.") < "AMR DL RX_LEV Lower Threshold", the BSC SET GCELLPWR2(Optional) does not adjust the transmit power. NO
NO
Quality level threshold for increasing downlink AMR signal power. If the BTS transmits AMR signals at a quality level greater than "AMR DL Qual. Lower Threshold", the BSC increases the power of the BTS. If (downlink receive level + "AMR MAX Up Adj. PC Value by Qual.") > "AMR DL RX_LEV Upper Threshold", the BSC does SET GCELLPWR2(Optional) not adjust the transmit power. NO
NO
Maximum step by which the power can be decreased when the received signal quality belongs to quality zone 0. Huawei power control algorithm generation II classifies the received signal quality into three quality zones. The maximum step by which the power can be decreased according to signal SET GCELLPWR2(Optional) level varies according to the quality zones.
NO
NO
Maximum step by which the power can be decreased when the received signal quality belongs to quality zone 1. Huawei power control algorithm generation II classifies the received signal quality into three quality zones. The maximum step by which the power can be decreased according to signal SET GCELLPWR2(Optional) level varies according to the quality zones.
NO
NO
Maximum step by which the power can be decreased when the received signal quality belongs to quality zone 2. Huawei power control algorithm generation II classifies the received signal quality into three quality zones. The maximum step by which the power can be decreased according to signal SET GCELLPWR2(Optional) level varies according to the quality zones.
NO
NO
Maximum step by which the power can be SET GCELLPWR2(Optional) decreased according to received signal quality
NO
NO
Maximum step by which the power can be SET GCELLPWR2(Optional) increased according to received signal level
NO
NO
Maximum step by which the power can be SET GCELLPWR2(Optional) increased according to received signal quality
NO
NO
During uplink power control, if the uplink receive quality level is equal to or greater than this threshold, "AMR UL RX_LEV Upper Threshold" is increased by "AMR UL Qual. Bad UpLEVDiff" to further increase the expected uplink power SET GCELLPWR2(Optional) level. NO
NO
During uplink power control, if the uplink receive quality level is equal to or greater than "AMR UL Qual. Bad Trig Threshold", "AMR UL RX_LEV Upper Threshold" is increased by "AMR UL Qual. Bad UpLEVDiff" to further increase the SET GCELLPWR2(Optional) expected uplink power level. NO
NO
During downlink power control, if the downlink receive quality level is equal to or greater than this threshold, "AMR DL RX_LEV Upper Threshold" is increased by "AMR DL Qual Bad UpLEVDiff" to further increase the expected SET GCELLPWR2(Optional) downlink power level.
NO
NO
During downlink power control, if the downlink receive quality level is equal to or greater than "AMR DL Qual Bad Trig Threshold", "AMR DL RX_LEV Upper Threshold" is increased by "AMR DL Qual Bad UpLEVDiff" to further increase the SET GCELLPWR2(Optional) expected downlink power level. NO
NO
Maximum degree by which the BSC can control SET GCELLPWR2(Optional) the power of the AMR BTS dynamically
NO
NO
Adjustment step of the downlink signal quality threshold in power control algorithm II for MSs that support SAIC. The network side uses a lower downlink signal quality threshold for SAICsupported MSs in power control, thus lowering the transmit power of the corresponding BTS and reducing the interferences in the whole SET GCELLPWR2(Optional) network. NO
NO
SET GCELLPWR3(Mandatory)
Type of an index.
NO
YES
SET GCELLPWR3(Mandatory)
Index of a cell, uniquely identifying a cell in a BSC.
YES
YES
Name of a cell. This parameter uniquely identifies a cell in a BSC. Cell names cannot contain the following invalid characters: ,;="' In addition, cell names cannot contain two or more consecutive %, two or more consecutive spaces, or more than two consecutive +.
NO
YES
When the number of the lost measurement reports exceeds this parameter during a power SET GCELLPWR3(Optional) control period, the power control stops.
NO
NO
Minimum interval between two consecutive SET GCELLPWR3(Optional) uplink power control commands.
NO
NO
Minimum interval between two consecutive SET GCELLPWR3(Optional) downlink power control commands.
NO
NO
Maximum number of discarded MRs allowed on SET GCELLPWR3(Optional) the SDCCH in a power control period. NO
NO
Maximum number of discarded MRs allowed on SET GCELLPWR3(Optional) the TCH in a power control period. NO
NO
Length of the exponential filter for downlink signal strength. A single measurement report may not reflect the actual network situations accurately. Therefore, the BSC needs to filter the measured values in several successive measurement reports to reflect the radio SET GCELLPWR3(Optional) environment. NO
NO
Length of the exponential filter for downlink signal quality. A single measurement report may not reflect the actual network situations accurately. Therefore, the BSC needs to filter the measured values in several successive measurement reports to reflect the radio SET GCELLPWR3(Optional) environment. NO
NO
Length of the slide window filter for downlink signal strength. A single measurement report may not reflect the actual network situations accurately. Therefore, the BSC needs to filter the measured values in several successive measurement reports to reflect the radio SET GCELLPWR3(Optional) environment. NO
NO
SET GCELLPWR3(Mandatory)
Length of the slide window filter for downlink signal quality. A single measurement report may not reflect the actual network situations accurately. Therefore, the BSC needs to filter the measured values in several successive measurement reports to reflect the radio SET GCELLPWR3(Optional) environment. NO
NO
This parameter specifies the downlink signal strength factor multiplied by 10 during the calculation of the downlink power control step. The downlink signal strength factor is a coefficient indicating how much the signal strength is considered during the calculation of SET GCELLPWR3(Optional) the downlink power control step.
NO
NO
This parameter specifies the downlink quality level factor multiplied by 10 during the calculation of the downlink power control step. The downlink quality level factor is a coefficient indicating how much the quality level is considered during the calculation of the downlink SET GCELLPWR3(Optional) power control step. NO
NO
Upper receive level threshold for downlink power control. If the downlink receive level is greater than this threshold, the power of the downlink SET GCELLPWR3(Optional) signal needs to be decreased. NO
NO
Lower receive level threshold for downlink power control. If the downlink receive level is smaller than this threshold, the power of the uplink signal SET GCELLPWR3(Optional) needs to be increased. NO
NO
Upper quality threshold for Huawei power control generation III on a full rate call. If the downlink receive quality level of a full rate call is greater than this threshold, the call needs to undergo SET GCELLPWR3(Optional) Huawei power control generation III. NO
NO
Lower quality threshold for Huawei power control generation III on a full rate call. If the downlink receive quality level of a full rate call is smaller than this threshold, the call needs to undergo SET GCELLPWR3(Optional) Huawei power control generation III. NO
NO
Upper quality threshold for Huawei power control generation III on a half rate call. If the downlink receive quality level of a half rate call is greater than this threshold, the call needs to undergo SET GCELLPWR3(Optional) Huawei power control generation III. NO
NO
Lower quality threshold for Huawei power control generation III on a half rate call. If the downlink receive quality level of a half rate call is smaller than this threshold, the call needs to undergo SET GCELLPWR3(Optional) Huawei power control generation III. NO
NO
If the downlink receive quality level of an AMR full rate call is greater than this parameter, the call needs to undergo Huawei power control SET GCELLPWR3(Optional) generation III.
NO
NO
If the downlink receive quality level of an AMR full rate call is smaller than this parameter, the call needs to undergo Huawei power control SET GCELLPWR3(Optional) generation III.
NO
NO
If the downlink receive quality level of an AMR half rate call is greater than this parameter, the call needs to undergo Huawei power control SET GCELLPWR3(Optional) generation III.
NO
NO
If the downlink receive quality level of an AMR half rate call is smaller than this parameter, the call needs to undergo Huawei power control SET GCELLPWR3(Optional) generation III.
NO
NO
Maximum step by which to decrease downlink SET GCELLPWR3(Optional) power according to signal strength.
NO
NO
Maximum step by which to increase downlink SET GCELLPWR3(Optional) power according to signal strength.
NO
NO
When the network receives measurement reports, the measurement values in several straight measurement reports are filtered to reflect the radio operating environment for the sake of accuracy. This parameter specifies the number of measurement reports sampled for SET GCELLPWR3(Optional) exponent filtering of the uplink signal strength.
NO
NO
When the network receives measurement reports, the measurement values in several straight measurement reports are filtered to reflect the radio operating environment for the sake of accuracy. This parameter specifies the number of measurement reports sampled for SET GCELLPWR3(Optional) exponent filtering of the uplink signal quality.
NO
NO
When the network receives measurement reports, the measurement values in several straight measurement reports are filtered to reflect the radio operating environment for the sake of accuracy. This parameter specifies the number of measurement reports sampled for slide-window filtering of the uplink signal SET GCELLPWR3(Optional) strength.
NO
NO
When the network receives measurement reports, the measurement values in several straight measurement reports are filtered to reflect the radio operating environment for the sake of accuracy. This parameter specifies the number of measurement reports sampled for SET GCELLPWR3(Optional) slide-window filtering of the uplink signal quality. NO
NO
This parameter specifies the uplink signal strength factor multiplied by 10 during the calculation of the uplink power control step. The uplink signal strength factor is a coefficient indicating how much the signal strength is considered during the calculation of the uplink SET GCELLPWR3(Optional) power control step.
NO
NO
This parameter specifies the uplink quality level factor multiplied by 10 during the calculation of the uplink power control step. The uplink quality level factor is a coefficient indicating how much the quality level is considered during the calculation of the uplink SET GCELLPWR3(Optional) power control step.
NO
NO
When the uplink receive level reaches the SET GCELLPWR3(Optional) threshold, Huawei III power control is performed. NO
NO
When the uplink receive level is lower than the SET GCELLPWR3(Optional) threshold, Huawei III power control is performed. NO
NO
Current call is a full-rate call, and when the uplink receive quality is greater than the SET GCELLPWR3(Optional) threshold, Huawei III power control is performed. NO
NO
Current call is a full-rate call, and when the uplink receive quality is lower than the threshold, SET GCELLPWR3(Optional) Huawei III power control is performed. NO
NO
Current call is a half-rate call, and when the uplink receive quality is greater than the SET GCELLPWR3(Optional) threshold, Huawei III power control is performed. NO
NO
Current call is a half-rate call, and when the uplink receive quality is lower than the threshold, SET GCELLPWR3(Optional) Huawei III power control is performed. NO
NO
Current call is an AMR full-rate call, and when the uplink receive quality is greater than the SET GCELLPWR3(Optional) threshold, Huawei III power control is performed. NO
NO
Current call is an AMR full-rate call, and when the uplink receive quality is lower than the SET GCELLPWR3(Optional) threshold, Huawei III power control is performed. NO
NO
Current call is an AMR half-rate call, and when the uplink receive quality is greater than the SET GCELLPWR3(Optional) threshold, Huawei III power control is performed. NO
NO
Current call is an AMR half-rate call, and when the uplink receive quality is lower than the SET GCELLPWR3(Optional) threshold, Huawei III power control is performed. NO
NO
Maximum permissible adjustment step when the SET GCELLPWR3(Optional) BSC decreases the uplink transmit power. NO
NO
Maximum permissible adjustment step when the SET GCELLPWR3(Optional) BSC increases the uplink transmit power. NO
NO
Adjustment step of the downlink signal quality threshold in power control algorithm III for MSs that support SAIC. The network side uses a lower downlink signal quality threshold for SAICsupported MSs in power control, thus lowering the transmit power of the corresponding BTS and reducing the interferences in the whole SET GCELLPWR3(Optional) network. NO
NO
Whether to enable 0.2 dB downlink power control. This power control function improves the SET GCELLPWR3(Optional) power control precision. NO
NO
Whether to enable the optimized power control SET GCELLPWR3(Optional) algorithm III
NO
NO
Filter adjustment factor for uplink power control. If this parameter is set to a large value, the filtered values become smooth, thus reducing the impact of poor measurement reports on the filtered values. If this parameter is set to a small value, the filter values are close to the actual ones and thus the power control speed is SET GCELLPWR3(Optional) increased. NO
NO
Filter adjustment factor for downlink power control. Setting this parameter high helps to smooth the filtered values and to reduce the impact of poor measurement reports on the filtered values. Setting this parameter low helps to draw the filtered values close to the actual SET GCELLPWR3(Optional) values and to heighten the power control effect.
NO
NO
Signal strength factor for the protective limitation on calculating the uplink power control adjustment step. The calculated step value cannot exceed the step value that is obtained on the basis of the signal strength protection factor SET GCELLPWR3(Optional) and the signal quality protection factor. NO
NO
Signal strength factor for the protective limitation on calculating the uplink power control adjustment step. The calculated step value cannot exceed the step value that is obtained on the basis of the signal strength protection factor SET GCELLPWR3(Optional) and the signal quality protection factor. NO
NO
A power control step cannot exceed the step computed according to "III DL RexLev Protect SET GCELLPWR3(Optional) Factor" and "III DL RexQual Protect Factor".
NO
NO
A power control step cannot exceed the step computed according to "III DL RexLev Protect SET GCELLPWR3(Optional) Factor" and "III DL RexQual Protect Factor".
NO
NO
Whether to enable the III power control algorithm for AMR calls. If enabled, power control is SET GCELLPWR3(Optional) performed on AMR calls. NO
NO
Whether to enable the III power control algorithm for Non-AMR calls. If enabled, power control is SET GCELLPWR3(Optional) performed on Non-AMR calls. NO SET GCELLPWRBASIC(Mandator y) Type of an index. NO SET GCELLPWRBASIC(Mandator Index of a cell, uniquely identifying a cell in a y) BSC. YES
NO
YES
YES
Name of a cell. This parameter uniquely identifies a cell in a BSC. Cell names cannot contain the following invalid characters: ,;="' SET In addition, cell names cannot contain two or GCELLPWRBASIC(Mandator more consecutive %, two or more consecutive y) spaces, or more than two consecutive +.
NO
YES
SET Minimum interval between two consecutive GCELLPWRBASIC(Optional) power control commands
NO
NO
SET When the uplink receive level reaches the GCELLPWRBASIC(Optional) threshold, Huawei II power control is performed. NO
NO
SET When the uplink receive level is below the GCELLPWRBASIC(Optional) threshold, Huawei II power control is performed. NO
NO
The MS transmit power is decreased only when the quality level of the MS transmit signal is smaller than the value of the parameter. If (the uplink receive level - MAX Up Adj. PC Value by Qual) is smaller than "UL RX_LEV Lower SET Threshold", the MS transmit power is not GCELLPWRBASIC(Optional) adjusted.
NO
NO
The MS transmit power is increased only when the quality level of the MS transmit signal is greater than the value of the parameter. If (the uplink receive level + MAX Up Adj. PC Value by Qual) is greater than "UL RX_LEV Upper SET Threshold", the MS transmit power is not GCELLPWRBASIC(Optional) adjusted. NO
NO
Upper threshold for downlink signal strength If the downlink received signal level is greater than this threshold, a power decrease is computed. Then, the power is decreased by the least of the power decrease, maximum power adjustment step allowed by the quality zone to which the received signal quality belongs, and "MAX Down Adj. PC Value by Qual.". Power decrease = downlink received signal level - ("DL RX_LEV Upper Threshold" + "AMR DL RX_LEV Lower Threshold")/2 The maximum power adjustment step allowed by the quality zone is chosen from "MAX Down Adj.Value Qual.Zone 0", "MAX Down Adj.Value SET Qual.Zone 1", and "MAX Down Adj.Value GCELLPWRBASIC(Optional) Qual.Zone 2" according to the quality zone. NO
NO
Lower threshold for downlink signal strength If the downlink received signal level is less than this threshold, a power increase is computed. Then, the power is increased by the least of the power increase, "MAX Up Adj. PC Value by RX_LEV", and "MAX Up Adj. PC Value by Qual.". Power increase = ("DL RX_LEV Upper SET Threshold" + "AMR DL RX_LEV Lower GCELLPWRBASIC(Optional) Threshold")/2 - downlink received signal level
NO
NO
Quality level threshold for decreasing downlink signal power. If the BTS transmits signals at a quality level less than this threshold, the BSC decreases the power of the BTS. If (downlink receive level - "MAX Down Adj. PC Value by SET Qual.") < "DL RX_LEV Lower Threshold", the GCELLPWRBASIC(Optional) BSC does not adjust the transmit power.
NO
NO
Quality level threshold for increasing downlink signal power. If the BTS transmits signals at a quality level greater than this threshold, the BSC increases the power of the BTS. If (downlink receive level + "MAX Up Adj. PC Value by SET Qual.") > "DL RX_LEV Upper Threshold", the GCELLPWRBASIC(Optional) BSC does not adjust the transmit power. NO
NO
SET Whether to enable power control algorithm II or GCELLPWRBASIC(Optional) power control algorithm III
NO
NO
Number of levels by which the BTS increases the power of an SACCH frame. This parameter is used for SACCH power control. When sending an SACCH frame, the BTS increases the power SET of the SACCH frame by this specified number of GCELLPWRBASIC(Optional) levels. NO
NO
Whether to allow active power control. If this parameter is set to YES, the system performs power forecast in the process of initial access assignment or service channel activation during intra-BSC handovers, and sends the forecast initial power information to the BTSs through channel activation messages. In this way, the MSs and BTSs can adjust the transmit power. If this parameter is set to NO, the system does not SET perform power forecast, and the MSs and BTSs GCELLPWRBASIC(Optional) choose the maximum transmit power. NO
NO
SET Combined loss used to estimate the downlink GCELLPWRBASIC(Optional) power during assignment
NO
NO
SET Dual-antenna gain used to estimate the downlink GCELLPWRBASIC(Optional) power during assignment NO
NO
SET Transmission loss difference between radio GCELLPWRBASIC(Optional) frequencies on different bands
NO
NO
Received signal strength at an MS expected in SET power forecast, which helps to compute the GCELLPWRBASIC(Optional) initial transmit power of the BTS
NO
NO
Received signal strength at the BTS expected in SET power forecast, which helps to compute the GCELLPWRBASIC(Optional) initial transmit power of an MS NO Whether an MS supports the SAIC function. Single Antenna Interference Cancellation (SAIC) is used to reduce the impact of interference on the reception of downlink signals through a signal processing technology. An MS enabled with SAIC has improved ability of antiinterference. After SAIC is enabled, the thresholds for BTS/MS Power Control are SET adjusted to improve the radio performance of the GCELLPWRBASIC(Optional) BSS. NO ADD GCELLQUICKSETUP(Manda Index of a cell, uniquely identifying a cell in a tory) BSC. NO Name of a cell. This parameter uniquely identifies a cell in a BSC. Cell names cannot contain the following invalid characters: ,;="' ADD In addition, cell names cannot contain two or GCELLQUICKSETUP(Manda more consecutive %, two or more consecutive tory) spaces, or more than two consecutive +. ADD GCELLQUICKSETUP(Manda Cell type. Currently, the fast BTS construction is tory) available for only GSM900 and DCS1800 cells. ADD Mobile country code. This parameter identifies GCELLQUICKSETUP(Manda the country where a mobile subscriber is located, tory) for example, the Chinese MCC is 460. ADD Mobile network code. This parameter identifies GCELLQUICKSETUP(Manda the public land mobile network (PLMN) to which tory) a mobile subscriber belongs.
NO
NO
YES
NO
YES
NO
YES
NO
YES
NO
YES
Location area code (LAC). MS can freely move in the local location area with no need of location update. Reasonable local allocation can effectively lighten the signaling load and improve the call completion rate. ADD Can be input in hexadecimal format. The GCELLQUICKSETUP(Manda hexadecimal format is H'****, for example, tory) H'1214. NO
YES
Identity code of a cell, A cell is a wireless coverage area identified by a base station identity code and a global cell identification. ADD Can be input in hexadecimal format. The GCELLQUICKSETUP(Manda hexadecimal format is H'****, for example, tory) H'1214. NO ADD Network color code. It is used to uniquely identify GCELLQUICKSETUP(Option different public land mobile network (PLMN) of al) the adjacent country. NO ADD GCELLQUICKSETUP(Option BTS color code. It uniquely identifies different al) BTSs that are adjacent and use the same TRX. NO ADD GCELLQUICKSETUP(Manda tory) ADD GCELLQUICKSETUP(Manda tory) ADD GCELLQUICKSETUP(Option al)
Code of the signaling point of the local office in the signaling network. In the signaling network, each signaling point has a corresponding signaling point code.
YES
NO
NO
NO
YES
Frequency of the BCCH TRX NO Ordinary frequency. Multiple frequencies are separated by "&". For example, "22&33&44&55" are allocated to TRXs in ascending order. NO
YES
NO
Number of SDCCH channels. Rules for SDCCH channel allocation: 1. Allocate channels 1 and 3 of main frequency B preferentially. 2. Allocate channels 1, 3, 5, and 7 according to the physical ADD position order of the frequencies. Thus, the GCELLQUICKSETUP(Option maximum number of SDCCH channels is (actual al) number of frequencies - 1) *4+2. NO
NO
ADD GCELLQUICKSETUP(Option al) Whether the currently cell supports the GPRS
NO
NO
NO
NO
NO
NO
NO
NO
NO
NO
ADD GCELLQUICKSETUP(Option al) ADD GCELLQUICKSETUP(Option al) ADD GCELLQUICKSETUP(Option al) ADD GCELLQUICKSETUP(Option al)
Route area of the current cell The identifier of a network service entity (NSE).An NSE manages a group of NSVCs. The BSSGP virtual connection identifier. It is used to identify multiple BVCs that multiplexes the NS-VC. Name of a cell template, uniquely identifying a cell template in a BSC.
SET GCELLRESELECTPARA(Ma ndatory) SET GCELLRESELECTPARA(Ma ndatory)
Subscribers can specify the cell according to the index or the name. NO
YES
Index of a cell, uniquely identifying a cell in a BSC.
YES
YES
NO
YES
Name of a cell. This parameter uniquely identifies a cell in a BSC. Cell names cannot contain the following invalid characters: ,;="' SET In addition, cell names cannot contain two or GCELLRESELECTPARA(Ma more consecutive %, two or more consecutive ndatory) spaces, or more than two consecutive +.
Hysteresis value of the cell in the same routing area. When the MS in the ready state reselects a cell, if the original cell and the target cell are in the same routing area, the C2 values of the two cells at the border of the cell are quite different due to radio channel fading. As a result, the MS frequently reselects cells. Frequent cell reselection can lead to increase of signaling traffic, inefficient use of radio resources, decrease of MS data transmission rate, and thus reducing the network service quality. The cell reselection hysteresis parameter is introduced. The signal level of the adjacent cell in the same area must be greater than that of the local cell. The difference of the signal level must be greater than the value of the cell reselection hysteresis parameter. Otherwise, the MS cannot reselect a SET cell. The greater the GPRS cell reselection GCELLRESELECTPARA(Opt hysteresis value, the harder to start cell ional) reselection. NO
NO
SET GCELLRESELECTPARA(Opt Whether the reselection hysteresis parameter is ional) applied to the C31 criterion NO
NO
Whether GPRS cell reselection offset is used for C32 calculation during cell reselection. If this SET parameter is set to 1, then only the positive GCELLRESELECTPARA(Opt hysteresis of the neighoring cell is used in C32 ional) calculation. NO SET GCELLRESELECTPARA(Opt ional) Whether to allow the MS to access another cell NO
NO
NO
SET GCELLRESELECTPARA(Opt ional) Forbidden time of cell reselection
NO
NO
Hysteresis of cell selection in different routing area. When a standby or ready MS starts cell reselection, if the original cell and the target cell are in the different routing area, the signal level of the neighboring cell must be greater that of the current cell. Their difference must be larger than the specified hysteresis. Otherwise the MS SET cannot start cell reselection. The larger the GCELLRESELECTPARA(Opt hysteresis of GPRS cell selection, the harder to ional) start cell reselection. NO
NO
SET GCELLREV(Mandatory) Type of an index.
NO
YES
Index of a cell, uniquely identifying a cell in a SET GCELLREV(Mandatory) BSC.
YES
YES
NO
YES
NO
YES
SET GCELLREV(Mandatory) Value of a reserved parameter for cells
NO
YES
SET GCELLSBC(Mandatory) Type of an index.
NO
YES
Index of a cell, uniquely identifying a cell in a SET GCELLSBC(Mandatory) BSC.
YES
YES
Name of a cell. This parameter uniquely identifies a cell in a BSC. Cell names cannot contain the following invalid characters: ,;="' In addition, cell names cannot contain two or more consecutive %, two or more consecutive SET GCELLREV(Mandatory) spaces, or more than two consecutive +. Reserved parameter for cells. There are 30 parameters of this type, which can be used as SET GCELLREV(Mandatory) new parameters in later versions.
Name of a cell. This parameter uniquely identifies a cell in a BSC. Cell names cannot contain the following invalid characters: ,;="' In addition, cell names cannot contain two or more consecutive %, two or more consecutive SET GCELLSBC(Mandatory) spaces, or more than two consecutive +.
SET GCELLSBC(Optional)
NO
Whether to add a simple cell broadcast message for broadcasting the cell name. This parameter is only used for control broadcasting cell name, not used for control CB service. NO
YES
NO
SET GCELLSBC(Optional)
Geographical area over which the Message Code is unique and the display mode. For details about this parameter, see 3GPP TS 03.41. The value LAC_CI indicates that a simple cell broadcast message is cell wide and the content of the message is directly displayed on the MS by default. The value PLMN indicates that a simple cell broadcast message is PLMN wide and the content of the message is displayed under user interaction. The value LAC indicates that a simple cell broadcast message is location area wide and the content of the message is displayed under user interaction. The value CI indicates that a simple cell broadcast message is cell wide and the content of the message is displayed under user interaction. Note: "Geography Scope", "Code", and "Update" constitute the serial number, which identifies a particular simple cell broadcast message. NO
NO
SET GCELLSBC(Optional)
Message Identifier of a simple cell broadcast message. This is a key parameter for adding a simple cell broadcast message. You can use "DSP GSMSCB" to query and obtain the value of this parameter. NO
NO
SET GCELLSBC(Optional)
Identifies the coding scheme employed for the simple cell broadcast message characters and message handling scheme at the MS. For details about this parameter, see 3GPP TS 03.38. NO
NO
SET GCELLSBC(Optional)
Contents of a cell broadcast message
NO
NO
SET GCELLSBC(Optional)
Time interval for a cell broadcast message
NO
NO
SET GCELLSERVPARA(Mandator y) SET GCELLSERVPARA(Mandator y)
Subscribers can specify the cell according to the index or the name. NO
YES
Index of a cell, uniquely identifying a cell in a BSC.
YES
YES
Name of a cell. This parameter uniquely identifies a cell in a BSC. Cell names cannot contain the following invalid characters: ,;="' SET In addition, cell names cannot contain two or GCELLSERVPARA(Mandator more consecutive %, two or more consecutive y) spaces, or more than two consecutive +.
NO
YES
Whether the cell can be added to the reselected candidate cell list. If this parameter is set to "NoPermit", the cell cannot be reselected as the candidate cell for handover. If this parameter is SET set to "Permit", the cell can be reselected as the GCELLSERVPARA(Optional) candidate cell for handover. NO
NO
Whether it is a SoLSA exclusive access cell. If it is a SoLSA exclusive access cell, only the MS SET subscribing the Localised Service Area (LSA) GCELLSERVPARA(Optional) can access this cell. NO
NO
SET Minimum receiving power level for the MS in the GCELLSERVPARA(Optional) cell to access the system NO
NO
SET Maximum TX power for the MS to access the GCELLSERVPARA(Optional) PCH
NO
NO
Priority of the hierarchical cell structure (HCS). SET 0: indicates the lowest priority; GCELLSERVPARA(Optional) 7: indicates the highest priority.
NO
NO
Threshold of hierarchical cell structure (HCS) signal strength. The MS calculates the C31 according to the signal strength and its threshold SET and selects the adjacent cell during cell GCELLSERVPARA(Optional) reselection. NO
NO
Multi-band point report value, including "report six cells with the strongest signal at each frequency point", "report one cell with the strongest signal at each frequency point", "report two cells with the strongest signal at each SET frequency point", and "report three cells with the GCELLSERVPARA(Optional) strongest signal at each frequency point". NO
NO
SET GCELLSOFT(Mandatory)
Type of an index.
NO
YES
SET GCELLSOFT(Mandatory)
Index of a cell, uniquely identifying a cell in a BSC.
YES
YES
SET GCELLSOFT(Mandatory)
Name of a cell. This parameter uniquely identifies a cell in a BSC. Cell names cannot contain the following invalid characters: ,;="' In addition, cell names cannot contain two or more consecutive %, two or more consecutive spaces, or more than two consecutive +.
NO
YES
SET GCELLSOFT(Optional)
Delay time for mutual-aid detection on a cell after the cell is initialized. When the cell initialization has just finished, the cell is in an unstable state. Mutual-aid detection at this time may cause a wrong decision. Therefore, this parameter is used for specifying proper delay.
NO
NO
SET GCELLSOFT(Optional)
Whether a cell is a repeater. With simpler functions than a BTS, a repeater is a coverage extension device of a BTS. It is applied to widelystretched areas or indoor areas to solve the dead zone problem of BTS coverage. Using repeaters cannot increase the traffic capacity of a network but improve the coverage only. Because the BTS coverage increases, however, the total traffic improves accordingly. The setting of this parameter has effects on handovers. Repeaters use the asynchronous transfer mode (ATM) due to a greater distance between them. Therefore, handovers between repeaters are asynchronous. Synchronous handovers will fail. NO
NO
SET GCELLSOFT(Optional)
Whether to optimize the call drops resulting from error indication (T200 timeout). The value 0 means "optimize" and 1 means "not optimize". If the value of this parameter is 0, the call drops resulting from this cause are not brought into the statistics of call drops. NO
NO
SET GCELLSOFT(Optional)
Whether to optimize the call drops resulting from error indication (unsolicited DM response). The value 0 means "optimize" and 1 means "not optimize". If the value of this parameter is 0, the call drops resulting from this cause are not brought into the statistics of call drops. NO
NO
SET GCELLSOFT(Optional)
Whether to optimize the call drops resulting from error indication (sequence error). The value 0 means "optimize" and 1 means "not optimize". If the value of this parameter is 0, the call drops resulting from this cause are not brought into the statistics of call drops. NO
NO
SET GCELLSOFT(Optional)
Whether to optimize the call drops resulting from connection failure (radio link failure). The value 0 means "optimize" and 1 means "not optimize". If the value of this parameter is 0, the call drops resulting from this cause are not brought into the statistics of call drops. NO
NO
SET GCELLSOFT(Optional)
Whether to optimize the call drops resulting from connection failure (handover access failure). The value 0 means "optimize" and 1 means "not optimize". If the value of this parameter is 0, the call drops resulting from this cause are not brought into the statistics of call drops. NO
NO
SET GCELLSOFT(Optional)
Whether to optimize the call drops resulting from connection failure, operation and maintenance (OM) intervention. The value 0 means "optimize" and 1 means "not optimize". If the value of this parameter is 0, the call drops resulting from this cause are not brought into the statistics of call drops. NO
NO
SET GCELLSOFT(Optional)
Whether to optimize the call drops resulting from connection failure (unavailability of radio resources). The value 0 means "optimize" and 1 means "not optimize". If the value of this parameter is 0, the call drops resulting from this cause are not brought into the statistics of call drops. NO
NO
SET GCELLSOFT(Optional)
Whether to optimize the call drops resulting from a connection failure except for handover access failure, OM intervention, radio link failure, and unavailability of radio resources. The value 0 means "optimize" and 1 means "not optimize". If the value of this parameter is 0, the call drops resulting from this cause are not brought into the statistics of call drops. NO
NO
SET GCELLSOFT(Optional)
Whether to optimize the call drops resulting from release indications. The value 0 means "optimize" and 1 means "not optimize". If the value of this parameter is 0, the call drops resulting from this cause are not brought into the statistics of call drops. NO
NO
SET GCELLSOFT(Optional)
Whether to optimize the call drops resulting from Abis territorial link fault. The value 0 means "optimize" and 1 means "not optimize". If the value of this parameter is 0, the call drops resulting from this cause are not brought into the statistics of call drops. NO
NO
SET GCELLSOFT(Optional)
Whether to optimize the call drops resulting from equipment fault. The value 0 means "optimize" and 1 means "not optimize". If the value of this parameter is 0, the call drops resulting from this cause are not brought into the statistics of call drops. NO
NO
SET GCELLSOFT(Optional)
Whether to optimize the call drops resulting from forced handover failure. The value 0 means "optimize" and 1 means "not optimize". If the value of this parameter is 0, the call drops resulting from this cause are not brought into the statistics of call drops. NO
NO
SET GCELLSOFT(Optional)
Whether to optimize the call drops resulting from no MS measurement reports for a long time. The value 0 means "optimize" and 1 means "not optimize". If the value of this parameter is 0, the call drops resulting from this cause are not brought into the statistics of call drops. NO
NO
SET GCELLSOFT(Optional)
Whether to optimize the call drops resulting from resource check. The value 0 means "optimize" and 1 means "not optimize". If the value of this parameter is 0, the call drops resulting from this cause are not brought into the statistics of call drops. NO
NO
SET GCELLSOFT(Optional)
Whether to optimize the call drops resulting from incoming-BSC handover timeout. The value 0 means "optimize" and 1 means "not optimize". If the value of this parameter is 0, the call drops resulting from this cause are not brought into the statistics of call drops. NO
NO
SET GCELLSOFT(Optional)
Whether to optimize the call drops resulting from outgoing-BSC handover timeout. The value 0 means "optimize" and 1 means "not optimize". If the value of this parameter is 0, the call drops resulting from this cause are not brought into the statistics of call drops. NO
NO
SET GCELLSOFT(Optional)
Whether to optimize the call drops resulting from outgoing internal inter-cell handover timeout. The value 0 means "optimize" and 1 means "not optimize". If the value of this parameter is 0, the call drops resulting from this cause are not brought into the statistics of call drops. NO
NO
SET GCELLSOFT(Optional)
Whether to optimize the call drops resulting from intra-cell handover timeout. The value 0 means "optimize" and 1 means "not optimize". If the value of this parameter is 0, the call drops resulting from this cause are not brought into the statistics of call drops. NO
NO
SET GCELLSOFT(Optional)
Type of a scanning result in the period from the start of a frequency scanning task to the reporting of the scanning result. Frequency scanning refers to the scanning of an uplink receive level of a cell frequency. The scanning result reflects the strength of frequency signals received by the cell. NO
NO
SET GCELLSOFT(Optional)
Whether to hand over an MS to another channel during an intra-cell handover through the assignment process NO
NO
SET GCELLSOFT(Optional)
Whether an MS is forced to send a Handover Access message, which is indicated by an information element in the handover command.
NO
NO
SET GCELLSOFT(Optional)
This parameter specifies whether the CS services preempt the sublink resources of PS services. In the current version, this parameter supports configuration consistency and configuration delivery; however, this parameter is not used in any function. This parameter will be removed from later versions. Thus, it is recommended not to configure it in this version. NO
NO
SET GCELLSOFT(Optional)
Whether to permit the preemption of lower-level sublink resources. If the value of this parameter is YES, a CS domain service can preempt the sublink resources of the PS domain services on the lower-level BTS of the cascaded BTSs when the CS domain service fails to preempt the sublink of the corresponding level. In the current version, this parameter supports configuration consistency and configuration delivery; however, this parameter is not used in any function. This parameter will be removed from later versions. Thus, it is recommended not to configure it in this version. NO
NO
SET GCELLSOFT(Optional)
Whether to report a cell out-of-service alarm after a cell is out of service
NO
NO
SET GCELLSOFT(Optional)
Type of an interference band statistics algorithm used when the frequency scanning function is enabled. The interference band statistics algorithm I uses pair average, and the interference band statistics algorithm II uses linear average. NO
NO
SET GCELLSOFT(Optional)
Whether to enable Paging Messages Optimize at Abis Interface. The BSC combines multiple paging messages to a cell paging package and then sends the package to the BTS. The package reduces header overhead and thus reducing the load on the Abis link. Interval for sending cell paging group packets when Paging Messages Optimize at Abis Interface is enabled Number of cell paging group packets when Paging Messages Optimize at Abis Interface is enabled Whether to collect the information about the MSs of different capabilities in a cell. This parameter has no impact on services.
NO
NO
SET GCELLSOFT(Optional)
Whether to enable the SDCCH quick handover test function. If this parameter is set to Yes, the BSC initiates intra-cell SDCCH handover as soon as the MSC issues an encrypted command to the MS. Thus, the forwarding encrypted signaling can be transmitted and received on a new signaling channel. In this way, the network security is improved. NO
NO
SET GCELLSOFT(Optional) SET GCELLSOFT(Mandatory) SET GCELLSOFT(Mandatory)
NO
NO
NO
YES
NO
YES
SET GCELLSOFT(Optional)
Whether to forcibly enable the EFR function. When this parameter is set to YES, if both the MS and the BSC support the enhanced full rate (EFR), the BSC forcibly enables the EFR function even if the MSC does not support the function.
NO
NO
SET GCELLSOFT(Optional)
Average number of paging messages allowed in a cell in a period NO
NO
SET GCELLSOFT(Optional)
Maximum number of paging messages allowed in a cell in a period
NO
NO
SET GCELLSOFT(Optional)
Whether to enable the EICC algorithm. Enhanced Interference Rejection Combining combines the signals received by multiple antennas to obtain better signals. EICC is mainly used in high traffic network where tight frequency reuse is in place. NO
NO
SET GCELLSOFT(Optional)
Whether to query the classmark of the call in an incoming BSC handover NO
NO
SET GCELLSOFT(Optional)
Whether to report the classmark queried by the BSC to the MSC
NO
NO
SET GCELLSOFT(Optional)
This parameter specifies whether to perform periodic intra-cell handover for speech services on TCH.
NO
NO
SET GCELLSOFT(Optional)
This parameter specifies the interval at which the speech service on a TCH is handed over. NO
NO
SET GCELLSOFT(Optional)
Whether to enable the function of the Flex training sequence code (TSC). If the value of this parameter is ON and the BTS supports the Flex TSC function, the BSS dynamically allocates TSCs to hopping frequencies for improving the security of calls. NO
NO
SET GCELLSOFT(Optional)
Whether a BTS randomizes the dummy bits in all the signaling messages that the BTS sends to an MS. That is, dummy bits are randomized rather than filled on the basis of 0x2B. NO
NO
SET GCELLSOFT(Optional)
This parameter specifies whether the sending of system information 5, 5bis, and 5ter can be stopped on the SACCH on the SDCCH after the BTS issues a ciphering command. NO
NO
SET GCELLSOFT(Optional)
Whether to activate the function of L2 reestablishment. If this function is activated, the BSC starts the attempt of L2 re-establishment when the BSC receives an ERR IND message reported by the BTS in a conversation of MSs. If the L2 re-establishment succeeds, the conversation continues; otherwise, a call drop occurs. NO
NO
SET GCELLSOFT(Optional)
Quality threshold for determining that a call is disconnected because of poor quality. If the uplink quality or downlink quality in the measurement reports during the period of "Timer for Bad Quality DISC Statistic" is higher than the value of this parameter before the call is disconnected, you can infer that the call disconnection is due to poor quality. This parameter can be used to calculate the number of call disconnections due to poor quality. NO
NO
SET GCELLSOFT(Optional)
Duration time for determining that a call is hung up because of poor quality. If the uplink quality or downlink quality in the measurement reports during the period of Timer for "Bad Quality DISC Statistic" is higher than the value of "Bad Quality Disconnection Threshold" before the call is disconnected, you can infer that the call disconnection is due to poor quality. This parameter can be used to calculate the number of call disconnections due to poor quality. NO
NO
SET GCELLSOFT(Optional)
Whether to allow the BTS to report the downlink voice quality index (VQI). The VQI is used to indicate voice quality. It is calculated on the basis of BER, FER, and frame stealing. NO
NO
SET GCELLSOFT(Optional)
Whether to enable the power amplifier for all location groups. 0x01 indicates that the TRX power amplifier is enabled for all location groups. 0x00 indicates that the TRX power amplifier is enabled for the current location group. NO
NO
SET GCELLSOFT(Optional)
Whether the BTS reports the frame erase ratio in a measurement report or preprocessed measurement report NO
NO
SET GCELLSOFT(Optional)
This parameter specifies whether to enable the Power Optimization Based on Channel Type feature. The working voltage of the TRX varies with the modulation mode of the channel. When this parameter is set to YES, the TRX adopts the working voltage according to the modulation mode of the dynamic PDCH. NO
NO
SET GCELLSOFT(Optional)
Whether to specify "Power Control threshold Adjust for SAIC" in the MML command "SET GCELLPWR2"
NO
NO
SET GCELLSOFT(Optional)
Whether to allow TSC planning. If this parameter is set to No, the TSC values in all MA groups of the cell cannot be modified. In this case, the TSC values are automatically refreshed to the BCC values of the cell. NO
NO
SET GCELLSOFT(Optional)
Coding mode in which an ARFCN is sent to an MS during an assignment or handover. If the parameter is set to CA_MA, an ARFCN is indicated through the CA and MA information contained in an assignment or handover command. If the parameter is set to Frequency_List, an ARFCN is indicated through the Frequency List information contained in an assignment or handover command. If this parameter is set to OPTIMIZED_CA_MA, the assignment command carries only the MA but not the CA when a cell works on only one frequency band, and the assignment command carries both the MA and CA if the cell works on more than one frequency band. NO
NO
SET GCELLSOFT(Optional)
Whether the cells at the 1900 frequency support high frequency 1900 NO
NO
SET GCELLSOFT(Optional)
Whether the cells at the 900 frequency support high frequency 1900
NO
NO
SET GCELLSOFT(Optional)
Whether the cells at the 850 frequency support high frequency 1900
NO
NO
SET GCELLSOFT(Optional)
Maximum number of reported paging overload messages in the cell. If the BSC allows the flow control on the re-paging messages, and the number of the reported paging overload messages exceeds the value of this parameter, the BSC determines that the cell is in PCH overload state.
NO
NO
SET GCELLSOFT(Optional)
Whether the crosstalk optimization function over the Um interface is allowed. If this parameter is set to YES when call drops occur on the Um interface, this function can avoid crosstalk due to very early assignment of the channel that is not released. If this parameter is set to YES and the ongoing service is speech service, the BSC also sends the Channel Release message to the MS and starts the timer T3109 when a call drop occurs upon the reception of the Conn Fail or Err Ind message reported by the MS. NO
NO
SET GCELLSOFT(Optional)
This parameter is used to avoid allocating the calls whose signal strengths differ greatly to the same timeslot. The BSC measures the signal merge conditions on each timeslot every 0.5 seconds. If the difference between the highest signal strength and the lowest signal strength on a timeslot is greater than the value of "UL Signal Strength Difference Threshold", it regards it as a signal merge event. If N signal merge events are consecutively detected among P times of measurements, the forcible intra-cell handover is triggered to switch the call with the highest signal strength to another timeslot in the cell. Here, N indicates "UL Signal Strength Difference Detections", P indicates "UL Signal Strength Difference Maintains". NO
NO
SET GCELLSOFT(Optional)
Lifetime of a paging message in the paging queue of the BTS. The setting of this parameter must be consistent with the setting of timer T3113 at the core network; otherwise, the efficiency of paging scheduling over the Um interface is reduced. It is recommended that this parameter be set to a value one to two seconds shorter than timer T3113. The units of this parameter is 250 ms.The actually effective rang of this parameter is 8 to 80 or 255. The corresponding value is N multiplied by 250 milliseconds when this parameter is set to a value N. The calculation rules are as follows: 1) When the parameter value is smaller than 8, the BTS calculates the lifetime of a paging message as 8 multiplied by 250 milliseconds, which is 2 seconds. 2) When the parameter value is between 8 and 80, the BTS calculates the lifetime of a paging message as N multiplied by 250 milliseconds. For example, when the parameter value is 60, lifetime of a paging message is 15 seconds. 3) When the parameter value is between 81 and 254, the BTS calculates the lifetime of a paging message as 80 multiplied by 250 milliseconds, which is 20 seconds. 4) When the parameter value is 255, the lifetime of a paging message is 5 seconds. NO
NO
SET GCELLSOFT(Optional)
Whether to enable the class-1 mute detection.
NO
NO
SET GCELLSOFT(Optional)
Period of performing class-1 mute detection. If the bad frame rate reaches "Bad Frame Threshold of Mute Detection Class 1" within the period specified by this parameter, mute speech may be detected. The setting of "Mute Detection Class 2 Switch" determines whether to perform the class-2 mute detection. NO
NO
SET GCELLSOFT(Optional)
Threshold for the rate of the number of bad frames to the total number of TRAU frames. If the bad frame rate exceeds this threshold within the "Period of Mute Detection Class1", mute speech may be detected. The setting of "Mute Detection Class 2 Switch" determines whether to perform the class-2 mute detection. NO
NO
SET GCELLSOFT(Optional)
Whether the one-way audio problem is checked in class-2 detection. In this manner, the one-way audio problems found in class-1 are checked to ensure the accuracy. NO
NO
SET GCELLSOFT(Optional)
Interval for sending test TRAU frames in the period of class-2 mute detection.Test TRAU frame is sent at the specified interval till the peer end responds or the timer of "Period of Mute Detection Class 2" expires. NO
NO
SET GCELLSOFT(Optional)
Period of performing the class-2 mute detection. After the BTS or TC initiates a class-2 mute detection request, the class-2 mute detection fails if there is no response and no test TRAU frame is received by the end of the period specified by this parameter; if the class-2 mute detection response is received but no correct test TRAU frame is received, mute speech is detected; if the class-2 mute detection response and the expected test TRAU frame are received, the speech channel is considered to be normal. NO
NO
SET GCELLSOFT(Optional)
Time for prohibiting the call from accessing the corresponding channel where one-way audio is detected on the Abis interface.
NO
NO
SET GCELLSOFT(Optional)
Whether to forcibly release a call after the forced handover fails in the case of one-way audio on the Abis interface NO
NO
SET GCELLSOFT(Optional)
The parameter controls whether to optimize the measurement of call drop after hang up.
NO
NO
SET GCELLSOFT(Optional)
This parameter determines whether to activate the function of monitoring the failure of logical channels in a cell. When this function is activated and the proportion of faulty logical channels in the cell exceeds a predefined threshold, the BSC generates an alarm.
NO
NO
SET GCELLSOFT(Optional)
This parameter specifies the proportion of available TCHs in a cell (for faulty channels, only the TCHs that are blocked due to Abis timeslot failure are considered). When the proportion of available TCHs in the cell is lower than this threshold, the BSC generates an alarm. When the proportion of available TCHs in the cell is higher than or equal to this threshold, the BSC generates a recovery alarm. NO
NO
SET GCELLSOFT(Optional)
This parameter specifies the proportion of available PDCHs in a cell (for faulty channels, only the PDCHs that are blocked due to Abis timeslot failure are considered). When the proportion of available PDCHs in the cell is lower than this threshold, the BSC generates an alarm. When the proportion of available PDCHs in the cell is higher than or equal to this threshold, the BSC generates a recovery alarm. NO
NO
SET GCELLSOFT(Optional)
This parameter is used to check whether the Abis timeslot for the PDCH is faulty. When the out-of-synchronization period of the PDCH primary link exceeds the value of this parameter, the Abis timeslot for the PDCH is regarded as faulty. NO
NO
SET GCELLSOFT(Optional)
Whether the cells at the 810 frequency support high frequency 1900.
NO
NO
SET GCELLSOFT(Optional)
When the paging response message carries IMSI, the BSC cannot obtain the mapping between the IMSI and the MSC signaling point because the paging message is not delivered from the BSC. If this parameter is set to "YES", the BSC sends the paging response message to one MSC in the MSC pool. NO
NO
SET GCELLSOFT(Optional)
This parameter specifies the strategy determining whether to use downlink discontinuous transmission (DL DTX). It can either be the MSC strategy or be the BSC strategy. The MSC strategy indicates that whether to use DL DTX depends on the downlink DTX flag sent from the MSC as well as the BSC configuration. The BSC strategy indicates that whether to use DL DTX only depends on the BSC configuration. NO
NO
SET GCELLSOFT(Optional)
Whether the BSC reports application events of subscribers in the cell to the Vendor Network Probe (VNP) in real time.
NO
SET GCELLSTANDARDOPTPAR A(Mandatory) SET GCELLSTANDARDOPTPAR A(Mandatory)
NO
Subscribers can specify the cell according to the index or the name. NO
YES
Index of a cell, uniquely identifying a cell in a BSC.
YES
YES
Name of a cell. This parameter uniquely identifies a cell in a BSC. Cell names cannot contain the following invalid characters: ,;="' SET In addition, cell names cannot contain two or GCELLSTANDARDOPTPAR more consecutive %, two or more consecutive A(Mandatory) spaces, or more than two consecutive +.
NO
YES
Maximum value of the N3101 counter. In the dynamic uplink allocation mode, the network side enables multiple MSs to share the same uplink channel through the USF value in the downlink data block. After the network side allocates the USF to the uplink TBF (the uplink TBF is set up successfully), N3101 is started. The network side waits for the RLC uplink data block sent by the MS. If the RLC uplink data block sent by the MS is valid, N3101 is reset. Otherwise, the value of N3101 is increased on SET the network side. When this counter is GCELLSTANDARDOPTPAR overflowed, the current uplink TBF is released A(Optional) abnormally.
NO
NO
Maximum value of the N3101 counter. When the uplink transmission ends, if the network side receives the last RLC data block, the network side sends an FAI=1 uplink packet acknowledged/unacknowledged message and starts N3103. If the packet control acknowledgement message is not received in the specified time, N3103 is increased on the network side and the uplink packet acknowledged/unacknowledged message is SET retransmitted. When this counter is overflowed, GCELLSTANDARDOPTPAR the timer T3169 is started. After this timer A(Optional) expires, the current TBF is released abnormally. NO
NO
Maximum value of the N3105 counter. After the downlink TBF is set up successfully, the N3105 is started on the network side. After the downlink RLC data block is added with the RRBP domain on the network side, the valid packet acknowledged message responded by the MS is received in the uplink RLC data block in the RRBP domain. In this case, N3105 is reset. Otherwise, the value of N3105 is increased and the downlink data block of the RRBP is SET retransmitted. When N3105 is overflowed, GCELLSTANDARDOPTPAR T3195 is started. After the timer T3195 expires, A(Optional) the current TBF is released abnormally. NO
NO
SND GCELLSYSMSG(Mandatory) Type of an index.
NO
YES
Name of a cell. This parameter uniquely identifies a cell in a BSC. Cell names cannot contain the following invalid characters: ,;="' In addition, cell names cannot contain two or SND more consecutive %, two or more consecutive GCELLSYSMSG(Mandatory) spaces, or more than two consecutive +.
NO
YES
SND Index of a cell, uniquely identifying a cell in a GCELLSYSMSG(Mandatory) BSC.
NO
YES
MOD GCELLTEMPLATE(Mandator y) RMV GCELLTEMPLATE(Mandator y) SAV GCELLTEMPLATE(Mandator y) Type of an index.
NO
YES
MOD GCELLTEMPLATE(Mandator y) RMV GCELLTEMPLATE(Mandator y) This parameter specifies the index number of a SAV cell template. Each template is numbered GCELLTEMPLATE(Optional) uniquely in a BSC.
NO
YES
NO
YES
NO
YES
Description of a cell template.
NO
NO
Cell Index.
NO
YES
Name of a cell, uniquely identifying a cell in a BSC
NO
YES
NO
YES
NO
YES
MOD GCELLTEMPLATE(Mandator y) RMV GCELLTEMPLATE(Mandator y) SAV GCELLTEMPLATE(Mandator Name of a cell template, uniquely identifying a y) cell template in a BSC. MOD GCELLTEMPLATE(Mandator y) New name of the modified cell template. MOD GCELLTEMPLATE(Optional) SAV GCELLTEMPLATE(Optional) SAV GCELLTEMPLATE(Mandator y) SAV GCELLTEMPLATE(Mandator y) MOD GCELLTEMPLATEPARA(Ma ndatory) MOD GCELLTEMPLATEPARA(Ma ndatory)
Type of an index. This parameter specifies the index number of a cell template. Each template is numbered uniquely in a BSC.
MOD GCELLTEMPLATEPARA(Ma ndatory) MOD GCELLTEMPLATEPARA(Ma ndatory) MOD GCELLTEMPLATEPARA(Ma ndatory) MOD GCELLTEMPLATEPARA(Ma ndatory)
Name of a cell template, uniquely identifying a cell template in a BSC.
NO
YES
Name of a management object.
NO
YES
Name of an attribute of a management object.
NO
YES
Value of an attribute of a management object.
NO
YES
SET GCELLTMR(Mandatory) Type of an index.
NO
YES
Index of a cell, uniquely identifying a cell in a SET GCELLTMR(Mandatory) BSC.
YES
YES
Name of a cell. This parameter uniquely identifies a cell in a BSC. Cell names cannot contain the following invalid characters: ,;="' In addition, cell names cannot contain two or more consecutive %, two or more consecutive SET GCELLTMR(Mandatory) spaces, or more than two consecutive +.
NO
YES
SET GCELLTMR(Optional)
Timer for the BSC waiting for an Establish Indication message after sending an Immediate Assignment message. If T3101 expires before the BSC receives an Establish Indication message, the BSS releases the seized SDCCH. NO Timer for the BSC waiting for a CC message after sending a CR message. If the timer expires, the seized SDCCH is released. NO
SET GCELLTMR(Optional)
Timer started after the BSC delivers a handover command in an intra-BSC inter-cell handover. If the BSC receives a handover complete message before this timer expires, the timer stops. If this timer expires, the BSC considers the handover as failed. NO
NO
SET GCELLTMR(Optional)
Timer started after the BSC delivers a handover command in an intra-BSC intra-cell handover. If the BSC receives a handover complete message before this timer expires, the timer stops. If this timer expires, the BSC considers the handover as failed. NO
NO
SET GCELLTMR(Optional)
NO
NO
SET GCELLTMR(Optional)
The timer is used to set the time when the BSC waits for an HO REQ ACK message after a Handover Request message is reported in an outgoing BSC handover. If the timer expires, the outgoing BSC handover fails. NO
NO
SET GCELLTMR(Optional)
After the BSC delivers an assignment command, the T3107 timer starts. If the BSC receives an assignment complete message within the scheduled time, the T3107 timer stops. If the timer expires, the BSC sends an assignment failure message. NO
NO
SET GCELLTMR(Optional)
Timer for the BSC waiting for a handover complete message after sending a handover request acknowledgment message in 2G/3G handover or inter-BSC handover. If the timer expires, a Clear REQ message is reported.
NO
NO
SET GCELLTMR(Optional)
The timer is used to set the time when the BSC waits for a handover success message after a handover command is sent in an outgoing BSC handover. If the timer expires, the outgoing BSC handover fails. NO
NO
SET GCELLTMR(Optional)
This timer is used to set the time of waiting for a ReleaseIndication message after a ChannelRelease message is sent. If the timer expires, the channel is deactivated. NO
NO
SET GCELLTMR(Optional)
Timer for delaying a connection release. This parameter is used for delaying the channel deactivation after the active signaling link is broken. The purpose is to reserve some time for the disconnection that may be repeated. After receiving a REL IND message sent by the BTS, the BSC starts the timer. When the timer expires, the BSC stops the timer and sends the BTS an RF CHAN REL message. NO
NO
SET GCELLTMR(Optional)
Call reestablishment timer
NO
NO
SET GCELLTMR(Optional)
Timer carried by the Wait Indication information element when the BSC sends an immediate assignment reject message to an MS. After the MS receives the immediate assignment reject message, the MS reattempts to access the network after the timer expires. NO
NO
SET GCELLTMR(Optional)
When the BSC sends a ChannelRelease message and the current call uses the AMRFR encoding mode, the timer T3109 (AMRFR) is started. If the BSC receives the ReleaseIndication message before the T3109 (AMRFR) timer expires, the timer T3109 (AMRFR) is stopped. If the timer T3109 (AMRFR) expires, the BSC deactivates the channel.
NO
NO
SET GCELLTMR(Optional)
When the BSC sends a ChannelRelease message and the current call uses the AMRHR encoding mode, the timer T3109 (AMRHR) is started. If the BSC receives the ReleaseIndication message before the T3109 (AMRHR) timer expires, the timer T3109 (AMRHR) is stopped. If the timer T3109 (AMRHR) expires, the BSC deactivates the channel.
NO
NO
SET GCELLTMR(Optional)
This parameter indicates the queue timer for assignment. When the BSC receives an assignment request and no channel is available for assignment, the BSC starts the queuing procedure and the timer. If the channel request is successful before the timer expires, the timer stops. If the timer expires, the channel assignment fails. NO
NO
SET GCELLTMR(Optional)
Length of the timer that is started to wait for a channel requested by an incoming BSC handover request message. When the MSC allows the queuing of incoming BSC handover requests, the BSC starts the queuing procedure and the timer if no channel is available for assignment. If the channel request is successful before the timer expires, the timer stops. If the timer expires, the incoming BSC handover fails. NO
NO
SET GCELLTMR(Optional)
The TCHs reserved for the emergency call are assigned to the user during the service assignment. If the TCHs are not assigned to the emergency call within a period, the TCHs are released from the reservation queue. NO
NO
SET GCELLTMR(Optional)
Duration for uplink data transmission on the original channel if the TC resources are changed before and after the handover NO
NO
SET GCELLTMR(Optional)
The timer is used to set the time when the BSC waits for an Internal Handover Command message after a Internal Handover Required message is reported in an internal BSC handover when A interface is IP. If the timer expires, the internal BSC handover fails.
NO
NO
ADD GCNNODE(Mandatory) MOD GCNNODE(Mandatory) Index of an MSC. It is used in storing and RMV GCNNODE(Mandatory) querying the MSC attributes
YES
YES
ADD GCNNODE(Mandatory) MOD GCNNODE(Optional) The DSP index uniquely identifies a DSP.
NO
YES
Index of a DPC group. When multiple DPCs or one DPC serves as a logical entity, this logical entity is called a DPC group. When the MSC pool function is activated, the user plane resources on the A interface are shared among ADD GCNNODE(Mandatory) the MSCs in the pool, and thus load balancing is MOD GCNNODE(Optional) achieved. NO
YES
ADD GCNNODE(Mandatory) Name of the operator. This parameter uniquely MOD GCNNODE(Optional) identifies an operator.
YES
ADD GCNNODE(Optional) MOD GCNNODE(Optional)
Available capacity of the MSC. This parameter is valid only when the MSC pool function is enabled. It is set according to the actual capacity of the MSC. NO
ADD GCNNODE(Mandatory) MOD GCNNODE(Optional) Used to uniquely identify an MSC
ADD GCNNODE(Optional) MOD GCNNODE(Optional)
NO
NO
Administrative state of the MSC. This parameter is valid only when the MSC pool function is enabled. It is set according to the actual operating state of the MSC. A call accesses the MSC only when this parameter is set to NORMAL. NO
NO
YES
NO
ADD GCNNODE(Optional) MOD GCNNODE(Optional)
Type of the BSS local switching with the cooperation of the MSC. NONSUPPORT: When performing local switching, the BSS need not determine whether the MSC allows an MS to be involved in local switching. BASIC: Assignment request messages and handover request messages sent by the MSC contain a flag indicating whether to allow an MS for local switching. The BSS must identify this flag when performing local switching. ENHANCED: Assignment request messages and handover request messages sent by the MSC contain a flag indicating whether to allow an MS for local switching. The BSS must identify this flag when performing local switching. In addition, when the BSS enables or stops local switching, the BSS sends a local switching enabled or stopped message to the MSC. NO
NO
ADD GCNNODE(Optional) MOD GCNNODE(Optional)
The default DPC corresponds to the CN of the primary operator. When only one DPC is configured, this parameter must be set to "YES", indicating that all the calls for the operator are accessed through the CN identified by the DPC. When multiple DPCs are configured, this parameter also determines the DPC that allows the generation of ESN. In this case, the parameter is set to "YES" for this DPC while the value for other DPCs is "NO". For the CN of a secondary operator, this parameter must be set to "YES" when only one DPC is configured. This indicates that all the calls for the secondary operator are accessed through the CN. When multiple DPCs are configured, this parameter is invalid. NO
NO
ADD GCNNODE(Optional) MOD GCNNODE(Optional)
Length of the timer for determining the intermittent disconnection of the SS7 link to the DPC. When the time of SS7 link disconnection exceeds the period specified by the timer, the BSC performs corresponding operations, including clearing the calls carried on the disconnected link. Otherwise, the system does not perform any operation.
NO
NO
ADD GCNNODE(Optional) MOD GCNNODE(Optional)
Whether to enable the real-time transport control protocol (RTCP) function. The BSC and the MSC negotiate whether and how to compress the data over the A interface according to the RTCP. The setting of this parameter on the BSC side must be consistent with that on the MSC side. This parameter is valid only when IP transmission is used over the A interface. NO
NO
ADD GCNNODE(Optional) MOD GCNNODE(Optional)
Ratio of the RTCP path bandwidth to the A interface bandwidth. According to the Real-time Transport Control Protocol (RTCP), the BSC and the MSC negotiate the bandwidth occupation rate of the user plane on the A interface, that is, the bandwidth occupied by the data packets generated during the negotiation. NO
NO
ADD GCNNODE(Optional) MOD GCNNODE(Optional)
Whether the MSC independently processes the trunking services. When this parameter is set to YES, the MSC independently processes the trunking services, that is, the trunking services are processed only by this MSC. NO
NO
ADD GCNNODE(Optional) MOD GCNNODE(Optional)
Whether the BSC forwards the paging message from the trunking MSC to the MS. When this parameter is set to YES, the BSC forwards the paging message from the trunking MSC to the MS and forwards the corresponding paging response from the MS to the trunking MSC. NO
NO
ADD GCNNODE(Optional) MOD GCNNODE(Optional)
Bearer for data transmitted in A interface user plane. TDM: E1 is used at the physical layer IP: IP link is used at the physical layer TDM_IP: E1 or IP link is used at the physical layer
NO
NO
Whether the transmission bearer and coding ADD GCNNODE(Optional) capabilities for A interface are carried in relevant MOD GCNNODE(Mandatory) messages from the BSC. NO
NO
MOD GCNOPERATOR(Mandatory) RMV GCNOPERATOR(Mandatory) ADD Index of the operator. This parameter uniquely GCNOPERATOR(Mandatory) identifies an operator.
YES
NO
MOD GCNOPERATOR(Optional) ADD Name of the operator. This parameter uniquely GCNOPERATOR(Mandatory) identifies an operator.
NO
NO
MOD GCNOPERATOR(Optional) Mobile country code. This parameter identifies ADD the country where a mobile subscriber is located, GCNOPERATOR(Mandatory) for example, the Chinese MCC is 460. NO
NO
MOD GCNOPERATOR(Optional) Mobile network code. This parameter identifies ADD the public land mobile network (PLMN) to which GCNOPERATOR(Mandatory) a mobile subscriber belongs. NO
NO
MOD GCNOPERATOR(Optional) ADD GCNOPERATOR(Optional)
This parameter specifies whether the BSC supports the cell broadcast function and whether the BSC supports simple cell broadcast or standard cell broadcast. If the BSC supports standard cell broadcast, the BSC should be connected to the CBC. NO
NO
MOD GCNOPERATOR(Optional) ADD GCNOPERATOR(Optional)
Whether to allow handover between different operators. If the BSC supports RAN sharing, MSs in a cell of this operator can be handed over to a cell of other operators, or vice versa. NO
NO
MOD GCNOPERATOR(Optional) ADD GCNOPERATOR(Optional)
Whether to enable the MSC pool function on the BSC. The MSC pool function enables up to 32 MSCs to provide services for mobile subscribers in a BSC. With the MSC pool function, one BSC can be connected to multiple MSCs and the services in the BSC are shared to each MSC in all MSC pools. NO
NO
MOD GCNOPERATOR(Optional) Number of bits occupied by the Network ADD Resource Identifier in the TMSI. NRI specifies a GCNOPERATOR(Mandatory) CN node in the MSC pool.
NO
NO
Type of load balancing algorithm of the MSC Pool. Generally, the BSC chooses an MSC according to the obtained network resource indication (NRI). In some cases, however, the BSC cannot do so. Instead, the BSC chooses a target MSC according to a load balancing algorithm.
NO
NO
MOD GCNOPERATOR(Optional) ADD GCNOPERATOR(Optional)
MOD GCNOPERATOR(Optional) ADD GCNOPERATOR(Optional)
IMSI paging timer. After enabling the MSC pool function, the BSC receives from the MSC the paging message attached with the IMSI. Then, the BSC records the relation between the IMSI and the MSC SP and starts the timer with predefined length. If the BSC receives a response message with the IMSI before the timer expires, the BSC locates the destination MSC based on the IMSI and MSC SP, and routes the current paging to the MSC. If the BSC does not receive a response when the timer expires, the BSC clears the relation information between the IMSI and MSC SP. NO
NO
MOD GCNOPERATOR(Optional) ADD GCNOPERATOR(Optional)
If the BSC receives the configuration data about all the connected MSCs before the timer expires, the BSC concludes that the configuration data is valid. NO
NO
MOD GCNOPERATOR(Optional) ADD GCNOPERATOR(Optional)
Special NRI(Network Resource Identifier) that is coded together with common NRIs. This parameter is used to indicate that the BSC routes the service initiated by the MS to the MSC in non OFFLOAD state. NO
NO
MOD GCNOPERATOR(Optional) ADD GCNOPERATOR(Optional)
Whether to enable the SGSN pool function. With SGSN pool, a BSC is connected to multiple SGSNs in the pool, and load balancing and resource sharing between these SGSNs are allowed. In this manner, the PS services are processed by the SGSNs in the SGSN pool in the most efficient way. This reduces inter-MSC handovers and node redundancy backup. NO
NO
MOD GCNOPERATOR(Optional) Length of the NRI(Network Resource Identifier) ADD or NULL-NRI. The length determines the GCNOPERATOR(Mandatory) maximum value of the NRI and NULL-NRI. MOD GCNOPERATOR(Optional) ADD GCNOPERATOR(Optional)
NO
NO
Special NRI(Network Resource Identifier). Each SGSN pool has one NULL-NRI. When the NRI value in the TLLI of the MS uplink/downlink service data equals NULL-NRI, the BSC reselects an SGSN for the MS. NO
NO
Primary operator or secondary operator. Primary operator is an operator that provides ADD equipment, whereas secondary operator is an GCNOPERATOR(Mandatory) operator that leases equipment.
NO
YES
SET GCSCHRCTRL(Mandatory)
NO
YES
Whether to output the call history record (CHR)
SET GCSCHRCTRL(Optional)
CHR output mode. In common user mode, the CHRs of all the MSs specified by "CHR Output Range" are output. In specified user mode, the CHR of a specific MS, which is specified by running the ADD GCSCHRUSER command, is output. These two modes can co-exist and they do not affect each other.
YES
NO
SET GCSCHRCTRL(Optional)
Type of the service whose CHR need to be output
NO
NO
SET GCSCHRCTRL(Optional)
Area in which CHRs need to be output in common user mode. If this parameter is set to "Output All Records "in Cells, you need to run the SET GCSCHRSCOPE command to specify the cells whose CHRs are to be output
NO
NO
SET GCSCHRCTRL(Optional)
Whether handover information is contained in the CHRs in common user mode
NO
NO
SET GCSCHRCTRL(Optional)
Type of signaling contained in CHRs
NO
NO
SET GCSCHRCTRL(Optional)
Output range of the supplementary information contained in the CHR in common user mode. Multiple options can be selected at the same time.
NO
NO
SET GCSCHRCTRL(Optional)
Whether the information about the specified abnormal call end is contained in the CHRs in common user mode.
NO
NO
SET GCSCHRCTRL(Optional)
Rate threshold of bad speech quality in common user mode. NO
NO
SET GCSCHRCTRL(Optional)
Whether the MR before call release is contained in the CHRs in common user mode. NO
NO
SET GCSCHRCTRL(Optional)
Whether the MR before handover is contained in the CHRs in common user mode. NO
NO
SET GCSCHRCTRL(Optional)
Whether MR is contained in the CHRs in specified user mode
NO
NO
SET GCSCHRCTRL(Optional)
Whether speech information is contained in the CHRs in specified user mode.
NO
NO
NO
YES
SET Index of the BTS, uniquely identifying a BTS in a GCSCHRSCOPE(Mandatory) BSC. NO
YES
SET Type of the index by which the object whose GCSCHRSCOPE(Mandatory) CHR needs to be output is specified.
Name of the BTS, uniquely identifying a BTS in a BSC. This parameter cannot contain the following invalid characters: ,;="' In addition, cell names cannot contain two or SET more consecutive %, two or more consecutive GCSCHRSCOPE(Mandatory) spaces, or more than two consecutive +.
NO
YES
SET Index of a cell, uniquely identifying a cell in a GCSCHRSCOPE(Mandatory) BSC.
NO
YES
Name of a cell. This parameter uniquely identifies a cell in a BSC. Cell names cannot contain the following invalid characters: ,;="' In addition, cell names cannot contain two or SET more consecutive %, two or more consecutive GCSCHRSCOPE(Mandatory) spaces, or more than two consecutive +.
NO
YES
SET GCSCHRSCOPE(Optional)
Whether the CHR collection switch of a specified object is turned on. NO
NO
ADD GCSCHRUSER(Optional) RMV GCSCHRUSER(Mandatory)
Index of object
YES
NO
ADD GCSCHRUSER(Mandatory)
Identifier type of the user
NO
YES
ADD GCSCHRUSER(Mandatory)
TMSI of the MS
NO
YES
ADD GCSCHRUSER(Mandatory)
Value of an IMSI
NO
YES
ADD GCSCHRUSER(Mandatory)
MSISDN value
NO
YES
ADD GCSCHRUSER(Mandatory)
Value of an IMEI
NO
YES
SET GCSFILE(Mandatory)
Mode of file output.
NO
YES
SET GCSFILE(Optional)
Period of new file generation.
NO
NO
ADD GEXT2GCELL(Mandatory) RMV GEXT2GCELL(Mandatory) MOD GEXT2GCELL(Mandatory)
ID of the cell. The cell ID cannot conflict with other cell IDs in the BSC. The cells in the BSC are numbered sequentially.
YES
YES
ADD GEXT2GCELL(Mandatory) RMV GEXT2GCELL(Mandatory) MOD GEXT2GCELL(Mandatory)
Name of the cell
NO
YES
ADD GEXT2GCELL(Mandatory) RMV GEXT2GCELL(Mandatory) MOD GEXT2GCELL(Optional)
Mobile country code. This parameter identifies the country where a mobile subscriber is located, for example, the Chinese MCC is 460. NO
YES
ADD GEXT2GCELL(Mandatory) RMV GEXT2GCELL(Mandatory) MOD GEXT2GCELL(Optional)
Mobile network code. This parameter identifies the public land mobile network (PLMN) to which a mobile subscriber belongs. NO
YES
ADD GEXT2GCELL(Mandatory) RMV GEXT2GCELL(Mandatory) MOD GEXT2GCELL(Optional)
Location area code (LAC). MS can freely move in the local location area with no need of location update. Reasonable local allocation can effectively lighten the signaling load and improve the call completion rate. Can be input in hexadecimal format. The hexadecimal format is H'****, for example, H'1214. NO
YES
ADD GEXT2GCELL(Mandatory) RMV GEXT2GCELL(Mandatory) MOD GEXT2GCELL(Optional)
Identity code of a cell, A cell is a wireless coverage area identified by a base station identity code and a global cell identification. Can be input in hexadecimal format. The hexadecimal format is H'****, for example, H'1214.
NO
YES
ADD GEXT2GCELL(Mandatory) MOD GEXT2GCELL(Optional)
BCCH frequency of the cell
NO
YES
ADD GEXT2GCELL(Mandatory) MOD GEXT2GCELL(Optional)
Network color code that is provided by the telecom operator. The NCC is used to identify networks from area to area. The NCC is unique nationwide. The BCC and the NCC form the BSIC.
NO
YES
ADD GEXT2GCELL(Mandatory) MOD GEXT2GCELL(Optional)
Base station color code (BCC) of a cell, provided by the network planning department. It is used for differentiating the neighboring cells using the same BCCH frequency. A BCC and a network color code (NCC) compose a base station identity code (BSIC). NO
YES
ADD GEXT2GCELL(Optional) MOD GEXT2GCELL(Optional)
Whether the BSC that controls the external cell and the local BSC belong to the same MSC
NO
NO
ADD GEXT2GCELL(Optional) MOD GEXT2GCELL(Optional)
A network basically consists of four layers, namely, Umbrella, Macro, Micro, and Pico. Cell priorities influence the sorting of neighboring cells during handovers as well as handover algorithms including PBGT and inter-layer handovers. For example, PBGT handovers can only occur among cells on a same layer and of a same priority level. If you assign different layers and priorities to a 1800-M cell and a 900-M cell, PBGT handovers from the 1800-M cell to the 900-M cell will not occur. This causes slow handovers even when the receive quality is good. NO
NO
ADD GEXT2GCELL(Optional) MOD GEXT2GCELL(Optional)
This parameter controls the handovers among cells on a same layer. A smaller priority value indicates a higher priority. Cells with higher priorities are preferentially selected as the handover target cells.
NO
NO
ADD GEXT2GCELL(Optional) MOD GEXT2GCELL(Optional)
Handover threshold during the handovers between cells on different layers or of different priorities. This value is used to suppress interlayer ping-pong handovers. Inter-layer handover threshold of the serving cell = "Inter-layer HO threshold" - "Inter-layer HO Hysteresis"; Inter-layer handover threshold of a neighboring cell = "Inter-layer HO Threshold" + "Adjacent Cell Inter-layer HO Hysteresis" - 64. NO
NO
ADD GEXT2GCELL(Optional) MOD GEXT2GCELL(Optional)
Level value of the penalty that is performed on the neighboring cells of the cell where a fastmoving MS is located. The neighboring cells must be located at the Macro, Micro, or Pico layer other than the Umbrella layer.
NO
NO
ADD GEXT2GCELL(Optional) MOD GEXT2GCELL(Optional)
Period in which level penalty is performed on the neighboring cells of the cell where a fast-moving MS is located. The neighboring cells must be located at the Macro, Micro, or Pico layer other than the Umbrella layer. NO
NO
ADD GEXT2GCELL(Optional) MOD GEXT2GCELL(Optional)
The M criteria supports setting minimum values for the downlink receive level of neighboring cells. The M criteria is met only when , Estimated downlink level of neighboring cells >= ("Min DL level on candidate Cell" + "Min Access Level Offset") Estimated uplink level of neighboring cells >= ("Min UL level on candidate Cell" + "Min Access Level Offset") NO
NO
ADD GEXT2GCELL(Optional) MOD GEXT2GCELL(Optional)
After the fast handover is successful, the penalty on the original serving cell is performed within the "Quick handover punish time": the receive level of the original serving cell is decreased by "Quick handover punish value", to prevent pingpong handovers. NO
NO
ADD GEXT2GCELL(Optional) MOD GEXT2GCELL(Optional)
To avoid ping-pong handover, the received signal of the original serving cell is decreased by "Quick handover punish value" in "Quick handover punish time" after fast handover succeeds. NO
NO
ADD GEXT2GCELL(Optional) MOD GEXT2GCELL(Optional)
Fast handover can be triggered only when the path loss difference between the serving cell and a neighbor cell on the chain is equal to or greater than this parameter. NO
NO
ADD GEXT2GCELL(Optional) MOD GEXT2GCELL(Optional)
Indicates that if a 2G neighboring cell supports load handovers, the BSC adds the load information of the local cells in the signaling procedures related to this neighboring cell.
NO
NO
ADD GEXT2GCELL(Optional) MOD GEXT2GCELL(Optional) ADD GEXT2GCELL(Optional) MOD GEXT2GCELL(Optional) ADD GEXT2GCELL(Optional) MOD GEXT2GCELL(Optional) ADD GEXT2GCELL(Optional) MOD GEXT2GCELL(Optional) ADD GEXT2GCELL(Optional) MOD GEXT2GCELL(Optional) ADD GEXT2GCELL(Optional) MOD GEXT2GCELL(Optional)
If the load of a cell is lower than the value of this parameter, the cell can admit the users handed over from other cells with higher load. Otherwise, the cell rejects such users. NO
NO
A service support attribute of a cell, that is, whether an external GSM cell supports NC2
NO
NO
A service support attribute of a cell, that is, whether an external GSM cell supports GPRS
NO
NO
A service support attribute of a cell, that is, whether an external GSM cell supports EDGE
NO
NO
The NS performs location management based on routing areas during GPRS packet services. Each routing area has a routing area identifier, which is broadcast as a system message.
NO
NO
ID of the BSC that controls the external 2G neighbor cell
NO
NO
ADD GEXT2GCELL(Optional) MOD GEXT2GCELL(Optional)
Name of the operator. This parameter uniquely identifies an operator.
NO
NO
RMV GEXT2GCELL(Mandatory) MOD GEXT2GCELL(Mandatory)
Index type
NO
YES
MOD GEXT2GCELL(Mandatory)
Mobile country code (MCC) of the source cell
NO
YES
MOD GEXT2GCELL(Mandatory)
Mobile network code (MNC) of the source cell
NO
YES
MOD GEXT2GCELL(Mandatory)
Local area code (LAC) of the source cell
NO
YES
NO
YES
MOD GEXT2GCELL(Optional)
Source cell ID Modified name of the 2G external cell. The modified name of the 2G external cell must be different from the names of other cells.
NO
NO
ADD GEXT3GCELL(Mandatory) RMV GEXT3GCELL(Mandatory) MOD GEXT3GCELL(Mandatory)
ID of the cell. The cell ID cannot conflict with other cell IDs in the BSC. The cells in the BSC are numbered sequentially.
YES
YES
ADD GEXT3GCELL(Mandatory) RMV GEXT3GCELL(Mandatory) MOD GEXT3GCELL(Mandatory)
Name of the cell
NO
YES
ADD GEXT3GCELL(Mandatory) MOD GEXT3GCELL(Optional)
Mobile country code. This parameter identifies the country where a mobile subscriber is located, for example, the Chinese MCC is 460. NO
YES
ADD GEXT3GCELL(Mandatory) MOD GEXT3GCELL(Optional)
Mobile network code. This parameter identifies the public land mobile network (PLMN) to which a mobile subscriber belongs. NO
YES
MOD GEXT2GCELL(Mandatory)
ADD GEXT3GCELL(Mandatory) MOD GEXT3GCELL(Optional)
Location area code (LAC). MS can freely move in the local location area with no need of location update. Reasonable local allocation can effectively lighten the signaling load and improve the call completion rate. Can be input in hexadecimal format. The hexadecimal format is H'****, for example, H'1214. NO
YES
ADD GEXT3GCELL(Mandatory) MOD GEXT3GCELL(Optional)
Identity code of a cell, A cell is a wireless coverage area identified by a base station identity code and a global cell identification. Can be input in hexadecimal format. The hexadecimal format is H'****, for example, H'1214.
NO
YES
ADD GEXT3GCELL(Mandatory) MOD GEXT3GCELL(Optional)
RNC ID of a 3G external cell. The value of this parameter must be consistent with the data configuration at the RNC.
NO
YES
ADD GEXT3GCELL(Optional) MOD GEXT3GCELL(Optional)
Internal index of a neighboring RNC. This parameter is set to 255 when the neighboring RNC that serves the 3G external neighbor is not configured. You can use the "LST GNRNC" command to check whether the neighboring RNC is configured. NO
NO
ADD GEXT3GCELL(Optional) MOD GEXT3GCELL(Optional)
Layer of the cell. If the layer of the cell is lower, it is more likely that a handover to the cell will be triggered. NO
NO
ADD GEXT3GCELL(Mandatory) MOD GEXT3GCELL(Optional)
Downlink frequency of the external 3G cell
NO
YES
ADD GEXT3GCELL(Mandatory) MOD GEXT3GCELL(Optional)
Scrambling code of a 3G cell. The scrambling code is used to differentiate terminals or cells. It is used after spread spectrum. Therefore, it does not change the bandwidth of signals, but only distinguishes the signals from different sources. Through scrambling, multiple transceivers can use the same codes for spread spectrum. Scrambling is used to distinguish terminals on the uplink and to distinguish cells on the downlink. NO
YES
ADD GEXT3GCELL(Mandatory) MOD GEXT3GCELL(Optional)
Whether to activate transmit diversity on the common channel of a 3G cell
YES
NO
ADD GEXT3GCELL(Mandatory) MOD GEXT3GCELL(Optional)
This parameter specifies the type of a 3G cell. A cell type can be Frequency Division Duplex (FDD) or Time Division Duplex (TDD). NO
YES
ADD GEXT3GCELL(Mandatory) MOD GEXT3GCELL(Optional)
Synchronization status. This parameter is used to identify different 3G cells. This parameter should be same with the configuration of 3G cells.
NO
YES
ADD GEXT3GCELL(Optional) MOD GEXT3GCELL(Optional)
Threshold for determining the layer of the 3G neighbor cell. If the Ec/No of the 3G neighbor cell is less than this threshold, the neighbor cell is set to the lowest layer (layer 5).
NO
NO
ADD GEXT3GCELL(Optional) MOD GEXT3GCELL(Optional) ADD GEXT3GCELL(Optional) MOD GEXT3GCELL(Optional) ADD GEXT3GCELL(Optional) MOD GEXT3GCELL(Optional) ADD GEXT3GCELL(Optional) MOD GEXT3GCELL(Optional)
Selects 3G candidate cells. If the measured value of a 3G neighboring cell is lower than this threshold, the 3G neighboring cell will be removed from among the 3G candidate cells.
NO
NO
Minimum Ec/No of the 3G FDD cell candidate
NO
NO
Minimum RSCP of the 3G FDD cell candidate
NO
NO
Minimum RSCP quality threshold that the TDD 3G candidate cell must reach
NO
NO
ADD GEXT3GCELL(Optional) MOD GEXT3GCELL(Optional)
This parameter determines the layers of 3G neighboring cells. If the measured value of a 3G neighboring cell is lower than this threshold, the 3G neighboring cell is positioned at the bottom layer, that is, layer 4. NO
NO
ADD GEXT3GCELL(Optional) MOD GEXT3GCELL(Optional)
Selects 3G candidate cells. If the measured value of a 3G neighboring cell is lower than this threshold, the 3G neighboring cell will be removed from among the 3G candidate cells.
NO
NO
ADD GEXT3GCELL(Optional) MOD GEXT3GCELL(Optional)
Indicates that if a 3G neighboring cell supports load handovers, the BSC adds the load information of the local cells in the signaling procedures related to this neighboring cell.
NO
NO
ADD GEXT3GCELL(Optional) MOD GEXT3GCELL(Optional) ADD GEXT3GCELL(Optional) MOD GEXT3GCELL(Optional) ADD GEXT3GCELL(Optional) MOD GEXT3GCELL(Optional)
If the load of a cell is lower than the value of this parameter, the cell can admit the users handed over from other cells with higher load. Otherwise, the cell rejects such users. NO
NO
RMV GEXT3GCELL(Mandatory) MOD GEXT3GCELL(Mandatory) MOD GEXT3GCELL(Optional)
Name of the operator. This parameter uniquely identifies an operator. The NS performs location management based on routing areas during GPRS packet services. Each routing area has a routing area identifier.
Type of an index. Modified name of the 3G external cell. The modified name of the 3G external cell must be different from the names of other cells.
NO
NO
NO
NO
NO
YES
NO
NO
ADD GEXTLTECELL(Mandatory) MOD GEXTLTECELL(Mandatory) RMV GEXTLTECELL(Mandatory)
ID of the cell. The cell ID cannot conflict with other cell IDs in the BSC. The cells in the BSC are numbered sequentially.
YES
YES
ADD GEXTLTECELL(Mandatory) MOD GEXTLTECELL(Mandatory) RMV GEXTLTECELL(Mandatory)
Name of the cell
NO
YES
ADD GEXTLTECELL(Mandatory) MOD GEXTLTECELL(Optional)
Mobile country code. This parameter identifies the country where a mobile subscriber is located, for example, the Chinese MCC is 460. NO
YES
ADD GEXTLTECELL(Mandatory) MOD GEXTLTECELL(Optional)
Mobile network code. This parameter identifies the public land mobile network (PLMN) where a mobile subscriber is homed.
NO
YES
ADD GEXTLTECELL(Mandatory) MOD GEXTLTECELL(Optional)
The type of eNodeB which the LTE cell belongs to.
NO
YES
ADD GEXTLTECELL(Mandatory) MOD GEXTLTECELL(Optional)
The cell identifier of LTE external cell.
NO
YES
ADD GEXTLTECELL(Mandatory) MOD GEXTLTECELL(Optional)
Track area code (TAC). MSs can freely move in the local track area without track area update. Reasonable division of track areas can effectively mitigate the signaling load and increase the call completion rate. NO
YES
ADD GEXTLTECELL(Mandatory) MOD GEXTLTECELL(Optional)
E-UTRAN Absolute Radio Frequency Channel Number (EARFCN) of the carrier frequency that an external LTE cell uses. NO
YES
ADD GEXTLTECELL(Mandatory) MOD GEXTLTECELL(Optional)
Physical cell identifier of an external LTE cell.
NO
YES
ADD GEXTLTECELL(Mandatory) MOD GEXTLTECELL(Optional)
Type of an external LTE cell. A cell type can be Frequency Division Duplex (FDD) or Time Division Duplex (TDD).
NO
YES
ADD GEXTLTECELL(Optional) MOD GEXTLTECELL(Optional)
Name of the operator. This parameter uniquely identifies an operator.
NO
NO
MOD GEXTLTECELL(Mandatory) RMV GEXTLTECELL(Mandatory)
NO
YES
NO
NO
ADD GEXTSMLC(Mandatory) MOD GEXTSMLC(Mandatory) RMV GEXTSMLC(Mandatory) Index of the SMLC
YES
YES
ADD GEXTSMLC(Mandatory) Name of the operator. This parameter uniquely MOD GEXTSMLC(Optional) identifies an operator.
NO
YES
ADD GEXTSMLC(Mandatory) Whether the built-in SMLC or external SMLC is MOD GEXTSMLC(Optional) used in the BSS.
NO
YES
ADD GEXTSMLC(Mandatory) MOD GEXTSMLC(Optional) The DSP index uniquely identifies a DSP.
NO
YES
MOD GEXTLTECELL(Optional)
Type of an index. Modified name of an external LTE cell. The modified name of an external LTE cell must be different from the names of other cells.
ADD GEXTSMLC(Optional) MOD GEXTSMLC(Optional)
Timer of waiting for the SMLC's response to the MS location request sent from the MSC. If the SMLC does not send any response to the MS location request before the timer expires, then the MS location fails. In this case, the BSC sends a Perform Location Abort message to the SMLC for stopping the MS location and sends an MS location failure indication to the MSC. NO
NO
ADD GEXTSMLC(Optional) MOD GEXTSMLC(Optional)
Timer of waiting for the MS's response to the location measurement request sent from the BSC. If the BSC does not receive the measurement information reported by the MS before the timer expires, then the MS location fails.
NO
NO
ADD GEXTSMLC(Optional) MOD GEXTSMLC(Optional)
Timer of increasing the Lb flow control level when the BSC receives an SMLC congestion indication. If the BSC receives another SMLC congestion indication before the timer expires, the flow control level remains unchanged.
NO
NO
ADD GEXTSMLC(Optional) MOD GEXTSMLC(Optional)
Timer of decreasing the Lb flow control level. If no SMLC congestion indication is received within the valid period of the timer, the BSC decreases the flow control level by one until the flow control level is decreased to 0. NO
NO
ADD GIBCAPNCGRP(Mandatory) RMV GIBCAPNCGRP(Mandatory) Type of an index.
NO
YES
ADD GIBCAPNCGRP(Mandatory) RMV A cell Index must be unique in one BSC GIBCAPNCGRP(Mandatory) . It is used to uniquely identify a cell.
YES
YES
ADD GIBCAPNCGRP(Mandatory) RMV GIBCAPNCGRP(Mandatory) Name of a cell
NO
YES
ADD GIBCAPNCGRP(Mandatory) Uniform number of neighboring cell 1 index RMV within a BSC, which uniquely identifies a cell and GIBCAPNCGRP(Mandatory) is in the range 0 to 5047. YES
YES
ADD GIBCAPNCGRP(Mandatory) RMV GIBCAPNCGRP(Mandatory) Name of neighboring GSM cell 1
NO
YES
ADD GIBCAPNCGRP(Mandatory) RMV GIBCAPNCGRP(Mandatory)
YES
YES
ADD GIBCAPNCGRP(Mandatory) RMV GIBCAPNCGRP(Mandatory) Name of neighboring GSM cell 2
NO
YES
ADD GIURGCONN(Mandatory) RMV GIURGCONN(Mandatory)
YES
YES
NO
YES
Index of neighboring GSM cell 2. Uniform number of a cell index within a BSC, which uniquely identifies a cell and is in the range 0 to 5047.
ADD GIURGCONN(Mandatory)
Internal index of a neighboring RNC Whether the Iur-g common connection is established between the BSC and a coBSC6900 RNC or an external RNC.
ADD GIURGCONN(Mandatory)
Subrack No. of the subsystem where the Iur-g common connection is established
NO
YES
ADD GIURGCONN(Mandatory)
Slot No. of the subsystem where the Iur-g common connection is established
NO
YES
ADD GIURGCONN(Mandatory)
No. of the subsystem where the Iur-g common connection is established Subrack No. of the subsystem where the Iur-g common connection is established to the coBSC6900 RNC
NO
YES
NO
YES
ADD GIURGCONN(Mandatory)
ADD GIURGCONN(Mandatory) ADD GIURGCONN(Mandatory)
Slot No. of the subsystem where the Iur-g common connection is established to the coBSC6900 RNC No. of the subsystem where the Iur-g common connection is established to the co-BSC6900 RNC
NO
YES
NO
YES
SET Global routing management switch. If this switch GLOBALROUTESW(Mandat is turned on, the IP addresses in the controlled ory) range cannot be in the same network segment. YES
YES
ADD GLTENCELL(Mandatory) MOD GLTENCELL(Mandatory) RMV GLTENCELL(Mandatory)
Type of an index.
YES
ADD GLTENCELL(Mandatory) MOD GLTENCELL(Mandatory) RMV GLTENCELL(Mandatory)
Index of the source GSM cell, which is a neighboring cell of an LTE cell. The index must be unique in a BSC. It is used to uniquely identify a source cell. YES
YES
ADD GLTENCELL(Mandatory) MOD GLTENCELL(Mandatory) RMV GLTENCELL(Mandatory)
Name of a source cell.
YES
ADD GLTENCELL(Mandatory) MOD GLTENCELL(Mandatory) RMV GLTENCELL(Mandatory)
Index of the target LTE cell, which is a neighboring cell of a GSM cell. This index must be unique in a BSC. It is used to uniquely identify an LTE cell. YES
NO
NO
YES
ADD GLTENCELL(Mandatory) MOD GLTENCELL(Mandatory) RMV GLTENCELL(Mandatory)
Name of a neighboring LTE cell of the GSM cell. NO
YES
Whether to support cell reselection from GSM to LTE. If this parameter is set to SUPPORT, it indicates that the frequency of the target LTE cell is a neighboring frequency of the source GSM cell and cell reselection from GSM to LTE is supported. If this parameter is set to UNSUPPORT, it indicates that the frequency of the target LTE cell is a neighboring frequency of the source GSM cell but the LTE cell is a barred neighboring cell of the GSM cell. That is, cell reselection from the ADD GLTENCELL(Optional) source GSM cell to the target LTE cell is not MOD GLTENCELL(Optional) supported. NO
NO
Whether to support the blind handover from the source GSM cell to the target LTE cell. The blind handover from the source GSM cell to the target LTE cell indicates that the MS in the GSM cell is ADD GLTENCELL(Optional) handed over to the target LTE cell without MOD GLTENCELL(Optional) measuring the target LTE cell. NO
NO
Whether a quick reselection from the source GSM cell to the target LTE cell is allowed. Quick reselection from the source GSM cell to the target LTE cell indicates that the CHANNEL RELEASE message sent to the MS carries the information about cell reselection, and the MS ADD GLTENCELL(Optional) performs cell reselection immediately after MOD GLTENCELL(Optional) channel release. NO
NO
Priority of the neighboring LTE cell. The priority is used in cell reselection and PS handover, which are based on priority of the neighboring cell. Value 0 indicates the lowest priority, and ADD GLTENCELL(Optional) value 7 indicates the highest priority. Value 255 MOD GLTENCELL(Optional) is invalid.
NO
NO
NO
YES
NO
NO
SET GMRCTRL(Optional)
The control switch of measurement report collection. Original measurement report sampling rate (for each call, one out of four measurement reports is collected)
SET GMRCTRL(Optional)
Sampling rate of pre-processed measurement reports(for each call, one out of four preprocessed measurement reports is collected).
NO
NO
SET GMRSCOPE(Mandatory)
Type of querying used to set the measurement report collection scope.
NO
YES
SET GMRCTRL(Mandatory)
SET GMRSCOPE(Mandatory)
Index of the BTS, uniquely identifying a BTS in a BSC. NO
YES
SET GMRSCOPE(Mandatory)
ID of the cell. The cell ID cannot conflict with other cell IDs in the BSC.
YES
SET GMRSCOPE(Mandatory) ADD GNRNC(Mandatory) MOD GNRNC(Mandatory) RMV GNRNC(Mandatory)
YES
Switch of measurement report collection within a specified scope. If the specified scope is a site, the switch applies to all the cells at the site; if the specified scope is a cell, the switch applies to the cell only. The switch of measurement report collection within a specified scope last configured takes effect. NO
YES
Internal index of a neighboring RNC
YES
YES
ADD GNRNC(Mandatory) MOD GNRNC(Optional)
Name of a neighboring RNC. The name is used to uniquely identify a neighboring RNC. NO
YES
ADD GNRNC(Mandatory)
Whether it is an RNC under the same MBIC in GU mode
NO
YES
ADD GNRNC(Mandatory)
The DSP index uniquely identifies a DSP.
NO
YES
ADD GNRNC(Mandatory)
Iur-g signaling point index of an internal RNC in GU mode
NO
YES
ADD GNRNC(Optional) MOD GNRNC(Optional)
Whether to support the common bidirectional measurement procedure on the Iur-g interface.
NO
NO
ADD GNRNC(Mandatory) MOD GNRNC(Mandatory)
Common measurement period
NO
YES
ADD GNRNC(Optional) MOD GNRNC(Optional)
Whether to support the cell list in the common measurement messages over the Iur-g interface. When this parameter is set to YES, the local BSC can handle the load information of the cells in the cell list carried in the received common measurement messages. In addition, the BSC can carry the load information of the cells in the cell list in the sent common measurement messages, such as the common measurement report, common measurement initialization response, common measurement initialization failure, and common measurement failure indication. NO
NO
ADD GNRNC(Optional) MOD GNRNC(Optional)
Whether to support the bidirectional information exchange procedure on the Iur-g interface.
NO
NO
ADD GNRNC(Mandatory) MOD GNRNC(Mandatory)
Information exchange content to be supported
NO
YES
NO
NO
NO
NO
ADD GNRNC(Optional) MOD GNRNC(Optional)
Time for the BSC to initiate the common measurement or information exchange procedure after this procedure fails Validity period for the BSC to keep the load information about a 3G neighboring cell on the RNC
ADD GPS(Mandatory) MOD GPS(Mandatory) RMV GPS(Mandatory)
GPS receiver ID
YES
YES
ADD GPS(Mandatory)
GPS receiver type.
NO
YES
ADD GPS(Optional)
Period for reporting GPS data
NO
NO
ADD GPS(Optional)
Period for reporting differential GPS data
NO
NO
ADD GPS(Optional) MOD GPS(Optional)
Format of the geographic coordinates. The values include "DEG" and "SEC".
NO
NO
ADD GPS(Optional) MOD GPS(Optional)
Metric system. The values of this parameter include "MET" and "IMP".
NO
NO
ADD GNRNC(Optional) MOD GNRNC(Optional)
ADD GPS(Mandatory) MOD GPS(Mandatory)
Longitude of the GPS receiver antenna
NO
YES
Latitude of the GP receiver antenna
NO
YES
Height of the specified GSP receiver antenna
NO
YES
Longitude of the GPS receiver antenna
NO
YES
Latitude of the GPS receiver antenna
NO
YES
Height of the specified GSP receiver antenna
NO
YES
MOD GPS(Optional)
Period for reporting GPS data
NO
NO
MOD GPS(Optional)
Period for reporting differential GPS data
NO
NO
SET GPSCHRCTRL(Mandatory)
This parameter indicates whether to record PS CHR logs.
NO
YES
SET GPSCHRCTRL(Optional)
This parameter indicates the mode of exporting PS CHR logs. When the parameter is set to "Common User Mode", the PS CHR logs of a specified cell are exported (the command is "SET GPSCHRSCOPE"); when the parameter is set to "Specified User Mode", the PS CHR logs of a specified MS are exported (the command is "ADD GPSCHRUSER"). The two modes can coexist without affecting each other. NO
NO
SET GPSCHRCTRL(Optional)
This parameter indicates whether to include Um interface messages in PS CHR logs. NO
NO
SET GPSCHRCTRL(Optional)
This parameter indicates whether to include Abis interface messages in PS CHR logs. NO
NO
ADD GPS(Mandatory) MOD GPS(Mandatory) ADD GPS(Mandatory) MOD GPS(Mandatory)
ADD GPS(Mandatory) MOD GPS(Mandatory)
ADD GPS(Mandatory) MOD GPS(Mandatory) ADD GPS(Mandatory) MOD GPS(Mandatory)
SET GPSCHRCTRL(Optional)
This parameter indicates whether to include Gb interface messages in PS CHR logs.
NO
NO
SET GPSCHRCTRL(Optional)
This parameter indicates whether to include internal information in PS CHR logs. The internal information is the basic user information, including user type, MS multiple timeslot capability, cause for TBF abnormal release, and service type. NO
NO
SET GPSCHRCTRL(Optional)
This parameter indicates whether to include internal messages in PS CHR logs. The messages are generated in service data flow and transmitted between internal modules, including uplink/downlink resource request, uplink/downlink resource indication, uplink/downlink resource rejection, TS indication, TS rejection, and PDU removal indication. NO
NO
SET Subscribers can specify the cell according to the GPSCHRSCOPE(Mandatory) index or the name. NO
YES
SET Index of a cell, uniquely identifying a cell in a GPSCHRSCOPE(Mandatory) BSC.
YES
YES
Name of a cell. This parameter uniquely identifies a cell in a BSC. Cell names cannot contain the following invalid characters: ,;="' In addition, cell names cannot contain two or SET more consecutive %, two or more consecutive GPSCHRSCOPE(Mandatory) spaces, or more than two consecutive +.
NO
YES
SET GPSCHRSCOPE(Optional)
This parameter indicates whether to collect CHR logs for a specified object. NO
NO
ADD GPSCHRUSER(Optional) RMV GPSCHRUSER(Mandatory)
This parameter indicates the object index.
YES
NO
ADD GPSCHRUSER(Mandatory)
International mobile subscriber identity of the MS. IMSI containing the number 0 to 9.
NO
YES
Policy type of re-homing
NO
YES
Delay time of re-homing
NO
YES
Absolute time of re-homing
NO
YES
SET GREDGRPPRIMHOSTPOLI CY(Mandatory) SET GREDGRPPRIMHOSTPOLI CY(Mandatory) SET GREDGRPPRIMHOSTPOLI CY(Mandatory) ADD GSMSCB(Optional) RMV GSMSCB(Optional) ADD GSMSCB(Optional) RMV GSMSCB(Optional)
Type of an index. NO List of cell indexes. All cell indexes are combined as a character string, separated by "&". For example, 1&2&5. NO
NO
NO
List of cell names. All cell names are combined as a character string, separated by "&". For example, cell1&cell2&cell5. The cell name should not contain the following characters: ADD GSMSCB(Optional) RMV GSMSCB(Optional)
? | : < > " @ # ! % ^ & * . [ ] / \ \\ '
NO
NO
ADD GSMSCB(Mandatory) RMV GSMSCB(Optional)
Geographical area over which the Message Code is unique and the display mode. For details about this parameter, see 3GPP TS 03.41. The value LAC_CI indicates that a simple cell broadcast message is cell wide and the content of the message is directly displayed on the MS by default. The value PLMN indicates that a simple cell broadcast message is PLMN wide and the content of the message is displayed under user interaction. The value LAC indicates that a simple cell broadcast message is location area wide and the content of the message is displayed under user interaction. The value CI indicates that a simple cell broadcast message is cell wide and the content of the message is displayed under user interaction. Note: "Geography Scope", "Code", and "Update" constitute the serial number, which identifies a particular simple cell broadcast message. NO
YES
ADD GSMSCB(Mandatory) RMV GSMSCB(Mandatory)
Differentiates between simple cell broadcast messages from the same source and type. The Message Code identifies different message themes and is allocated by PLMN operators. For details about this parameter, see 3GPP TS 03.41. Note: "Geography Scope", "Code", and "Update" constitute the serial number, which identifies a particular simple cell broadcast message. NO
YES
ADD GSMSCB(Mandatory) RMV GSMSCB(Mandatory)
Indicates a change of the content of the same simple cell broadcast message. In other words, this parameter differentiates between old and new versions of the same message, within the indicated geographical area. For details about this parameter, see 3GPP TS 03.41. Note: "Geography Scope", "Code", and "Update" constitute the serial number, which identifies a particular simple cell broadcast message. NO
YES
ADD GSMSCB(Mandatory)
Message Identifier of a simple cell broadcast message. This is a key parameter for adding a simple cell broadcast message. You can use "DSP GSMSCB" to query and obtain the value of this parameter. NO
YES
ADD GSMSCB(Mandatory)
Identifies the coding scheme employed for the simple cell broadcast message characters and message handling scheme at the MS. For details about this parameter, see 3GPP TS 03.38. NO
YES
ADD GSMSCB(Mandatory)
Contents of a cell broadcast message. The contents can contain two or more consecutive spaces and the following special characters: ,;="'% The contents of a cell broadcast message are coded in "Coding Scheme" (the coding scheme is defined in GSM 03.38). During the period between "Start Time" and "End Time", the cell broadcast message is sent at the interval specified by "Broadcast Interval". The total number of sent broadcast messages is specified by "Repeat". The contents are in the same format as the standard cell broadcast message. NO
YES
ADD GSMSCB(Mandatory)
Number of times the BSC repeats sending the same simple cell broadcast message to the MS. The value 0 indicates that the BSC does not repeat sending broadcast messages to the MS. When "End Time" arrives, the BSC stops sending simple cell broadcast messages. NO
YES
ADD GSMSCB(Mandatory)
Interval for sending simple cell broadcast messages.
NO
YES
ADD GSMSCB(Mandatory)
Start date and time when the BSC starts to send simple cell broadcast messages to the MS. NO
YES
ADD GSMSCB(Mandatory)
End date and time when the BSC stops sending simple cell broadcast messages to the MS. Note: The BSC can keep sending simple cell broadcast messages to the MS at the interval of "Broadcast Interval" within the period from "Start Time" to "End Time". NO
YES
MOD GTRX(Mandatory) RMV GTRX(Mandatory) ADD GTRX(Mandatory)
Index of a TRX, uniquely identifying a TRX in a BSC.
YES
YES
MOD GTRX(Mandatory) ADD GTRX(Mandatory)
Frequency of the TRX
NO
YES
ADD GTRX(Mandatory)
Type of an index.
NO
YES
ADD GTRX(Mandatory)
Index of a cell, uniquely identifying a cell in a BSC.
NO
YES
ADD GTRX(Mandatory)
Name of a cell. This parameter uniquely identifies a cell in a BSC. Cell names cannot contain the following invalid characters: ,;="' In addition, cell names cannot contain two or more consecutive %, two or more consecutive spaces, or more than two consecutive +.
NO
YES
ADD GTRX(Optional)
Whether to enable the TRX to carry the main BCCH in the cell
NO
NO
ADD GTRX(Optional)
Number of a TRX in a BTS. The number of a TRX is unique in a BTS.
NO
NO
SET Index of a TRX, uniquely identifying a TRX in a GTRXADMSTAT(Mandatory) BSC.
YES
YES
SET GTRXADMSTAT(Mandatory) Administrative state of the TRX
NO
YES
Index of a TRX, uniquely identifying a TRX in a SET GTRXBASE(Mandatory) BSC.
YES
YES
SET GTRXBASE(Optional)
Maximum number of PDCHs that can be assigned in the TRX
NO
NO
SET GTRXBASE(Optional)
Maximum number of (16 kbit/s) Abis timeslots that the PDCHs can use in the TRX. This parameter is valid only when the service type of BTS is TDM.
NO
NO
RMV GTRXBIND2HDLCPATH(Ma ndatory) ADD GTRXBIND2HDLCPATH(Ma ndatory) MOD GTRXBIND2HDLCPATH(Ma Index of a TRX, uniquely identifying a TRX in a ndatory) BSC.
NO
YES
RMV GTRXBIND2HDLCPATH(Opt ional) ADD GTRXBIND2HDLCPATH(Ma ndatory) MOD GTRXBIND2HDLCPATH(Ma Number of a BTS HDLC path. It is unique in one ndatory) [BTS]. NO
NO
Index of a TRX, uniquely identifying a TRX in a SET GTRXCHAN(Mandatory) BSC.
YES
YES
SET GTRXCHAN(Mandatory) Type Number the channel the TRX andoffunction of theinchannel
YES
YES
Combined BCCH+7TCH Main BCCH+SDCCH/8+6TCH Main BCCH+2SDCCH/8+5TCH Main BCCH+SDCCH/8+extended BCCH (BCH)+5TCH Main BCCH+SDCCH/8+extended BCCH (BCH)+TCH+extended BCCH (BCH)+3TCH The BCCHs in a cell need to be configured according to the number of channels in the cell and the paging capacity in the location area. The main and combined BCCHs shall always be configured in timeslot 0. An extended BCCH can be configured only in timeslot 2, 4, or 6. If an extended BCCH is configured, the CCCH parameter in the system message data needs to be configured accordingly. For example, if an extended BCCH is configured in timeslot 2, the CCCH parameter in the system message data needs to be configured as two uncombined CCCHs.
SET GTRXCHAN(Optional)
To enable cell broadcast in a cell, add a CBCH to the cell during the radio channel configuration. In the case of SDCCH/8 cell broadcast, set this parameter to SDCCH_CBCH. You can change a TCH into SDCCH+CBCH or the original SDCCH into SDCCH+CBCH. In the case of SDCCH/4 NO
NO
SET GTRXCHAN(Optional)
EGPRS priority type of the channel If this parameter is set to GPRS, the EDGE MSs cannot use this channel. If this parameter is set to EGPRSNORCH, the GPRS and EDGE MSs can use this channel at the same priority. If this parameter is set to EGPRSPRICH, the EDGE MSs have the priority to use this channel. If this parameter is set to EGPRSSPECH, only the EDGE MSs can use this channel. If this parameter is set to NONGPRS, this parameter becomes invalid. NO
NO
SET GTRXCHAN(Optional)
Assignment priority level of the channel. If this parameter is less, the assignment priority level of the channel is higher. NO
NO
SET GTRXCHANADMSTAT(Mand Index of a TRX, uniquely identifying a TRX in a atory) BSC. SET GTRXCHANADMSTAT(Mand atory) Number of the channel in the TRX
YES
YES
YES
YES
SET GTRXCHANADMSTAT(Mand atory) Administrative state of the channel
NO
YES
SET Index of a TRX, uniquely identifying a TRX in a GTRXCHANHOP(Mandatory) BSC.
YES
YES
SET GTRXCHANHOP(Mandatory) Number of the channel in the TRX
YES
YES
SET GTRXCHANHOP(Optional)
Frequency hopping index of the channel in the TRX
NO
NO
SET GTRXCHANHOP(Optional)
Mobile allocation index offset (MAIO) of the channel in the TRX
NO
NO
SET GTRXDEV(Mandatory)
Index of a TRX, uniquely identifying a TRX in a BSC.
YES
YES
SET GTRXDEV(Optional)
This parameter specifies the transmit power level of the TRX. The greater this parameter is, the smaller the transmit power is. When this parameter is set to "0", the transmit power level of the TRX is the greatest. Each time this parameter increases by one level, the transmit power reduces by 2 dB. For different types of BTSs, the value range of this parameter is different. BTS3X: 0-10 BTS3001C: 0-13 BTS3002C: 0-10 Double-transceiver BTSs (BTS3012,BTS3012AE,BTS3006C): 0-10 DBS3900 GSM, BTS3900 GSM, BTS3900A GSM: 0-10.
NO
NO
SET GTRXDEV(Optional)
This parameter specifies the maximum transmit power supported by the power amplifier of the TRX. The macro BTS and the mini BTS support different power levels. NO
NO
SET GTRXDEV(Optional)
This parameter specifies the TRX priority in channel assignment. The smaller this parameter is, the higher the TRX priority is. For two TRXs with other conditions identical, channels on the TRX with higher priority are preferentially assigned. NO
NO
SET GTRXDEV(Optional)
This parameter specifies whether the BSC6900 automatically shuts down the power amplifier of the TRX to save power when the BTS is powered by batteries after a power failure.
NO
NO
SET GTRXDEV(Optional)
Whether to allow the cell to dynamically change a channel from full rate to half rate or from half rate to full rate. If this parameter is set to Yes, the conversion is allowed; if the parameter is set to No, the conversion is not allowed and the changed channel is restored to the previous rate mode. In addition, this parameter helps to determine the channel assignment priority. The channels in a TRX that does not allow dynamic adjustment take priority. NO
NO
SET GTRXDEV(Optional)
Power attenuation level of the EDGE TRX. There are 50 power attenuation levels. At each level, the power is attenuated by 0.2 dB. The spectrum requirements are met only when the power of an EDGE transceiver for transmitting 8PSK signals is lower than the average power for GMSK modulation.
NO
NO
SET GTRXDEV(Optional)
Finetune of the TRX power. During the static finetune of the TRX power, the BSC adjusts the TRX power at a step of 0.2 dB. In some scenarios, the losses vary depending on the tributaries where the power is combined, and the power difference before and after the power output is not an integral multiple of 2 dB. As a result, the cabinet-top output power cannot be adjusted at a step of 2 dB, and the TRX output power cannot be consistent with the cabinet-top output power. Therefore, this parameter provides a smaller step that can adjust the cabinet-top output power. NO
NO
SET GTRXDEV(Optional)
RF receive mode of the TRX. The BTS3012, BTS3012AE, BTS3012II, BTS3006C, and BTS3002E do not support Main Diversity. The DBS3900 GSM and BTS3900 GSM support Four Diversity Receiver and Main Diversity. NO
NO
SET GTRXDEV(Optional)
RF send mode of the TRX. The BTS3006C and BTS3002E do not support Wide Band Combining, Power Booster Technology, DPBT, or Transmitter Independent or Combining. The DBS3900 GSM GRRU does not support Wide Band Combining, Transmitter Independent or Combining, Power Booster Technology, or DPBT. The BTS3900 GSM and BTS3900A GSM do not support Transmitter Independent or Wide Band Combining. NO
NO
SET GTRXDEV(Optional)
This parameter specifies whether to allow the BSC6900 to enable or disable the power amplifier of a TRX based on the traffic volume.
NO
NO
SET GTRXDEV(Optional)
Maximum degree by which the output power of the multi-density TRX board can exceed the maximum output power within a short time
NO
NO
SET GTRXDEV(Optional)
Frequency multiplexing mode in the TRX. To enable a loose frequency multiplexing mode such as 4x3 multiplexing, set this parameter to LOOSE. To enable a tight frequency multiplexing mode such as 1x3 or 1x1, set this parameter to TIGHT. NO
NO
SET GTRXDEV(Optional)
Priority level at which the BSC shuts down the power amplifier of the TRX when the intelligent shutdown function is enabled. If this parameter is set smaller, the priority level is higher, the power amplifier of the TRX is shut down later. NO
NO
SET GTRXDEV(Optional)
Power overload threshold for triggering outgoing handover from the TRX under the prerequisite that the power amplifier of the TRX provides the maximum output power. If the power overload exceeds this threshold, the TRX triggers outgoing handover for lack of power. NO
NO
SET GTRXDEV(Optional)
Power overload threshold for triggering incoming handover to the TRX under the prerequisite that the power amplifier of the TRX provides the maximum output power. NO
NO
SET GTRXDEV(Optional)
Power attenuation level of all the other timeslots of the BCCH except for timeslot 7 in 16QAM. The attenuation level ranges from 0 to 50, with the step of 0.2 dB. When the EDGE TRX sends signals in 16QAM, the transmit power must be lower than the mean power in GMSK. NO
NO
SET GTRXDEV(Optional)
Power attenuation level of all the other timeslots of the BCCH except for timeslot 7 in 32QAM. The attenuation level ranges from 0 to 50, with the step of 0.2 dB. When the EDGE TRX sends signals in 32QAM, the transmit power must be lower than the mean power in GMSK. NO
NO
SET GTRXFC(Mandatory)
Index of a TRX, uniquely identifying a TRX in a BSC.
SET GTRXFC(Optional)
Threshold for starting LAPD link congestion control. This parameter cannot be set too high. If this parameter is set too high, the signaling link may be congested before congestion control is started. The difference between "Congestion Start Threshold" and "Congestion End Threshold" cannot be too small. If the difference is too small, congestion control may be started frequently on signaling links. NO
YES
SET GTRXFC(Optional)
Threshold for stopping LAPD link congestion control. This parameter cannot be set too small. If this parameter is set too small, the congestion control duration is too long, and thus the transmission capability of signaling links cannot be fully used. The difference between "Congestion Start Threshold" and "Congestion End Threshold" cannot be too small. If the difference is too small, congestion control may be started frequently on signaling links. NO Threshold for starting RSL flow control. If the occupancy of the LAPD queue is greater than this threshold, the BSC starts flow control. NO Threshold for stopping RSL flow control. If the occupancy of the LAPD queue is less than this threshold, the BSC stops flow control. NO
SET GTRXHOP(Mandatory)
Index of a TRX, uniquely identifying a TRX in a BSC.
SET GTRXFC(Optional)
SET GTRXFC(Optional)
YES
YES
NO
NO
NO
NO
YES
SET GTRXHOP(Optional)
Frequency hopping mode of the TRX. Frequency hopping assists in interference averaging and frequency diversity. If this parameter is set to RF_FH, the TX and RX parts of the TRX take part in the frequency hopping. In this case, the number of hopping frequencies can exceed the number of TRXs in the cell. If this parameter is set to BaseBand_FH, each transmitter works at a fixed frequency. That is, the TX part does not take part in the frequency hopping. The baseband signals are switched for the frequency-hopping transmission. The RX part, however, takes part in the frequency hopping. NO
NO
SET GTRXIUO(Mandatory)
Index of a TRX, uniquely identifying a TRX in a BSC.
YES
SET GTRXIUO(Mandatory)
Concentric cell attributes of TRX. If the cell where a TRX is located is configured as a concentric cell, set this parameter to OVERLAID or UNDERLAID as required. If the cell where a TRX is located is not configured as a concentric cell, the default value of this parameter is NONE. NO
YES
SET GTRXRLALM(Mandatory)
Index of a TRX, uniquely identifying a TRX in a BSC.
YES
SET GTRXRLALM(Mandatory)
Whether to enable the BSC to deliver radio link alarm parameters to the BTS. If this parameter is set to YES, the BSC delivers the radio link alarm parameters to the BTS. If this parameter is set to NO, the BSC does not deliver the radio link alarm parameters to the BTS. NO
YES
YES
YES
Release statistics base for subchannels. This parameter indicates the number of times that a subchannel is activated. In a timeslot, the release statistics base, B, multiplied by the number of channels, N, is the channel release sum, S. If the percentage of the abnormal channel releases in the latest S channel releases exceeds the Abnormal Warn Threshold, the abnormal release alarm is reported. If the percentage of the abnormal channel releases in the latest S channel releases is equal to or less than the Abnormal Release Threshold, the recovery alarm for the abnormal release alarm is reported. That is, the abnormal release SET GTRXRLALM(Optional) alarm is cleared. NO
NO
Threshold for reporting the abnormal release alarm. In a timeslot, the release statistics base, B, multiplied by the number of channels, N, is the channel release sum, S. If the percentage of the abnormal channel releases in the latest S channel releases exceeds this threshold, the SET GTRXRLALM(Optional) abnormal release alarm is reported. NO
NO
Threshold for reporting the recovery alarm for the abnormal release alarm. If the percentage of the abnormal channel releases is equal to or less than this threshold, the recovery alarm for the abnormal release alarm is reported. That is, SET GTRXRLALM(Optional) the abnormal release alarm is cleared. NO
NO
Maximum number of measurement periods in which there is no traffic. If the number of measurement periods in which there is no traffic reaches this parameter, the BTS reports an SET GTRXRLALM(Optional) alarm indicating that there is no traffic. NO
NO
Whether to enable the BTS to report a major radio link alarm. If this parameter is set to YES, the BTS reports a major radio link alarm when a radio link warning is not cleared within "WLARP". If this parameter is set to NO, the BTS does not SET GTRXRLALM(Optional) report any major radio link alarm. NO
NO
Period for clearing a radio link warning. If a radio link warning is cleared within this period, the BTS reports the recovery alarm for the warning. If a radio link warning is not cleared within this period, the BTS determines whether to report a SET GTRXRLALM(Optional) major radio link alarm according to "WLAFLAG". NO Time when the BTS starts to check for a radio link alarm. If this time is up, the BTS starts to SET GTRXRLALM(Optional) check for and report a radio link alarm. NO
NO
NO
Time when the BTS stops checking for a radio link alarm. If this time is up, the BTS stops checking for or reporting a radio link alarm until SET GTRXRLALM(Optional) the next alarm detection start time is up.
NO
NO
Reference difference between uplink and downlink levels. This parameter works with "Up Down Balance Floating Range" to count uplinkSET GTRXRLALM(Optional) downlink imbalances.
NO
NO
Allowed fluctuation of the difference between uplink and downlink levels relative to the reference difference. If the difference between uplink and downlink levels is outside the fluctuation range, the uplink and downlink are considered imbalanced. For example, assume that the Up Down Balance Basic Difference is set to 8 and that the Up Down Balance Floating Range is set to 30. If the difference between uplink and downlink levels is greater than 38 (= 8 + 30) or less than -22 (= 8 30), the uplink and downlink are considered imbalanced. If the difference between uplink and downlink levels is between -22 and 38, the uplink SET GTRXRLALM(Optional) and downlink are considered balanced. NO
NO
Threshold for reporting the uplink-downlink imbalance alarm. If the percentage of the uplinkdownlink imbalance measurement reports in the total valid measurement reports is equal to or greater than this threshold, the uplink-downlink SET GTRXRLALM(Optional) imbalance alarm is reported. NO
NO
ADD GVNPADDR(Mandatory) RMV GVNPADDR(Mandatory)
IP address of Vendor Network Probe (VNP) which is allowed to connect to BSC.
NO
YES
ADD GVNPADDR(Optional)
Category Version of VNP connecting to BSC.
NO
NO
ADD ICMPGUARD(Mandatory) RMV ICMPGUARD(Mandatory)
Number of the subrack
YES
YES
ADD ICMPGUARD(Mandatory) RMV ICMPGUARD(Mandatory)
Indicates the slot number for running this command
YES
YES
ADD ICMPGUARD(Mandatory) RMV ICMPGUARD(Mandatory)
Source IP address of the packet for preventing the ICMP attack
YES
YES
ADD ICMPGUARD(Mandatory) RMV ICMPGUARD(Mandatory)
Mask of the source IP network segment of the packet against the ICMP attack
YES
YES
Packet type against the ICMP attack
NO
YES
Index of the IMSI segment.
YES
YES
Description of the IMSI segment.
NO
YES
ADD ICMPGUARD(Mandatory) ADD IMSIGRP(Mandatory) MOD IMSIGRP(Mandatory) RMV IMSIGRP(Mandatory) ADD IMSIGRP(Mandatory) MOD IMSIGRP(Optional)
ADD IMSIGRP(Mandatory) MOD IMSIGRP(Optional)
The minimum value of an IMSI segment.
NO
YES
ADD IMSIGRP(Mandatory) MOD IMSIGRP(Optional)
The maximum value of an IMSI segment.
NO
YES
ADD IMSISHAMAP(Mandatory) MOD IMSISHAMAP(Mandatory) RMV IMSISHAMAP(Mandatory)
A record that identifies the IMSI-supported handover area.
YES
YES
The code of a handover sharing area. It is used ADD to identify a handover sharing area. SHAC is IMSISHAMAP(Mandatory) unique within a BSC. An SHAC belongs to only MOD IMSISHAMAP(Optional) one operator.
NO
YES
ADD IMSISHAMAP(Mandatory) MOD IMSISHAMAP(Optional) Index of the IMSI segment.
NO
YES
ADD IMSISRAMAP(Mandatory) MOD IMSISRAMAP(Mandatory) RMV IMSISRAMAP(Mandatory)
This parameter identifies the routing category of an IMSI segment in the routing sharing area. YES
YES
A routing sharing area consists of multiple ADD location areas. The rate of the routing between a IMSISRAMAP(Mandatory) subscriber and an operator is the same as the MOD IMSISRAMAP(Optional) rate of IMSI segment. NO
YES
ADD IMSISRAMAP(Mandatory) MOD IMSISRAMAP(Optional) Index of the IMSI segment.
NO
YES
This parameter identifies a subscriber category ADD in an MOCN-enabled cell. The rate of a category IMSISRAMAP(Mandatory) of subscriber corresponds to the rate of a group MOD IMSISRAMAP(Optional) of routing. NO
YES
ADD IPLOGICPORT(Mandatory) MOD IPLOGICPORT(Mandatory) RMV IPLOGICPORT(Mandatory)
Number of the subrack
YES
YES
ADD IPLOGICPORT(Mandatory) MOD IPLOGICPORT(Mandatory) RMV IPLOGICPORT(Mandatory)
Indicates the slot number for running this command
YES
YES
ADD IPLOGICPORT(Mandatory) MOD IPLOGICPORT(Mandatory)
Board type
NO
YES
ADD IPLOGICPORT(Mandatory) MOD IPLOGICPORT(Mandatory)
Type of logical port
NO
YES
ADD IPLOGICPORT(Optional)
Logical port number
YES
NO
ADD IPLOGICPORT(Optional)
Bearer type of the logical port
NO
NO
ADD IPLOGICPORT(Optional)
FE/GE port number
NO
NO
ADD IPLOGICPORT(Optional)
Upper number of the logical port
NO
NO
ADD IPLOGICPORT(Optional)
Trunk group number of the logical port
NO
NO
ADD IPLOGICPORT(Optional)
PPP link number
NO
NO
ADD IPLOGICPORT(Optional)
MLPPP group number.
NO
NO
ADD IPLOGICPORT(Optional)
Resource management mode. The logical port working in the SHARE mode can be shared by multiple carriers. The logical port working in the EXCLUSIVE mode can be used by only one carrier.
ADD IPLOGICPORT(Mandatory) MOD IPLOGICPORT(Optional)
Switch for adjusting the dynamical bandwidth of the logical port. If this switch is turned on, the system adjusts the dynamical bandwidth of the logical port according to the transmission quality of the link monitored by the IPPM. After this switch is turned on, the IPPM function must be activated on the IPPATH of this logical port. For details about the IPPM, see the description of the command "ACT IPPM". NO
YES
ADD IPLOGICPORT(Optional) MOD IPLOGICPORT(Optional)
Maximum bandwidth for dynamic adjustment at the logical port
NO
NO
ADD IPLOGICPORT(Optional) MOD IPLOGICPORT(Optional)
Minimum bandwidth for dynamic adjustment at the logical port
NO
NO
ADD IPLOGICPORT(Optional) MOD IPLOGICPORT(Optional)
Threshold of bandwidth change based on the load control algorithm. When the system detects that the change of the available bandwidth exceeds this threshold through the IPPM, the system starts adjusting the bandwidth of the logical port. NO
NO
ADD IPLOGICPORT(Optional) MOD IPLOGICPORT(Optional)
Bandwidth of the logical port
NO
NO
ADD IPLOGICPORT(Optional) MOD IPLOGICPORT(Optional)
Maximum burst size (MBS)
NO
NO
ADD IPLOGICPORT(Optional) MOD IPLOGICPORT(Optional)
Minimum guarantee bandwidth of the OAM stream
NO
NO
ADD IPLOGICPORT(Optional) MOD IPLOGICPORT(Optional)
Speed reduction coefficient of the logical port. When detecting link congestion through IPPM, the system reduces the bandwidth rate of the logical port by using the value of the bandwidth multiplied by this parameter.
NO
NO
NO
NO
ADD IPLOGICPORT(Optional) MOD IPLOGICPORT(Optional)
Logical port speed increase step. When detecting the available bandwidth increase through IPPM, the system increases the bandwidth of the logical port by using this parameter.
NO
NO
ADD IPLOGICPORT(Optional) MOD IPLOGICPORT(Optional)
Statistics period of the packet drop ratio. This parameter indicates the period for collecting the statistics information about the packet drop ratio. Note that the unit of this parameter is 100 milliseconds. The actual delay statistics period is the value of this parameter multiplied by 100 milliseconds. NO
NO
ADD IPLOGICPORT(Optional) MOD IPLOGICPORT(Optional)
Bandwidth increase step adjustment period. This parameter indicates the period to increase the bandwidth of the logical port. Note that the actual bandwidth increase step adjustment period is the packet drop ratio Statistics period multiplied by this parameter value. NO
NO
ADD IPLOGICPORT(Optional) MOD IPLOGICPORT(Optional)
Maximum ratio of the estimated bottleneck bandwidth
NO
NO
ADD IPLOGICPORT(Optional) MOD IPLOGICPORT(Optional)
Packet drop ratio threshold for speed reduction. When the packet drop ratio exceeds the value of this parameter, the rate of the logical port is reduced. Note that the unit of this parameter is a thousand to one. NO
NO
ADD IPLOGICPORT(Optional) MOD IPLOGICPORT(Optional)
Delay statistics period. This parameter indicates the period to collect the statistics information about the link transmission delay. Note that the unit of this parameter is 100 milliseconds. The actual delay statistics period is the value of this parameter multiplied by 100 milliseconds. NO
NO
ADD IPLOGICPORT(Optional) MOD IPLOGICPORT(Optional)
Bandwidth reduction delay threshold. This parameter is used to trigger the function of bandwidth reduction at the logical port when the link delay exceeds the value of this parameter. NO
NO
ADD IPLOGICPORT(Optional) MOD IPLOGICPORT(Optional)
Number of suspension periods after the bandwidth adjustment is performed based on the packet drop ratio. This parameter specifies the delay statistics periods in which the bandwidth is not adjusted when the bandwidth adjustment function of the logical port is triggered due to the change of the packet drop ratio. This parameter can be used to control the rate of the bandwidth adjustment at the logical port. NO
NO
ADD IPLOGICPORT(Optional) MOD IPLOGICPORT(Optional)
Number of delay adjustment suspension periods. This parameter specifies the delay statistics periods in which the bandwidth is not adjusted when the bandwidth adjustment function of the logical port is triggered due to the change of the link transmission delay. This parameter can be used to control the rate of the bandwidth adjustment at the logical port. NO
NO
ADD IPLOGICPORT(Optional) MOD IPLOGICPORT(Optional)
Average delay increase filtering index
NO
NO
ADD IPLOGICPORT(Optional) MOD IPLOGICPORT(Optional)
Average delay reduction filtering index
NO
NO
ADD IPLOGICPORT(Optional) MOD IPLOGICPORT(Optional)
Logical port flow control switch
NO
NO
ADD IPLOGICPORT(Optional) MOD IPLOGICPORT(Optional)
Flow control parameter index
NO
NO
ADD IPLOGICPORT(Optional) MOD IPLOGICPORT(Optional)
Speed reduction alarm report threshold. When the proportion of the current available bandwidth to the adjustable bandwidth is greater than the threshold, the Logical Interface Bandwidth Adjustment over Threshold alarm is generated. The current available bandwidth can be obtained by subtracting the minimum bandwidth from the current bandwidth. The adjustable bandwidth can be obtained by subtracting the minimum bandwidth from the maximum bandwidth. NO
NO
ADD IPLOGICPORT(Optional) MOD IPLOGICPORT(Optional)
Speed reduction alarm recovery threshold. When the proportion of the current available bandwidth to the adjustable bandwidth is smaller than the clearance threshold, the Logical Interface Bandwidth Adjustment over Threshold alarm is cleared. NO
NO
ADD IPLOGICPORT(Optional) MOD IPLOGICPORT(Optional)
TRM load threshold index
NO
NO
MOD IPLOGICPORT(Optional)
Logical port number
NO
NO
RMV IPLOGICPORT(Mandatory)
Logical port number
NO
YES
ADD IPMUX(Mandatory)
IP packet multiplexing type
YES
YES
ADD IPMUX(Mandatory)
Adjacent node identifier of this IP path
YES
YES
ADD IPMUX(Mandatory)
IP path ID,Identifying an IP path
YES
YES
ADD IPMUX(Mandatory)
This parameter specifies whether it is QOSPATH, or not.
NO
YES
ADD IPMUX(Mandatory)
PHB type of the IPMUX to be enabled
NO
YES
ADD IPMUX(Optional) MOD IPMUX(Optional)
Maximum sub-frame length. This parameter indicates the maximum sub-frame length for multiplexing. If the length of a sub-frame exceeds this value, the sub-frame is not multiplexed.
NO
NO
ADD IPMUX(Optional) MOD IPMUX(Optional)
Maximum multiplexing frame length
NO
NO
ADD IPMUX(Optional) MOD IPMUX(Optional)
This parameter specifies the maximum time that the system waits before sending the multiplexed data. This parameter is used for the system to send the multiplexed data. If the time for buffering the data exceeds this value, the system does not wait for the multiplexing of other packets. In this way, the extended delay can be prevented. NO
NO
ADD IPMUX(Mandatory) MOD IPMUX(Optional)
UDP multiplexing mode of the sending party. If the mode that does not support the function of compressing the RTP header indicates that the sending party supports the UDP MUX RTP header but not the function of compressing the RTP header. The mode that supports the function of compressing the RTP header indicates that the sending party supports both the UDP MUX RTP header and the function of compressing the RTP header.
NO
YES
ADD IPMUX(Mandatory) MOD IPMUX(Optional)
UDP multiplexing mode of the receiving party. The mode that does not support the function of compressing the RTP header indicates that the receiving party supports the UDP MUX RTP header but not the function of compressing the RTP header. The mode that supports the function of compressing the RTP header indicates that the receiving party supports both the UDP MUX RTP header and the function of compressing the RTP header.
NO
YES
ADD IPMUX(Optional) MOD IPMUX(Mandatory) RMV IPMUX(Mandatory)
IP packet multiplex index
NO
NO
MOD IPMUX(Mandatory)
IP packet multiplexing type
NO
YES
ADD IPPATH(Mandatory) MOD IPPATH(Mandatory) RMV IPPATH(Mandatory)
This parameter uniquely identifies an adjacent node.
YES
YES
ADD IPPATH(Mandatory) MOD IPPATH(Mandatory) RMV IPPATH(Mandatory)
Uniquely identifies an IP path
YES
YES
ADD IPPATH(Mandatory) MOD IPPATH(Mandatory)
This parameter indicates the type of the adjacent node. NO
YES
ADD IPPATH(Optional)
Transport type of the adjacent node to which the path belongs. NO
NO
ADD IPPATH(Optional)
This parameter specifies the type of an IP path. It indicates the priority of the user plane data that is carried on the IP path. The mapping between the priority of the user plane data and IP path is configured through the "ADD TRMMAP" command. An IP path is of either the QoS type or the non-QoS type. For example, the IP paths used to carry BE data, AF data, and EF data are all of the non-QoS type. Different data can share the bandwidth of a QoS-type IP path. The bandwidth of a non-QoS type IP path, however, cannot be shared. For the non-QoS type IP path, the priority of EF data is higher than that of AF data, which in turn is higher than that of BE data. The actual priority of user plane data, however, is set through the "SET PHBMAP" command. NO
NO
ADD IPPATH(Mandatory)
The local IP address must be the configured IP address (including the IP address and port address of the interface board).
NO
YES
ADD IPPATH(Mandatory)
The peer IP address should not be the same as the local address. NO
YES
ADD IPPATH(Optional)
Subnet mask of the peer IP
NO
NO
ADD IPPATH(Mandatory) MOD IPPATH(Optional)
Transmit bandwidth of IP path
NO
YES
ADD IPPATH(Mandatory) MOD IPPATH(Optional)
Receive bandwidth of IP path
NO
YES
ADD IPPATH(Optional) MOD IPPATH(Optional)
Carry Flag of IP path IPLGCPORT: indicates that the IP Path is carried on the IP logic port; RSCGRP: indicates that the IP Path is carried on the resource group; NULL: indicates that the IP Path is carried on the physics port. NO
NO
ADD IPPATH(Mandatory) MOD IPPATH(Mandatory)
Number of the IP logical port that carries the IP path
NO
YES
ADD IPPATH(Mandatory) MOD IPPATH(Mandatory)
Number of the IP logical port that carries the IP path
NO
YES
ADD IPPATH(Mandatory) MOD IPPATH(Mandatory)
Resource group number of the PATH
NO
YES
ADD IPPATH(Optional) MOD IPPATH(Optional)
TRM load threshold index. The TRM load threshold must be configured.
NO
NO
ADD IPPATH(Optional) MOD IPPATH(Optional)
If the parameter is set to Disable, the added IP path is not configured with the VLAN ID. If the parameter is set to Enable, the added IP path is configured with the VLAN ID. NO
NO
ADD IPPATH(Mandatory) MOD IPPATH(Mandatory)
VLANID of the IP address of the specified next hop
NO
YES
ADD IPPATH(Optional) MOD IPPATH(Optional)
IP path check flag
NO
NO
ADD IPPATH(Mandatory) MOD IPPATH(Optional)
Peer IP address to be checked. The input address (CHKIPADDR) must be the address (regardless of the network segment address or host address of the peer address) in the network segment specified by the (PEERIPADDR, PEERMASK). NO
YES
ADD IPPATH(Optional) MOD IPPATH(Optional)
Ping check period of IP Path
NO
NO
ADD IPPATH(Optional) MOD IPPATH(Optional)
Number of ping check timeouts. The parameter indicates the number of timeout record failures.
NO
NO
ADD IPPATH(Optional) MOD IPPATH(Optional)
ICMP packet length. It is the total length of the ICMP packet containing the IP header.
NO
NO
ADD IPPATHBIND(Mandatory) RMV IPPATHBIND(Mandatory)
Adjacent node identifier of this IP path
YES
YES
ADD IPPATHBIND(Mandatory) RMV IPPATHBIND(Mandatory)
IP path ID,Identifying an IP path
YES
YES
ADD IPPATHBIND(Mandatory)
Number of the subrack
YES
YES
ADD IPPATHBIND(Mandatory)
Indicates the slot number for running this command
YES
YES
Detection index
YES
YES
Number of the subrack
YES
YES
ADD IPRT(Mandatory) RMV IPRT(Mandatory) MOD IPRT(Mandatory)
Indicates the slot number for running this command
YES
YES
ADD IPRT(Mandatory) RMV IPRT(Mandatory) MOD IPRT(Mandatory)
Destination IP address
YES
YES
ADD IPRT(Mandatory) RMV IPRT(Mandatory) MOD IPRT(Mandatory)
Subnet mask
YES
YES
ADD IPRT(Mandatory) RMV IPRT(Mandatory) MOD IPRT(Mandatory)
IP address of the next hop
YES
YES
ADD IPRT(Mandatory)
Route priority.
NO
YES
NO
YES
YES
YES
ADD IPRTBIND(Mandatory) MOD IPRTBIND(Mandatory) Indicates the slot number for running this RMV IPRTBIND(Mandatory) command
YES
YES
ADD IPRTBIND(Mandatory) MOD IPRTBIND(Mandatory) RMV IPRTBIND(Mandatory) Destination IP address
YES
YES
ADD IPPATHBIND(Mandatory) ADD IPRT(Mandatory) RMV IPRT(Mandatory) MOD IPRT(Mandatory)
ADD IPRT(Mandatory) MOD IPRT(Optional) Purpose description of the route record ADD IPRTBIND(Mandatory) MOD IPRTBIND(Mandatory) RMV IPRTBIND(Mandatory) Number of the subrack
ADD IPRTBIND(Mandatory) MOD IPRTBIND(Mandatory) RMV IPRTBIND(Mandatory) Subnet mask
YES
YES
ADD IPRTBIND(Mandatory) MOD IPRTBIND(Mandatory) RMV IPRTBIND(Mandatory) IP address of the next hop
YES
YES
ADD IPRTBIND(Mandatory) Detection index. The index is a unique value MOD IPRTBIND(Mandatory) ranging from 0 to 511 if it is not specified.
YES
YES
UPD JTGCPLD(Mandatory)
Number of the subrack
YES
YES
UPD JTGCPLD(Mandatory)
Number of the slot
YES
YES
UPD JTGCPLD(Mandatory)
In the normal mode, if the board cannot be reset, no operation is performed. In the force mode, if the board cannot be reset, the operation is performed by force. NO
UPD JTGCPLD(Mandatory)
This is the data file for upgrading board. The data file names of different boards are different. NO This is the description file for resetting the board. The reset file names of different boards are different. NO
UPD JTGCPLD(Mandatory) ADD LAOPMAP(Mandatory) RMV LAOPMAP(Mandatory) The index that identifies a location area and MOD LAOPMAP(Mandatory) information about the shared operator. YES Mobile country code. This parameter identifies the country where a mobile subscriber is located, ADD LAOPMAP(Mandatory) for example, the Chinese MCC is 460. NO Mobile network code. This parameter identifies the public land mobile network (PLMN) to which ADD LAOPMAP(Mandatory) a mobile subscriber belongs. NO
ADD LAOPMAP(Mandatory)
Location area code (LAC). MS can freely move in the local location area with no need of location update. Reasonable local allocation can effectively lighten the signaling load and improve the call completion rate. Can be input in hexadecimal format. The hexadecimal format is H'****, for example, H'1214. NO
ADD LAOPMAP(Mandatory) Name of the operator. This parameter uniquely MOD LAOPMAP(Mandatory) identifies an operator.
NO
YES
YES
YES
YES
YES
YES
YES
YES
ADD LAOPMAP(Optional) MOD LAOPMAP(Optional)
Name of the operator. This parameter uniquely identifies an operator.
NO
NO
ADD LAOPMAP(Optional) MOD LAOPMAP(Optional)
Name of the operator. This parameter uniquely identifies an operator.
NO
NO
SET LDR(Optional)
First action taken for load control
NO
NO
SET LDR(Optional)
Second action taken for load control
NO
NO
SET LDR(Optional)
Third action taken for load control
NO
NO
SET LDR(Optional)
Fourth action taken for load control
NO
NO
The occur threshold of 20258 alarm,you can set SET LICALMTHD(Mandatory) it from 90% to 99% NO
YES
The recover threshold of 20258 alarm,you can SET LICALMTHD(Mandatory) set it from 90% to 99%
NO
YES
RMV LICENSE(Mandatory) RVK LICENSE(Optional)
Name of the specified file. By default, the file is in the OMU active-area path \ftp\license folder.
NO
YES
SET LICENSECTRL(Mandatory)
Grace Protection Period Switch determines whether to enter the grace protection period.
NO
YES
SET LODCTRL(Mandatory)
Board start load control
NO
YES
SET LOGLIMIT(Optional)
When the operation time of the OMU exceeds the value specified by this parameter, some records are deleted from the operation log.
NO
NO
SET LOGLIMIT(Optional)
Maximum number of records allowed in the operation log
NO
NO
ADD M3DE(Mandatory) MOD M3DE(Mandatory) RMV M3DE(Mandatory)
The destination entity number uniquely identifies a destination entity. YES
YES
ADD M3DE(Mandatory)
The local entity number uniquely identifies a local entity. NO
YES
ADD M3DE(Mandatory)
The DSP index uniquely identifies a DSP.
NO
YES
ADD M3DE(Mandatory) MOD M3DE(Optional)
Type of the destination entity. For details, see RFC4666. M3UA_ASP: suggested to use when there is a signaling transfer point (STP) between the local entity and the destination entity M3UA_IPSP: suggested to use when there is no signaling transfer point (STP) between the local entity and the destination entity M3UA_SS7SP: suggested to use when the destination entity is a narrowband signaling point M3UA_SP: represents all types of the destination entity NO
YES
ADD M3DE(Optional) MOD M3DE(Optional)
Routing context. The routing context identifies a specified route. If the routing context is to be configured, its value must be negotiated between the two ends. NO
NO
ADD M3DE(Mandatory) MOD M3DE(Optional)
The name of an M3UA destination entity must be unique. NO
YES
ADD M3LE(Mandatory) MOD M3LE(Mandatory) RMV M3LE(Mandatory)
The local entity number uniquely identifies a local entity. YES
YES
ADD M3LE(Mandatory)
This parameter uniquely identifies an OSP.
NO
YES
ADD M3LE(Mandatory)
Type of the M3UA local entity. For details about the ASP and IPSP, see RFC4666. M3UA_ASP: suggested to use when there is a signaling transfer point (STP) between the local entity and the destination entity M3UA_IPSP: suggested to use when there is no signaling transfer point (STP) between the local entity and the destination entity NO
YES
ADD M3LE(Optional) MOD M3LE(Optional)
Routing context. The routing context identifies a specified route. If the routing context is to be configured, its value must be negotiated between the two ends. NO
NO
ADD M3LE(Mandatory) MOD M3LE(Optional)
The name of an M3UA local entity must be unique.
NO
YES
ADD M3LKS(Mandatory) MOD M3LKS(Mandatory) RMV M3LKS(Mandatory)
Uniquely identifies a signaling link set
YES
YES
ADD M3LKS(Mandatory)
The destination entity number uniquely identifies a destination entity. NO
YES
ADD M3LKS(Optional) MOD M3LKS(Optional)
Signaling link mask corresponding to the M3UA link set. It is used for the M3UA link load sharing. It is valid only when the working mode of the signaling link set is set to load sharing. In the value, the number of 1s (represented by n) determines the maximum number (2^n) of links for the load sharing. For example, B0000 indicates that up to one link is used for the load sharing, B0001 and B1000 indicate that up to two links are used for the load sharing. The additional links are not used for the load sharing. The AND operation between this value and " signaling route mask " in the "ADD N7DPC" is equal to 0. NO
NO
ADD M3LKS(Optional)
Traffic mode of the M3UA link set. At present, only the active/standby and load sharing mode is available. If the M3UA links in the link set work in overriding mode, only one link in the link set works in the active mode, and all other links work in the standby mode. In this case, only the active link carries traffic, and the standby links do not carry any traffic. When the active link is faulty, the standby link with the highest priority is automatically activated to take over as the active link. If the M3UA links in the link set work in loadsharing mode, all the M3UA links in the link set work in active mode and carry traffic. NO
NO
ADD M3LKS(Optional)
Working mode of the M3UA link set, including M3UA_ASP and M3UA_IPSP. For details about the ASP and IPSP, see the RFC4666. NO
NO
ADD M3LKS(Optional) MOD M3LKS(Optional)
Pending timer of the M3UA link set
NO
NO
ADD M3LKS(Mandatory) MOD M3LKS(Optional)
Name of the M3UA link set. The name of the M3UA signalling link set must be unique.
NO
YES
ADD M3LNK(Mandatory) MOD M3LNK(Mandatory) RMV M3LNK(Mandatory)
Uniquely identifies a signaling link set
YES
YES
ADD M3LNK(Mandatory) MOD M3LNK(Mandatory) RMV M3LNK(Mandatory)
ID of an M3UA link in the specified link set
YES
YES
ADD M3LNK(Mandatory)
Number of the subrack
NO
YES
ADD M3LNK(Mandatory)
Number of the slot where the XPU board is located
NO
YES
ADD M3LNK(Mandatory)
Specifies the SCTP link number for the XPU board. This number uniquely identifies an SCTP link. NO
YES
ADD M3LNK(Optional) MOD M3LNK(Optional)
Priority of the signaling link. 0 indicates the highest priority.
NO
NO
ADD M3LNK(Optional)
Initial bearing tag of the M3UA link. This parameter can be set to either active mode or standby mode. For details about the relevant bearer tag, see the the parameter "Traffic mode" of the "ADD M3LKS". NO
NO
ADD M3LNK(Mandatory) MOD M3LNK(Optional)
Name of the M3UA link.M3UA link names and M3UA links have a one-to-one correspondence. NO
YES
ADD M3RT(Mandatory) MOD M3RT(Mandatory) RMV M3RT(Mandatory)
The destination entity number uniquely identifies a destination entity. YES
YES
ADD M3RT(Mandatory) MOD M3RT(Mandatory) RMV M3RT(Mandatory)
Uniquely identifies a signaling link set
YES
YES
ADD M3RT(Optional) MOD M3RT(Optional)
Route priority. The highest priority is represented by 0. NO
NO
ADD M3RT(Mandatory) MOD M3RT(Optional)
The M3UA route and its name have a one-toone relationship.
NO
YES
The longest time for which the measurement result files can be saved. The measurement result files will be automatically deleted if the SET Result Time Limit expires. Zero means no MEASRSTLIMIT(Mandatory) monitor.
NO
YES
NO
YES
NO
YES
The maximum space the measurement result files can take. The measurement result files will SET be automatically deleted if the space they take MEASRSTLIMIT(Mandatory) exceeds the Result Space Limit. ADD MPGRP(Mandatory) MOD MPGRP(Mandatory) RMV MPGRP(Mandatory) Number of the subrack ADD MPGRP(Mandatory) MOD MPGRP(Mandatory) RMV MPGRP(Mandatory)
Indicates the slot number for running this command
NO
YES
ADD MPGRP(Mandatory) MOD MPGRP(Mandatory)
Board type
NO
YES
ADD MPGRP(Mandatory) MOD MPGRP(Mandatory)
Logical function type
NO
YES
ADD MPGRP(Mandatory)
MLPPP group number.
NO
YES
ADD MPGRP(Optional) MOD MPGRP(Optional)
Specifies MLPPP type.
NO
NO
ADD MPGRP(Mandatory) MOD MPGRP(Optional)
This parameter specifies whether to use the device IP address as the local IP address, or not. If this parameter is set to YES, the device IP address is used as the local IP address. If this parameter is set to NO, the device IP address is not used as the local IP address. NO
YES
ADD MPGRP(Mandatory) MOD MPGRP(Mandatory)
Local IP address of the MLPPP group.
NO
YES
ADD MPGRP(Mandatory) MOD MPGRP(Mandatory)
Borrowed device IP address.
NO
YES
ADD MPGRP(Mandatory) MOD MPGRP(Optional)
Subnet mask of the MLPPP group in BSC.
NO
YES
ADD MPGRP(Mandatory) MOD MPGRP(Optional)
Peer IP address of the MLPPP group.
NO
YES
ADD MPGRP(Optional) MOD MPGRP(Optional)
MLPPP/MCPPP sequence header option.
NO
NO
ADD MPGRP(Optional)
Number of MCPPP priorities. This parameter is valid when the MLPPP group type is MCPPP. Value 4(8) indicates that there are 4(8) priority classes.
NO
NO
ADD MPGRP(Optional) MOD MPGRP(Optional)
Specifies the size of an MLPPP fragment. The length of packets should be bigger or equal with the value defined by this parameter NO
NO
ADD MPGRP(Optional) MOD MPGRP(Optional)
This parameter specifies whether to compress the IP header of a MLPPP group, or not.
NO
NO
ADD MPGRP(Optional) MOD MPGRP(Optional)
Compression flag of the PPP link protocol domain
NO
NO
ADD MPGRP(Optional) MOD MPGRP(Optional)
This parameter specifies whether to compress the address and control fields, or not. If this parameter is set to ENABLE, both ends negotiate whether to compress the address and control fields. If this parameter is set to DISABLE, the address and control fields are not compressed. NO
NO
ADD MPGRP(Optional) MOD MPGRP(Optional)
This parameter specifies whether to enable the PPP frame multiplexing function, or not.If this parameter is set to ENABLE, the PPP frame multiplexing function is enabled. If this parameter is set to DISABLE, the PPP frame multiplexing function is disabled. NO
NO
ADD MPGRP(Optional)
Maximum length of the PPP multiplexing frame
NO
NO
ADD MPGRP(Optional)
Maximum length of the PPP multiplexing frame
NO
NO
ADD MPGRP(Optional)
Frame timeout duration of the PPP multiplexing group
NO
NO
ADD MPGRP(Optional) MOD MPGRP(Optional)
Link flow control switch
NO
NO
ADD MPGRP(Optional) MOD MPGRP(Mandatory)
Flow control parameter index
NO
NO
ADD MPGRP(Optional) MOD MPGRP(Optional)
Minimum guarantee bandwidth of the OAM stream
NO
NO
ADD MPGRP(Optional) MOD MPGRP(Optional)
Type of validation protocol for the PPP or MLPPP link negotiation.
NO
NO
ADD MPGRP(Mandatory) MOD MPGRP(Optional)
Validation mode upon PPP or MLPPP link negotiation.
NO
YES
ADD MPGRP(Mandatory) MOD MPGRP(Optional)
Username to validate, for the PPP or MLPPP link negotiation.
NO
YES
ADD MPGRP(Mandatory) MOD MPGRP(Optional)
Password to validate, upon PPP or MLPPP link negotiation.
NO
YES
ADD MPGRP(Optional) MOD MPGRP(Optional)
TRM load threshold index
NO
NO
ADD MPGRP(Optional) MOD MPGRP(Optional)
Error-frame detect switch
NO
NO
ADD MPGRP(Optional) MOD MPGRP(Optional)
Error-frame alarm threshold
NO
NO
ADD MPGRP(Optional) MOD MPGRP(Optional)
E1T1 anti-error switch.
NO
NO
ADD MPGRP(Optional)
Error emit threshold.
NO
NO
ADD MPGRP(Optional)
Error clear threshold.
NO
NO
MOD MPGRP(Mandatory)
MLPPP group number.
NO
YES
MOD MPGRP(Optional)
Number of MCPPP priorities. This parameter is valid when the MLPPP group type is MCPPP. Value 4(8) indicates that there are 4(8) priority classes.
NO
NO
MOD MPGRP(Optional)
Maximum PPPMUX sub-frame length. If the PPP frame length is larger than this value, the PPPMUX multiplexing is performed. The value of this parameter cannot be larger than the maximum multiplexed frame length wMuxMfl. To enable the PPPMUX, the number of sub-frames must be more than or equal to 2. The following condition must be met: wMuxMaxSfL<=( wMuxMfl-8 )/2 NO
NO
MOD MPGRP(Optional)
The value of this parameter cannot be less than the maximum PPPMUX sub-frame length (MUXMAXSFL). This parameter can be associated with the maximum segment length of the MP to control whether to segment the multiplexed MP. To enable the PPPMUX, the number of sub-frames must be more than or equal to 2. The following condition must be met: wMuxMaxSfL <= ( wMuxMfl-8 )/2 NO
NO
MOD MPGRP(Optional)
Maximum time waiting for multiplexing
NO
NO
MOD MPGRP(Optional)
Error emit threshold.
NO
NO
MOD MPGRP(Optional)
Error clear threshold.
NO
NO
RMV MPGRP(Mandatory) ADD MPLNK(Mandatory) MOD MPLNK(Mandatory) RMV MPLNK(Mandatory)
MLPPP group number.
NO
YES
Number of the subrack
YES
YES
ADD MPLNK(Mandatory) MOD MPLNK(Mandatory) RMV MPLNK(Mandatory)
Indicates the slot number for running this command
YES
YES
ADD MPLNK(Mandatory)
Board type
NO
YES
ADD MPLNK(Mandatory)
MLPPP group number.
NO
YES
ADD MPLNK(Optional) MOD MPLNK(Mandatory) RMV MPLNK(Mandatory)
PPP link number
YES
NO
ADD MPLNK(Optional)
Number of the E1T1 port for bearing the PPP link
NO
NO
ADD MPLNK(Mandatory) MOD MPLNK(Optional)
Bearer E1/T1 port timeslot of MLPPP link.
NO
YES
ADD MPLNK(Optional) MOD MPLNK(Optional)
Duration of the PPP/MLPPP link restart timer.
NO
NO
ADD MPLNK(Optional) MOD MPLNK(Optional)
Duration of the PPP/MLPPP link keep-alive timer.
NO
NO
ADD MPLNK(Optional) MOD MPLNK(Optional)
CRC verification mode of MLPPP link.
NO
NO
MOD MPLNK(Mandatory)
Board type
NO
YES
MOD MPLNK(Optional)
Number of the E1T1 port for bearing the PPP link
NO
NO
SET MPUBIND(Mandatory)
Number of the subrack
YES
YES
SET MPUBIND(Mandatory)
Number of the slot
YES
YES
SET MPUBIND(Mandatory)
Number of the subrack where the MPU subsystem is located
NO
YES
SET MPUBIND(Mandatory)
Number of the slot where the MPU subsystem is located NO
YES
SET Index of an MSC. It is used in storing and MSGSOFTPARA(Mandatory) querying the MSC attributes
SET MSGSOFTPARA(Optional)
Whether an HO REQ ACK message contains the information element Speech Version during an SDCCH handover. If a signaling channel handover between BSCs fails, the value of this parameter may need to be adjusted.
YES
YES
NO
NO
SET MSGSOFTPARA(Optional)
Whether an assignment complete message contains a cell list. According to GSM Rec. 08.08, during a channel assignment, an assignment complete message contains a cell list only when the cell of the MS changes. For the MSCs of some vendors, however, assignment complete messages must contain cell lists. To meet such a requirement, the value of this parameter must be YES. NO
NO
SET MSGSOFTPARA(Optional)
Whether an assignment complete message contains the information element of Circuit Pool. The default value of the circuit pool is 27. NO
NO
SET MSGSOFTPARA(Optional)
Whether an HO REQ ACK message contains the information element of Circuit Pool. The default value of the circuit pool is 27.
NO
NO
SET MSGSOFTPARA(Optional)
Whether an assignment complete message contains the information element of Chosen Channel
NO
NO
SET MSGSOFTPARA(Optional)
Whether to contain the information element of Speech_Ver in the Assignment Complete message
NO
NO
SET MSGSOFTPARA(Optional)
Whether an assignment complete message contains the information element of Chosen Encryption Algorithm
NO
NO
SET MSGSOFTPARA(Optional)
Whether an assignment failure message contains the information element of Circuit Pool. The default value of the circuit pool is 27. NO
NO
SET MSGSOFTPARA(Optional)
Whether an assignment failure message contains the the information element of Circuit Pool List. The default value of the circuit pool is 27.
NO
NO
SET MSGSOFTPARA(Optional)
Whether an HO REQ ACK message contains the information element of Chosen Channel
NO
NO
SET MSGSOFTPARA(Optional)
Whether an HO REQ ACK message contains the information element of Chosen Encryption Algorithm
NO
NO
SET MSGSOFTPARA(Optional)
Whether to contain the information element of Speech_Ver in the HO_REQ_ACK message
NO
NO
SET MSGSOFTPARA(Optional)
Whether an HO FAIL message contains the the information element of Circuit Pool NO
NO
SET MSGSOFTPARA(Optional)
Whether an HO FAIL message contains the the information element of Circuit Pool List NO
NO
SET MSGSOFTPARA(Optional)
Whether a handover perform message contains the information element of Chosen Channel NO
NO
SET MSGSOFTPARA(Optional)
Whether a handover performed message contains the information element of Chosen Encryption Algorithm
NO
NO
SET MSGSOFTPARA(Optional)
Whether to contain the information element of Speech_Ver in the Handover Perform message
NO
NO
SET MSGSOFTPARA(Optional)
Whether an encryption complete message contains the information element of Chosen Encryption Algorithm
NO
NO
SET MSGSOFTPARA(Optional)
Whether to contain the information element of Speech Ver in the HO_RQD message
NO
NO
SET MSGSOFTPARA(Optional)
Whether an HO_RQD message contains the Current Channel
NO
NO
SET MSGSOFTPARA(Optional)
In A over IP, if the parameter is set to ON, the circuit IE in the A interface extended signaling must be processed in the same way as that in A over non-IP. Otherwise, the A interface extended signaling cannot carry circuit-type IE. NO
NO
SET MSP(Mandatory)
Number of the subrack
YES
YES
SET MSP(Mandatory)
Number of the slot
YES
YES
SET MSP(Mandatory)
Indicates the port number for running this command
YES
YES
SET MSP(Optional)
Recovery mode of the MSP protection group
NO
NO
SET MSP(Optional)
Wait to restore time
NO
NO
SET MSP(Optional)
This parameter determines whether the last three bits of K2 indicates the single end and the dual end, or not.
NO
NO
SET MSP(Optional)
This parameter specifies whether to report the Signal Degrade (SD) alarm. For details about this parameter, see ITU-T G.841 standards. When this parameter is set to ENABLE, the SD alarm threshold parameter must be set. In this case, if the signal degradation exceeds the value of the SD alarm threshold parameter, the interface board reports the SD alarm and initiates the MSP switchover. When this parameter is set to DISABLE, the interface board does not report the SD alarm and does not initiate the MSP switchover. NO
NO
SET MSP(Mandatory)
SD alarm triggering threshold
NO
YES
SET MSP(Optional)
This parameter specifies the priority of Signal Fail (SF) and Signal Degrade (SD). This parameter is used for determining whether to initiate the MSP protection switchover at the local end. For details about this parameter, see ITU-T G.841 standards. When the priority of SF and SD is set to high at both the local end and the peer end, the MSP protection switchover is performed according to the high-priority SDSF procedure defined in ITUT G.841 standards. When the priority of SF and SD is set to low at both the local end and the peer end, the MSP protection switchover is performed according to the low-priority SDSF procedure defined in ITU-T G.841 standards. Note that the setting of this parameter must be consistent between the local end and the peer end. In addition, the local end and the peer end must be consistent in port backup mode. When the settings of this parameter are inconsistent between the two ends, the MSP protection switchover cannot be performed. NO
NO
SET MSP(Optional)
Backup mode of the switch protection group
NO
NO
SET MSPCMD(Mandatory)
Number of the subrack
YES
YES
SET MSPCMD(Mandatory)
Number of the slot
YES
YES
SET MSPCMD(Mandatory)
Indicates the port number for running this command
YES
YES
SET MSPCMD(Mandatory)
Control command of the MSP switchover protection group
YES
YES
Support the index based on the TLLI and IMSI SET MSTOCELL(Mandatory) mode
NO
YES
SET MSTOCELL(Mandatory) Temporary logical link ID in the decimal format
NO
YES
International mobile subscriber identity of the SET MSTOCELL(Mandatory) MS. IMSI containing the number 0 to 9.
NO
YES
Index of a cell, uniquely identifying a cell in a SET MSTOCELL(Mandatory) BSC.
NO
YES
ADD MTP3LKS(Mandatory) MOD MTP3LKS(Mandatory) RMV MTP3LKS(Mandatory)
Uniquely identifies a signalling link set
YES
YES
ADD MTP3LKS(Mandatory)
The DSP index uniquely identifies a DSP.
NO
YES
ADD MTP3LKS(Optional) MOD MTP3LKS(Optional)
This parameter specifies a signaling link mask, corresponding to an MTP3 link set. It is used for MTP3 link load sharing. Related to the parameter value selected, the number of 1s (represented by n) determines the maximum number (2^n) of links for the load sharing. For example, B0000 indicates that only one link is used, B0001 and B1000 indicate that up to two links are used for the load sharing. The additional links are not used for the load sharing. This value AND "signaling route mask" of the N7DPC is zero. NO
NO
ADD MTP3LKS(Optional) MOD MTP3LKS(Optional)
Whether to verify the centralized signaling link in the case of the link establishment. ON: emergency verification, that is, the verification is not required. OFF: non emergency verification, that is, the verification is required during the establishment of a signaling link in a link set. Through verification, the stable operation state of a signaling link can be ensured. You are advised to use the normal verification. That is, the emergency verification switch is set to OFF. NO
NO
ADD MTP3LKS(Mandatory) MOD MTP3LKS(Optional)
Name of the signalling link set
NO
YES
ADD MTP3LNK(Mandatory) MOD MTP3LNK(Mandatory) RMV MTP3LNK(Mandatory)
Uniquely identifies a signalling link set
YES
YES
ADD MTP3LNK(Mandatory) MOD MTP3LNK(Mandatory) RMV MTP3LNK(Mandatory)
ID of an MTP3 link in a specified link set
YES
YES
ADD MTP3LNK(Optional)
Number of the subrack where the XPU board is located
NO
NO
ADD MTP3LNK(Optional)
Number of the slot where the XPU board is located
NO
NO
ADD MTP3LNK(Mandatory)
Specifies the working mode of the TC SEPERATE_PRINCIPAL: indicates that an MTP3 link is configured on the principal BSC in the TC pool scenario, or that an MTP3 link is configured in BM/TC separated mode and in a Non-TC pool scenario. SEPERATE_SUBORDINATE: indicates that an MTP3 link is configured on the subordinate BSC in the TC pool scenario. TOGETHER: indicates that an MTP3 link is configured in BM/TC combined mode. SEPERATE_BSC_INTERFACE: indicates that an MTP3 link is configured for the Lb interface on the BSC in BM/TC separated mode. In addition, the MTP3 link is carried on the Ater interface board in the BM subrack. NO
YES
ADD MTP3LNK(Mandatory)
Index of an Ater connection path
YES
NO
ADD MTP3LNK(Mandatory)
Ater interface timeslot mask
NO
YES
ADD MTP3LNK(Mandatory)
Number of the subrack where the A interface board is located
NO
YES
ADD MTP3LNK(Mandatory)
Number of the slot where the A interface board is located
NO
YES
ADD MTP3LNK(Mandatory)
Identify an MTP2 link
NO
YES
ADD MTP3LNK(Mandatory)
Number of a port on the A interface board
NO
YES
ADD MTP3LNK(Mandatory)
A interface timeslot mask
NO
YES
ADD MTP3LNK(Optional)
Rate type of the designated link
NO
NO
ADD MTP3LNK(Optional)
Satellite flag
NO
NO
ADD MTP3LNK(Optional) MOD MTP3LNK(Optional)
Priority of the signaling link. 0 indicates the highest priority.
NO
NO
ADD MTP3LNK(Optional) MOD MTP3LNK(Optional)
Test code length of the signaling link. By default, the value is 10. NO
NO
ADD MTP3LNK(Optional) MOD MTP3LNK(Optional)
Test code for the MTP3 link. After the successful test, the link can be used for carrying signaling services. If the test fails, the MTP3 periodically sends the fault locating command until the operation is successful. When the link is deleted or deactivated, the system stops to send the fault locating command. The default value is 170. NO
NO
ADD MTP3LNK(Optional) MOD MTP3LNK(Optional)
Timer alignment ready.
NO
NO
ADD MTP3LNK(Optional) MOD MTP3LNK(Optional)
Timer not aligned.
NO
NO
ADD MTP3LNK(Optional) MOD MTP3LNK(Optional)
Timer aligned.
NO
NO
ADD MTP3LNK(Optional) MOD MTP3LNK(Optional)
Timer normal proving.
NO
NO
ADD MTP3LNK(Optional) MOD MTP3LNK(Optional)
Timer emergency proving.
NO
NO
ADD MTP3LNK(Optional) MOD MTP3LNK(Optional)
Timer sending SIB.
NO
NO
ADD MTP3LNK(Optional) MOD MTP3LNK(Optional)
Timer remote congestion.
NO
NO
ADD MTP3LNK(Optional) MOD MTP3LNK(Optional)
Timer excessive delay acknowledgement.
NO
NO
ADD MTP3LNK(Optional) MOD MTP3LNK(Optional)
Timer interval of resending FISU.
NO
NO
ADD MTP3LNK(Mandatory) MOD MTP3LNK(Optional)
Name of the MTP3 link
NO
YES
ADD MTP3RT(Mandatory) MOD MTP3RT(Mandatory) RMV MTP3RT(Mandatory)
The DSP index uniquely identifies a DSP.
YES
YES
ADD MTP3RT(Mandatory) MOD MTP3RT(Mandatory) RMV MTP3RT(Mandatory)
Uniquely identifies a signalling link set
YES
YES
ADD MTP3RT(Optional) MOD MTP3RT(Optional)
Route priority. The highest priority is represented by 0. NO
NO
ADD MTP3RT(Mandatory) MOD MTP3RT(Optional)
Name of an MTP3 route
NO
YES
SET MTP3TMR(Optional)
When a normal changeover cannot be initiated, services will be changed over to an alternative link after this timer expires to avoid disorder of data.
NO
NO
SET MTP3TMR(Optional)
This timer is a protection timer waiting for an extended changeover acknowledgement message (XCA) from the peer end after an extended changeover order message (XCO) is sent to the peer end.
NO
NO
SET MTP3TMR(Optional)
When a normal changeback cannot be initiated, services will be changed back to a normal link only after this timer expires to avoid disorder of data. NO
NO
SET MTP3TMR(Optional)
This timer is a protection timer waiting for a changeback acknowledgement message (CBA) from the peer end after the first changeback declaration (CBD) is sent to the peer end. NO
NO
SET MTP3TMR(Optional)
This timer is a protection timer waiting for a changeback acknowledgement message (CBA) from the peer end after the second changeback declaration (CBD) is sent to the peer end. NO
NO
SET MTP3TMR(Optional)
This timer is started when a transmission prohibited message (TFP) is sent. The TFP will not be sent any more during the running of this timer. When the reception of a TFP causes unavailability of a route, this timer is started to regularly check whether the route is recovered.
NO
NO
SET MTP3TMR(Optional)
This timer is a protection timer waiting for an uninhibit acknowledgement message (LUA) from the peer end after an uninhibit message (LUN) is sent to the peer end. NO
NO
SET MTP3TMR(Optional)
NO
NO
SET MTP3TMR(Optional)
This timer is a protection timer waiting for a force uninhibit acknowledgement message (LUA) from the peer end after a force uninhibit message (LFU) is sent to the peer end. NO
SET MTP3TMR(Optional)
This timer is a protection timer waiting for an inhibition acknowledgement message (LIA) from the peer end after an inhibition message (LIN) is sent to the peer end. This timer is started when a link fails to be started. The restart of the link is initiated after this timer expires. After a local link is inhibited, this timer is started to regularly check the management states at both ends of the link. After a remote link is inhibited, this timer is started to regularly check the management states at both ends of the link.
SET MTP3TMR(Optional)
This timer is a protection timer waiting for a signalling link test acknowledgement message (SLTA) from the peer end after a signalling link test message (SLTM) is sent to the peer end.
SET MTP3TMR(Optional)
SET MTP3TMR(Optional)
SET MTP3TMR(Optional)
NO
NO
NO
NO
NO
NO
NO
NO
NO
NO
NO
ADD N7DPC(Mandatory) MOD N7DPC(Optional)
This timer is used to send the signalling link test messages (SLTM) to the peer end regularly. NO This parameter indicates the DSP that have been configured. The DSP name must be unique. NO
ADD N7DPC(Mandatory) MOD N7DPC(Mandatory) RMV N7DPC(Mandatory)
The DSP index uniquely identifies a DSP.
YES
YES
ADD N7DPC(Mandatory)
This parameter uniquely identifies an OSP.
NO
YES
SET MTP3TMR(Optional)
NO
YES
ADD N7DPC(Mandatory) MOD N7DPC(Optional)
This parameter indicates the data format of the specified signaling point. When this parameter is set to "WNF", the SPC is expressed in the form of an integer number. When this parameter is set to "DNF", the SPC is expressed in three segments. The number of bits included in each segment depends on the setting of the signaling point code bits parameter. When the signaling point code bits parameter is set to "BIT14", the number of bits included in each segment is 3, 8, and 3. When the signaling point code bits parameter is set to "BIT16", the number of bits included in each segment is 4, 8, and 4. When the signaling point code bits parameter is set to "BIT24", the number of bits included in each segment is 8, 8, and 8. Assume that the signaling point code bits parameter is set to "BIT14" and the SPC is expressed in three segments 5-7-2. You can perform the following steps to convert this SPC to an integer: 1. Convert the value in each segment to a binary number and fill 0s into a segment if the number of bits included in that segment does not meet the requirements. The binary number of value 5 in the first segment is 101, which is of three bits. Thus, you need not to fill 0s into the first segment. The binary number of value 7 in the second segment is 111. As previously stated, when the signaling point code bits parameter is set to "BIT14", eight bits must be included in the second segment. Thus, the second segment is put as 00000111. Accordingly, you can calcuate NO
YES
ADD N7DPC(Mandatory) MOD N7DPC(Mandatory)
This parameter indicates the DSP code of Whole Number. As an integer, the DSP code can be expressed by a decimal digit or a hexadecimal digit. If the DSP code is expressed by a hexadecimal digit, H' is added before the number. NO
YES
ADD N7DPC(Mandatory) MOD N7DPC(Mandatory)
This parameter indicates the DSP code of Divided Number. The DSP code is expressed in the format of segments such as 8-8-8. NO
YES
ADD N7DPC(Mandatory)
This parameter indicates the DSP type. STP: indicates the signaling transfer point. A: indicates the signaling point of the A interface control signaling plane. IUR_G: indicates the signaling point of the base station controller that is connected to the BSC. LB: indicates the signaling point of the LB interface. NO
YES
ADD N7DPC(Optional) MOD N7DPC(Optional)
This parameter indicates the signaling route load sharing. In the value, the number of 1s (represented by n) determines the maximum number (2) of routes for the load sharing. For example, B0000 indicates that up to one route is used for the load sharing, B0001 and B1000 indicate that up to two routes are used for the load sharing. The additional routes are not used for the load sharing. The AND operation between this value and " signaling link mask " in the link set is equal to 0. NO
NO
ADD N7DPC(Optional) MOD N7DPC(Optional)
This parameter indicates that the DSP and OSP are in the associated mode or non associated mode. NO
NO
ADD N7DPC(Optional) MOD N7DPC(Optional)
This parameter indicates whether to enable the signaling point with the signaling transfer function
NO
ADD N7DPC(Mandatory) MOD N7DPC(Optional)
This parameter indicates the DSP bearer type. MTP3: indicates that the lower layer bearer is the MTP3 used in ATM/TDM scenario; M3UA: indicates that the lower layer bearer is the M3UA used in IP scenario; MTP3_M3UA: indicates that the lower layer bearer is the MTP3 and M3UA used in ATM/TDM/IP scenario. NO
YES
ADD N7DPC(Mandatory) MOD N7DPC(Mandatory)
This parameter indicates the type of the network that is preferentially used to carry the DSP. MTP3_FIRST: indicates that the MTP3 is preferentially used to carry the DSP; M3UA_FIRST: indicates that the M3UA is preferentially used to carry the DSP. NO
YES
NO
ADD N7DPC(Optional)
This parameter identifies the DSP protocol type, including ITUT(International Telecommunication Union - Telecommunication Standardization Sector), ANSI(American National Standards Institute), and TTC(Telecommunication Technology Committee (Japan)). NO
NO
ADD N7DPC(Optional)
SCCP Subsystem No.
NO
NO
ADD NCELL(Mandatory) RMV NCELL(Mandatory)
Unique identifier of the Um interface software synchronization task.
YES
YES
ADD NCELL(Mandatory) RMV NCELL(Optional)
Index type. The value can be BYIDX or BYNAME.
NO
YES
ADD NCELL(Mandatory) RMV NCELL(Mandatory)
Number of the cell where the TRX reside. The cell is numbered uniquely in a BSC.
YES
YES
ADD NCELL(Mandatory) RMV NCELL(Mandatory)
Number of the cell. The cell is numbered uniquely in a BSC.
YES
YES
ADD NCELL(Mandatory) RMV NCELL(Mandatory)
Name of cell 1
NO
YES
YES
RMV NCELL(Mandatory)
Name of cell 2 NO Whether to delete the BTS from the neighboring cell list when all neighboring cells of the BTS are empty. NO
ADD NRIMSCMAP(Mandatory) RMV NRIMSCMAP(Mandatory)
Network resource indication that specifies a CN node in the MSC pool
YES
YES
ADD NRIMSCMAP(Mandatory) RMV NRIMSCMAP(Mandatory)
Index of an MSC. It is used in storing and querying the MSC attributes
YES
YES
ADD NRISGSNMAP(Mandatory) RMV NRISGSNMAP(Mandatory)
Identifies the mapping relation from the NRI to the SGSN uniquely with the operator name
YES
YES
ADD NRISGSNMAP(Mandatory) RMV NRISGSNMAP(Mandatory)
Name of the operator. This parameter uniquely identifies an operator.
YES
YES
ADD NCELL(Mandatory) RMV NCELL(Mandatory)
YES
ADD NRISGSNMAP(Mandatory)
Uniquely identifies a node of SGSN, with the specified operator name
NO
YES
ADD NSE(Mandatory) MOD NSE(Mandatory) RMV NSE(Mandatory)
Identifies a unique NSE
YES
YES
ADD NSE(Mandatory)
Subrack number of the XPU board bound to the NSE NO
YES
ADD NSE(Mandatory)
Slot number of the XPU board bound to the NSE NO
YES
ADD NSE(Mandatory)
Subnet protocol type
YES
ADD NSE(Optional)
Configuration mode of the IP subnetwork. Static configuration: fixed local NSVL and remote NSVL parameters through manual configuration; Dynamic configuration: the NSVL parameter obtained through negotiation between the BSC and the SGSN after the local NSVL and SGSN service point are configured manually. NO
ADD NSE(Mandatory) MOD NSE(Optional)
NO
NO
ADD NSE(Mandatory) MOD NSE(Optional)
Server IP address used on the SGSN side in the IP subnet dynamic configuration procedure NO Server UDP port number used on the SGSN side in the IP subnet dynamic configuration procedure NO
ADD NSE(Mandatory)
Name of the operator. This parameter uniquely identifies an operator.
NO
YES
ADD NSE(Mandatory) MOD NSE(Optional)
Uniquely identifies a node of SGSN, with the specified operator name
NO
YES
YES
YES
ADD NSE(Optional) MOD NSE(Optional)
Whether to support RAN information management (RIM). IN the RIM procedure, RANs (Radio Access Network) can exchange messages through the core network.
NO
NO
ADD NSE(Optional) MOD NSE(Optional)
Whether to support packet flow context (PFC). The PFC flow is used to control the QoS of the packet service of the MS.
NO
NO
ADD NSE(Optional) MOD NSE(Optional)
Whether to support PS Handover(PS HO). The PS HO is used to reduce the interval of the cell reselection of the MS.
NO
NO
ADD NSVC(Mandatory) MOD NSVC(Mandatory) RMV NSVC(Mandatory)
NSVC index, identifies a unique NSVC.
YES
YES
ADD NSVC(Mandatory)
NSVC ID, identifies a unique NSVC. This ID must be negotiated with the peer SGSN.
NO
YES
ADD NSVC(Mandatory)
Identifies a unique NSE
NO
YES
ADD NSVC(Mandatory) MOD NSVC(Optional)
Number of the subrack
NO
YES
YES
ADD NSVC(Mandatory) MOD NSVC(Optional)
Number of the slot NO Identifies one BC at the Gb interface board. The BCID's value range of PEUa board is 0~255 and that of POUc board is 0~511. NO
ADD NSVC(Mandatory) MOD NSVC(Optional)
ID of the data link connection of the NSVC. It is an interworking parameter which must be consistent on the BSC and the peer.
NO
YES
ADD NSVLLOCAL(Mandatory) MOD NSVLLOCAL(Mandatory) RMV NSVLLOCAL(Mandatory)
Identifies a local NSVL
YES
YES
ADD NSVLLOCAL(Mandatory)
Identifies a unique NSE
NO
YES
ADD NSVLLOCAL(Mandatory)
IP address of the local NSVL
NO
YES
ADD NSVC(Mandatory) MOD NSVC(Optional)
YES
ADD NSVLLOCAL(Mandatory)
UDP port number of the local NSVL. When "Subnet Protocol Type" of NSE is "Gb over IP" and "Subnetwork Configure Mode" is "Static", the setting of this parameter must be consistent with the setting at the SGSN side.
NO
YES
ADD NSVLLOCAL(Mandatory)
Number of the subrack
NO
YES
ADD NSVLLOCAL(Mandatory)
Number of the slot
NO
YES
Signaling local weight over the local NSVL. When this parameter is set to a larger value, the NS is more likely to select this IP point according to the load sharing function of the NSVC link of ADD NSVLLOCAL(Optional) the IP network, if the NS sends a signaling MOD NSVLLOCAL(Optional) message. NO
NO
Traffic local weight over the local NSVL. When this parameter is set to a large value, the NS is more likely to select this IP point according to the ADD NSVLLOCAL(Optional) load sharing function of the NSVC link of the IP MOD NSVLLOCAL(Optional) network, if the NS sends a data message. NO
NO
ADD NSVLREMOTE(Mandatory) MOD NSVLREMOTE(Mandatory) RMV NSVLREMOTE(Mandatory)
Identifies a remote NSVL
YES
YES
ADD NSVLREMOTE(Mandatory) MOD NSVLREMOTE(Optional)
Identifies a unique NSE
NO
YES
ADD NSVLREMOTE(Mandatory) MOD NSVLREMOTE(Optional)
IP address of the remote NSVL
NO
YES
ADD NSVLREMOTE(Mandatory) MOD NSVLREMOTE(Optional)
UDP port number of the remote NSVL. The setting of this parameter must be consistent with the setting at the SGSN side. NO
YES
ADD NSVLREMOTE(Optional) MOD NSVLREMOTE(Optional)
Signaling local weight over the remote NSVL. When this parameter is set to a larger value, the NS is more likely to select this IP point according to the load sharing function of the NSVC link of the IP network, if the NS sends a signaling message. NO
NO
ADD NSVLREMOTE(Optional) MOD NSVLREMOTE(Optional)
Traffic local weight over the remote NSVL. When this parameter is set to a larger value, the NS is more likely to select this IP point according to the load sharing function of the NSVC link of the IP network, if the NS sends a data message. NO
NO
ADD OBJALMSHLD(Mandatory) RMV OBJALMSHLD(Mandatory)
Shield type of the alarm. "ALL" indicates one shield type instead of all types.
NO
YES
ADD OBJALMSHLD(Mandatory) RMV OBJALMSHLD(Mandatory)
Number of the subrack where the indicator alarm to be queried is generated. NO
YES
ADD OBJALMSHLD(Mandatory) RMV OBJALMSHLD(Mandatory)
Number of the slot where the alarm is generated, the number of the slot where the OMU board is positioned is not supported. NO
YES
ADD OBJALMSHLD(Mandatory) RMV OBJALMSHLD(Mandatory)
Number of the port where the alarm is generated, only the ports for data transmission are supported, such as E1/T1 port, channelized optical port tributary, optical port, and Ethernet port.
NO
YES
ADD OBJALMSHLD(Mandatory) RMV OBJALMSHLD(Mandatory)
Number of the DSP where the alarm is generated.
NO
YES
ADD OBJALMSHLD(Optional) RMV OBJALMSHLD(Optional)
Type of alarm selection.
NO
NO
ADD OBJALMSHLD(Mandatory) RMV OBJALMSHLD(Mandatory)
Identifier of the alarm. This parameter uniquely identifies an alarm.
NO
YES
SET OBJAUTHSW(Mandatory)
Switch for authenticating objects. When the switch is enabled, the BSC system authenticates the BTS objects of the user; when the switch is disabled, the BSC system does not authenticate the BTS objects. NO
YES
SET OFFICENAME(Mandatory)
Name of an office
NO
YES
RMV OMUBTSPATCH(Mandatory) Number of the patch version
NO
YES
ADD OMUIPRT(Mandatory) RMV OMUIPRT(Mandatory)
Destination IP address
YES
YES
ADD OMUIPRT(Mandatory) RMV OMUIPRT(Mandatory)
Routing mask
YES
YES
ADD OMUIPRT(Mandatory)
IP address of the next hop
NO
YES
ADD OP(Optional) MOD OP(Optional)
Description of the operator account.
NO
NO
ADD OP(Mandatory)
Password
NO
YES
ADD OP(Mandatory) MOD OP(Optional)
Confirm password. The confirm password is required to ensure that a correct password is entered.
NO
YES
ADD OP(Optional)
Group to which the operator belongs. This parameter is used to limit the right of the operator.
NO
NO
ADD OP(Optional) MOD OP(Optional)
Number of the command group.
NO
NO
ADD OP(Optional) MOD OP(Optional)
Whether to limit the operation date of the operator.
NO
NO
ADD OP(Mandatory) MOD OP(Mandatory)
Start date. The input format is YYYY&MM&DD.
NO
YES
ADD OP(Mandatory) MOD OP(Mandatory)
End date of the user operation. Input format: YYYY&MM&DD.
NO
YES
ADD OP(Optional)
Whether to limit the operation time of the operator
NO
NO
ADD OP(Mandatory) MOD OP(Mandatory)
Start time. The input format is HH&MM&SS.
NO
YES
ADD OP(Mandatory) MOD OP(Mandatory)
End time of the user operation. The input format of this parameter is HH&MM&SS. NO
YES
ADD OP(Optional)
Whether to limit the operation weekday of the operator. If the weekday needs to be limited, see the description of "Week". NO
NO
ADD OP(Mandatory) MOD OP(Mandatory)
You can select multiple weekdays.
NO
YES
MOD OP(Optional)
Password.
NO
NO
MOD OP(Optional)
User group.
NO
NO
MOD OP(Optional)
Whether to limit the operation time of the operator.
NO
NO
MOD OP(Optional)
Whether to limit the operation weekday of the operator.
NO
NO
ADD OPC(Mandatory) MOD OPC(Optional)
This parameter indicates the name of the OSP.
NO
YES
ADD OPC(Mandatory) MOD OPC(Mandatory) RMV OPC(Mandatory)
This parameter uniquely identifies an OSP.
YES
YES
ADD OPC(Mandatory)
This parameter indicates the Network ID. INT: International network. INTB: Spare (for international use only). NAT: National network. NATB: Reserved for national use.
NO
YES
ADD OPC(Mandatory) MOD OPC(Optional)
This parameter indicates the number of bits contained in the signaling point code.
NO
YES
ADD OPC(Optional) MOD OPC(Optional)
This parameter indicates the data format of the specified signaling point. When this parameter is set to "WNF", the SPC is expressed in the form of an integer number. When this parameter is set to "DNF", the SPC is expressed in three segments. The number of bits included in each segment depends on the setting of the signaling point code bits parameter. When the signaling point code bits parameter is set to "BIT14", the number of bits included in each segment is 3, 8, and 3. When the signaling point code bits parameter is set to "BIT16", the number of bits included in each segment is 4, 8, and 4. When the signaling point code bits parameter is set to "BIT24", the number of bits included in each segment is 8, 8, and 8. Assume that the signaling point code bits parameter is set to "BIT14" and the SPC is expressed in three segments 5-7-2. You can perform the following steps to convert this SPC to an integer: 1. Convert the value in each segment to a binary number and fill 0s into a segment if the number of bits included in that segment does not meet the requirements. The binary number of value 5 in the first segment is 101, which is of three bits. Thus, you need not to fill 0s into the first segment. The binary number of value 7 in the second segment is 111. As previously stated, when the signaling point code bits parameter is set to "BIT14", eight bits must be included in the second segment. Thus, the second segment is put as 00000111. Accordingly, you can calcuate NO
NO
ADD OPC(Optional) MOD OPC(Optional)
This parameter indicates the OPC code of Whole Number. As an integer, the OSP code can be expressed by a decimal digit or a hexadecimal digit. If the OSP code is expressed by a hexadecimal digit, H' is added before the number. NO
NO
ADD OPC(Optional) MOD OPC(Optional)
This parameter indicates the OSP code of Divided Number. The OSP code can be expressed in the form of segments such as 8-88. NO
NO
ADD OPC(Optional) MOD OPC(Optional)
This parameter indicates whether to enable the restart function.
NO
NO
ADD OPC(Optional) MOD OPC(Optional)
This parameter indicates the host type of the signalling point. When the BSC node redundancy feature is enabled, the primary BSC and the secondary BSC each must be configured with a signaling point coded in the same mode. The host type of the signaling point of the primary BSC is set to "PRIMHOST", and the host type of the signaling point of the secondary BSC is set to "SLAVEHOST". When the BSC node redundancy feature is disabled, the host type of the signaling point of the BSC is set to "SINGLEHOST". NO
NO
SET OPLOCK(Mandatory)
Whether to lock all the non-default local accounts
NO
YES
SET OPSW(Mandatory)
Whether to enable the local user management function
NO
YES
SET OPT(Mandatory)
Number of the subrack
YES
YES
SET OPT(Mandatory)
Indicates the slot number for running this command
YES
YES
SET OPT(Mandatory)
Board type
NO
YES
SET OPT(Optional)
Port selection
NO
NO
SET OPT(Optional)
Port number
YES
NO
SET OPT(Optional)
Optical interface standard
NO
NO
SET OPT(Optional)
Optical port tributary numbering method. This parameter indicates the sequence of tributaries in an SDH frame. If the sequences of tributaries at both optical ports differ from each other, some E1 links will be disconnected. The sequences of optical port tributaries for three modes are as follows: ALCATEL_MODE:(1,2,3,4,5,6,7,8,9,10,11,12,13, 14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,2 9,30,31,32,33,34,35,36,37,38,39,40,41,42,43,44, 45,46,47,48,49,50,51,52,53,54,55,56,57,58,59,6 0,61,62,63) HUAWEI_MODE:(1,4,7,10,13,16,19,22,25,28,31 ,34,37,40,43,46,49,52,55,58,61,2,5,8,11,14,17,2 0,23,26,29,32,35,38,41,44,47,50,53,56,59,62,3,6 ,9,12,15,18,21,24,27,30,33,36,39,42,45,48,51,54 ,57,60,63) LUCENT_MODE:(1,4,7,10,13,16,19,2,5,8,11,14, 17,20,3,6,9,12,15,18,21,22,25,28,31,34,37,40,23 ,26,29,32,35,38,41,24,27,30,33,36,39,42,43,46,4 9,52,55,58,61,44,47,50,53,56,59,62,45,48,51,54, 57,60,63) NO
NO
SET OPT(Optional)
Switch for the J0 tracing mark mismatching alarm
NO
NO
SET OPT(Optional)
J0 type
NO
NO
SET OPT(Mandatory)
Byte display format of J0
NO
YES
SET OPT(Optional)
Sending value of J0. J0 byte, also called the trace byte of the regenerator section on the optical port (RTIM), is one of the optical port interconnection parameters that is continuously transmitted to the peer end. This parameter enables the peer end to check whether it is connected to the local end continuously.
NO
NO
SET OPT(Optional)
Expected receiving value of J0. J0 byte, also called the trace byte of the regenerator section on the optical port (RTIM), is one of the optical port interconnection parameters. The BSC receives the peer J0 byte continuously.
NO
NO
SET OPT(Optional)
Switch for the J1 tracing mark mismatching alarm
NO
NO
SET OPT(Optional)
J1 type
NO
NO
SET OPT(Mandatory)
Byte display format of J1
NO
YES
SET OPT(Optional)
Sending value of J1. J1 byte, also called the trace byte of the high-order path on the optical port, is one of the optical port interconnection parameters transmitted to the peer end continuously. This parameter enables the peer end to check whether it is connected to the local end continuously. NO
NO
SET OPT(Optional)
Expected receiving value of J1. J1 byte, also called the trace byte of the high-order path on the optical port, is one of the optical port interconnection parameters. The local end continuously receives the peer J1 byte.
NO
NO
SET OPT(Optional)
This parameter specifies whether to enable the switch to set the S1 value, or not.
NO
NO
SET OPT(Optional)
S1 sending value. It is a synchronization status byte used by the local end to examine the quality of the received clock signals before the local end switches to a clock source with higher quality. The smaller the value of S1 is, the lower the clock quality is. NO
NO
SET OPT(Optional)
RSF alarm triggering source
NO
NO
SET OPT(Optional)
RSD alarm triggering source
NO
NO
SET OPT(Optional)
Threshold of B1 and B2 signal failure
NO
NO
SET OPT(Optional)
Threshold of B1 and B2 signal degrade
NO
NO
SET OPT(Optional)
Threshold of B3 signal failure
NO
NO
SET OPT(Optional)
Threshold of B3 signal degrade
NO
NO
SET OPT(Optional)
A zero or a space used to fill in the J byte of the optical port based on the J byte of the peer equipment. If the J bytes are inconsistent, an alarm related to J byte mismatch will be reported and the negotiation of the optical port may fail, thus leading to deterioration of the services. NO
NO
SET OPT(Optional)
optical adaptation type between high-order path and multiplex section.
NO
NO
SET OPTLOP(Mandatory)
Number of the subrack
YES
YES
SET OPTLOP(Mandatory)
Indicates the slot number for running this command
YES
YES
SET OPTLOP(Mandatory)
Port number
NO
YES
SET OPTLOP(Mandatory)
Loopback type
YES
YES
SET OTHSOFTPARA(Optional)
Whether to enable the BSC to obtain BTS logs automatically
NO
NO
SET OTHSOFTPARA(Optional)
Whether to enable the BSC to check automatically whether a BTS is connected to a proper E1 port in the EIUa. If a BTS is connected to an E1 port configured for another BTS in the EIUa, the BTS cannot be reset automatically after the BTS is initialized. Thus, the data configurations on the BTS side differ from the data configurations on the BSC side. NO
NO
SET OTHSOFTPARA(Optional)
Maximum number of retransmissions of the Ainterface circuit reset message. When an Ainterface circuit of the BSC is reset, the BSC sends the reset message to the MSC and starts a timer. If the BSC fails to receive the A-interface circuit reset response message from the MSC before the timer expires, the BSC retransmits the A-interface circuit reset message. This parameter specifies the maximum number of retransmissions of the A-interface circuit reset message. NO
NO
SET OTHSOFTPARA(Optional)
Maximum times for an external PCU to retransmit a PB interface maintenance message. When the PCU fails to receive a response to a PB interface maintenance message before the timer timeouts, it retransmits the PB interface maintenance message to the BSC. NO
NO
SET OTHSOFTPARA(Optional)
This parameter specifies whether the SI Type 3 message contains the 2QUATER indicator.
NO
NO
SET OTHSOFTPARA(Optional)
Whether the SI Type 3 message contains the 3G Early Classmark Sending Restriction field. The 3G Early Classmark Sending Restriction field is used to notify the MS of whether the early classmark message contains the 3G classmark message. This parameter is valid for dual-mode MSs and is invalid for single-mode MSs. NO
NO
SET OTHSOFTPARA(Optional)
Controls the values of the FDD_Indic0 field, the NR_OF_FDD_CELLS field, and the FDD_Cellinformation field in 2quater and MI when 3G neighboring cells with scrambling code 0 are present. When this parameter is set to YES, FDD_Indic0 is set to 1, the NR_OF_FDD_CELLS count does not include cells with scrambling code 0, and FDD_Cellinformation also does not include cells with scrambling code 0; When this parameter is set to NO, FDD_Indic0 is set to 1, the NR_OF_FDD_CELLS count includes cells with scrambling code 0, and FDD_Cellinformation also includes cells with scrambling code 0. NO
NO
SET OTHSOFTPARA(Optional)
With traffic control enabled, the BSC discards some paging messages. This parameter specifies whether to record detailed information of paging messages discarded by the BSC in the commissioning logs. NO
NO
SET OTHSOFTPARA(Optional)
Timer to control the duration in which the BSC prevents the handover of an MS from which the BSC receives the Disconnect message. If the MS is handed over to a new cell after the MS sends the Disconnect message, the MS cannot receive the Release Acknowledgement message from the original cell. Thus, the MS cannot be disconnected. To protect from such a disconnection failure, the BSC does not hand over the MS within the duration of this timer after the BSC receives the Disconnect message from the MS. NO
NO
SET OTHSOFTPARA(Optional)
Whether the HO RQD messages sent by the BSC to an MSC carry response request cells. Response request cells are optional. They are used to inform the MSC whether it needs to return HO REJECT messages when HO RQD messages fail to trigger handovers.
NO
NO
SET OTHSOFTPARA(Optional)
Whether to perform resource checks on the resource usage system and resource management system. Resource checks can prevent resource hanging in case of anomalies. Resource checks cover channel resources, transmit resources, and BSC resources.
NO
NO
SET OTHSOFTPARA(Optional)
Whether the BSC sends a System Information Type 2ter message to a non-dualband cell. When the parameter is set to YES, the cell does not send the System Information Type 2ter message if the cell is not configured with interfrequency neighboring cells. If the cell is configured with inter-frequency neighboring cells, the cell sends the System Information Type 2ter message. When the parameter is set to NO and "Send System Information 2ter " is set to YES, the cell sends the System Information Type 2ter message. Otherwise, the cell does not send the message. NO Whether to enable the BSC to use a 8 kbit/s timeslot to transmit 8 kbit/s data at the Ater interface NO
SET OTHSOFTPARA(Optional)
Whether to enable the single pass check function on the Pb links between the BSC and the external PCU. When the Pb link is in single pass mode, a corresponding alarm is reported to the maintenance terminal, and the Pb link is set to broken link state or the priority of the Pb link is lowered. NO
SET OTHSOFTPARA(Optional)
NO
NO
NO
SET OTHSOFTPARA(Optional)
Whether to enable the PCIC check function on the Pb links between the BSC and the external PCU. When the configuration of the PCIC of the BSC is inconsistent with that of the external PCU, a corresponding alarm is reported to the maintenance terminal, the Pb interface circuit with inconsistent configurations at two ends is blocked, and the priority of the Pb link is lowered. NO
NO
SET OTHSOFTPARA(Optional)
Whether to enable the layer 3 check mechanism on the LAPD links. If the PCU_BSC_LAPD_CHECK_ACK message cannot be received on one Pb link, the Pb link is in single pass mode. Send another two PCU_BSC_LAPD_CHECK_ACK messages. If the PCU_BSC_LAPD_CHECK_ACK message is still not received on the Pb link, set the Pb link to fault state and report the ONE PBSL Link. NO
NO
SET OTHSOFTPARA(Optional)
Whether to enable the enhanced resource check on the Pb interface. The introduction of enhanced resource check is to improve the efficiency of resource checking and define the dependencies of resource status. The external PCU initiates the enhanced resource check. The resources to be checked, consisting of the cell resources, channel resources, and PCIC resources, are provided in list form in the check message, thus reducing the number of messages on the Pb interface and improving the efficiency of checking. The external PCU sends the check message to the BSC. The BSC divides the check message into three independent check messages, each containing one type of resource to be checked, and sends the check message to the corresponding module for resource checking. NO
NO
SET OTHSOFTPARA(Optional)
Retransmission times of Pb link check (LapdCheck) messages. When a BSC sends a Pb link check message to an external PCU and fails to receive a response from the external PCU, it retransmits the message. This parameter indicates the maximum times for the PB link check message to be transmitted.
NO
NO
SET OTHSOFTPARA(Optional)
Whether to withhold link breakdown alarms in case of BTS resets due to data configurations
NO
NO
SET OTHSOFTPARA(Optional)
If OML links break down after BTS resets caused by data configurations and recover within the period specified by this parameter, configuration reset alarms are reported; If OML links fail to recover within the period specified by this parameter, OML link breakdown alarms are reported. NO
NO
SET OTHSOFTPARA(Optional)
Threshold for considering the Ater interface, if congested, the BSC determines whether to assign full or half rate channels preferentially according to the congestion situations at the Ater interface. If the Ater resource usage exceeds this parameter, the Ater interface is considered congested. NO
NO
SET OTHSOFTPARA(Optional)
Whether to enable the BSC to assign half rate channels preferentially when the Ater interface is congested NO
NO
SET OTHSOFTPARA(Optional)
Threshold of the level difference between a neighboring cell and the serving cell, based on which the BSC filters the measured values in the measurement reports and collects traffic statistics during automatic neighboring cell optimization and automatic frequency optimization. The filtering results and collected traffic statistics are later submitted to NaStar for analysis. When a measurement report shows that the signal strength difference between a neighboring cell and the serving cell is larger than ("Relative Signal Strength Threshold" - 64), related traffic statistics will be collected. NO
NO
SET OTHSOFTPARA(Optional)
Absolute level threshold for automatic optimization of neighbor cells and frequencies. The measurement results in measurement reports are screened and counted according to this threshold. If the signal strength of a neighbor cell in a measurement report is greater than this threshold, the relevant traffic statistics counter is incremented by one. NO
NO
SET OTHSOFTPARA(Optional)
Mean opinion score (threshold) for judging an abnormal call. The BTS computes the MOS of a call periodically and reports the call MOS to the BSC in custom measurement reports. According to the call MOS, the BSC checks whether the call is normal. If the call MOS is less than this threshold, the BSC considers the call abnormal and records the abnormity in the call history record (CHR). To prevent the impact of a decimal fraction, set this parameter to the product of 50 and the actual MOS. NO
NO
SET OTHSOFTPARA(Optional)
Whether to enable end-to-end user tracing for the BSC. If this parameter is set to YES, the BSC starts end-to-end user tracing after the BSC receives the MSC Invoke Trace or BSS Invoke Trace message from the MSC. NO
NO
Whether to trace A-interface messages during end-to-end user tracing. The end-to-end tracing is conducted throughout the network. The ASET interface tracing results can be obtained from the OTHSOFTPARA(Mandatory) MSC or BSC. NO
YES
Whether to report BSS INVOKE TRACE message. When the parameter is set to YES, the BSC sends a BSS INVOKE TRACE message to the MSC if receiving an MSC INVOKE TRACE or BSS INVOKE TRACE message from MSC in the case of an outgoing BSC handover. If the BSC does not receive the SET message, the BSC does not send a BSS OTHSOFTPARA(Mandatory) INVOKE TRACE message to the MSC.
YES
SET OTHSOFTPARA(Optional)
NO
Whether the CIC circuits in use on the A interface can be assigned. When this parameter is set to YES and the MSC assigns new calls to an ongoing A interface circuit, the original calls (that are occupying the circuit) are released, and the circuit is used by the new calls. When this parameter is set to NO and the MSC assigns new calls to the ongoing A interface circuit, the new calls are rejected, and the original calls are not affected. NO
NO
SET OTHSOFTPARA(Optional)
Whether to support CS half rate data services
NO
NO
SET OTHSOFTPARA(Optional)
Whether to enable the BSC to include the 3G classmark information element in the Classmark Request message that the BSC forwards from the MSC to an MS NO
NO
SET OTHSOFTPARA(Optional)
Neighboring cell interference level threshold 0
NO
NO
SET OTHSOFTPARA(Optional)
Neighboring cell interference level threshold 1
NO
NO
SET OTHSOFTPARA(Optional)
Neighboring cell interference level threshold 2
NO
NO
SET OTHSOFTPARA(Optional)
Neighboring cell interference level threshold 3
NO
NO
SET OTHSOFTPARA(Optional)
Neighboring cell interference level threshold 4
NO
NO
SET OTHSOFTPARA(Optional)
Neighboring cell interference level threshold 5
NO
NO
SET OTHSOFTPARA(Optional)
Neighboring cell interference level threshold 6
NO
NO
SET OTHSOFTPARA(Optional)
Neighboring cell interference level threshold 7
NO
NO
SET OTHSOFTPARA(Optional)
Whether the TCH rate type uses the MSC strategy or BSC strategy. When this parameter is set to NO and the MSC policy is used, the BSC preferentially selects full-rate or half-rate channels based on the rate type carried by the MSC in the assignment or incoming BSC handover request. When this parameter is set to YES and the BSC policy is used, the BSC preferentially selects full-rate or half-rate channels based on the internal load. NO
NO
SET OTHSOFTPARA(Optional)
Whether the BSC sends the System Information Type 2ter message. NO
NO
SET OTHSOFTPARA(Optional)
Whether the BSC sends the System Information Type 5ter message. NO
NO
SET OTHSOFTPARA(Optional)
Whether to include the eMLPP Priority information element in the Paging Command message over the Abis interface when "Allow eMLPP" is set to YES and the eMLPP flag in the Bitmap information element of the Paging message received from the MSC is 1 NO
NO
SET OTHSOFTPARA(Optional)
Whether the System Information Type 3 message carries TER indication.
NO
NO
SET OTHSOFTPARA(Optional)
Whether to discard paging messages without TMSIs and all-cell paging messages that considerably increase the load on the BSC system
NO
NO
SET OTHSOFTPARA(Optional)
Reserved parameter 1 that is effective at the BSC level
NO
NO
SET OTHSOFTPARA(Optional)
Reserved parameter 2 that is effective at the BSC level
NO
NO
SET OTHSOFTPARA(Optional)
Reserved parameter 3 that is effective at the BSC level
NO
NO
SET OTHSOFTPARA(Optional)
Reserved parameter 4 that is effective at the BSC level
NO
NO
SET OTHSOFTPARA(Optional)
Reserved parameter 5 that is effective at the BSC level
NO
NO
SET OTHSOFTPARA(Optional)
Reserved parameter 6 that is effective at the BSC level
NO
NO
SET OTHSOFTPARA(Optional)
Reserved parameter 7 that is effective at the BSC level
NO
NO
SET OTHSOFTPARA(Optional)
Reserved parameter 8 that is effective at the BSC level
NO
NO
SET OTHSOFTPARA(Optional)
Reserved parameter 9 that is effective at the BSC level
NO
NO
SET OTHSOFTPARA(Optional)
Reserved parameter 10 that is effective at the BSC level
NO
NO
SET OTHSOFTPARA(Optional)
Reserved parameter 11 that is effective at the BSC level
NO
NO
SET OTHSOFTPARA(Optional)
Reserved parameter 12 that is effective at the BSC level
NO
NO
SET OTHSOFTPARA(Optional)
Reserved parameter 13 that is effective at the BSC level
NO
NO
SET OTHSOFTPARA(Optional)
Reserved parameter 14 that is effective at the BSC level
NO
NO
SET OTHSOFTPARA(Optional)
Reserved parameter 15 that is effective at the BSC level
NO
NO
SET OTHSOFTPARA(Optional)
Reserved parameter 16 that is effective at the BSC level
NO
NO
SET OTHSOFTPARA(Optional)
Reserved parameter 17 that is effective at the BSC level
NO
NO
SET OTHSOFTPARA(Optional)
Reserved parameter 18 that is effective at the BSC level
NO
NO
SET OTHSOFTPARA(Optional)
Reserved parameter 19 that is effective at the BSC level
NO
NO
SET OTHSOFTPARA(Optional)
Reserved parameter 20 that is effective at the BSC level
NO
NO
SET OTHSOFTPARA(Optional)
Reserved parameter 21 that is effective at the BSC level
NO
NO
SET OTHSOFTPARA(Optional)
Reserved parameter 22 that is effective at the BSC level
NO
NO
SET OTHSOFTPARA(Optional)
Reserved parameter 23 that is effective at the BSC level
NO
NO
SET OTHSOFTPARA(Optional)
Reserved parameter 24 that is effective at the BSC level
NO
NO
SET OTHSOFTPARA(Optional)
Reserved parameter 25 that is effective at the BSC level
NO
NO
SET OTHSOFTPARA(Optional)
Reserved parameter 26 that is effective at the BSC level
NO
NO
SET OTHSOFTPARA(Optional)
Reserved parameter 27 that is effective at the BSC level
NO
NO
SET OTHSOFTPARA(Optional)
Reserved parameter 28 that is effective at the BSC level
NO
NO
SET OTHSOFTPARA(Optional)
Reserved parameter 29 that is effective at the BSC level
NO
NO
SET OTHSOFTPARA(Optional)
Whether the BSC selects the TCHs on the link that reports an RAI alarm.
NO
NO
SET OTHSOFTPARA(Optional)
If this parameter is set to No, the BSC responds with an SAPI N'Reject message against the DL short message after hangup. NO
NO
SET OTHSOFTPARA(Optional)
When this parameter is set to Open, the BSS decides whether to hand over the current service to the 3G network according to the contents of the "Service Handover" information element in the ASS REQ and HO REQ messages.
NO
NO
SET OTHSOFTPARA(Optional)
When the Service Handover field in an ASS REQ message is 0, a direct retry process targeted at a 3G network is initiated. If the direct retry fails, the system decides whether to reassign channels for the current call based on this parameter. NO
NO
SET OTHSOFTPARA(Optional)
Maximum number of BTSs that are allowed to concurrently download software under a BSC
NO
NO
SET OTHSOFTPARA(Optional)
Whether the LAPD Jitter Buffer is enabled on the BSC side NO
NO
SET OTHSOFTPARA(Optional)
Whether to start the dynamic adjustment of the LAPD window. If this parameter is set to ALLOW, the LAPD transmit and receive window is enlarged when the delay is increased, which improves the transmission efficiency of LAPD but consuming more buffer resources in the memory of the LAPD. NO
NO
SET OTHSOFTPARA(Optional)
Period of information exchange between the BSC boards. The information helps to estimate the C/I ratio for the IBCA algorithm.
NO
NO
SET OTHSOFTPARA(Optional)
Specifies a period during which the inter-BSC information exchange must be completed. The information is mainly used by IBCA for C/I ratio estimation.
NO
NO
SET OTHSOFTPARA(Optional) SET OTHSOFTPARA(Optional)
If this parameter is set to ON, the channel on a single frequency of an MA group is allocated to an MS with the non-FH attribute. NO If the load balance between a 2G cell and a 3G cell is greater than the threshold, load balance is triggered. NO
NO
NO
SET OTHSOFTPARA(Optional)
This parameter specifies the detecting time of Abis-Bypass site OML when it is broken.
NO
NO
SET OTHSOFTPARA(Optional)
Whether to allow high-priority calls to preempt the radio resources of low-priority calls when radio resources are insufficient.
NO
NO
SET OTHSOFTPARA(Optional)
Whether to allow calls to queue for radio resources when radio resources are insufficient. NO
NO
SET OTHSOFTPARA(Optional)
Whether to allow the call during an intra-BSC emergency handover to preempt the radio resources of low-priority calls in the target cell.This parameter is valid only when Preemption Allowed is set to Yes.
NO
NO
SET OTHSOFTPARA(Optional)
Whether to allow the service during an intra-BSC emergency handover to queue for radio resources in the target cell.This parameter is valid only when Queue Allowed is set to Yes. NO
NO
SET OTHSOFTPARA(Optional)
Whether to allow the eMLPP priorities to be classified into two types: high priority and normal priority. If this parameter is set to YES, then during the resource preemption, the priorities of all the services are compared, and the resources are assigned to the services with a higher priority. If this parameter is set to NO, then during the resource preemption, all the services with an eMLPP priority greater than 2 are considered to have the same priority, and the resources are assigned equally. NO
NO
SET OTHSOFTPARA(Optional)
This parameter specifies whether to preempt PDCHs when no TCH is available during the handover of the preempted call. When this parameter is set to Yes, the call drop rate of the preempted call is decreased, but the rate of PS services is affected.
NO
NO
SET OTHSOFTPARA(Optional)
This parameter specifies whether the MS with priority level 1 directly releases the preempted call. When this parameter is set to Yes, the access delay of MSs with high priorities is ensured and the access rate of MSs with high priorities is increased, but the preempted call drops.
NO
NO
SET OTHSOFTPARA(Optional)
This parameter specifies whether the preempted call is released after the handover failure. If this parameter is set to No, MSs with high priorities can access the network preferentially, but the preempted call drops; if this parameter is set to Yes, the preempted call is not released. In this case, the access requests from MSs with high priorities initiate the queuing procedure or the calls fail. Therefore, the access rate of MS with high priorities is decreased. NO
NO
SET OTHSOFTPARA(Optional)
Whether the CN or the BSC determines the ratio of users distributed in the network of each operator. The value CNSEL indicates that the CN determines the ratio of users distributed in the network of each operator. The value BSCSEL indicates that the BSC determines the ratio of users distributed in the network of each operator according to the configuration data. The value CLOSE indicates that the MOCN function is disabled. NO
NO
SET OTHSOFTPARA(Optional)
Condition in which the BSC reselects a network of another operator for the MS when the MS fails to register with the network specified by the BSC. The value UNSUREOP indicates that the BSC reselects a network of another operator for the MS when the BSC fails to determine the operator of the MS according to the configuration data. The value ALL indicates that the BSC unconditionally reselects a network for the MS. NO
NO
SET OTHSOFTPARA(Optional)
When the "Handover Between Operators Allow" parameter is set to "Yes",this parameter specifies whether the CS services are applicable to the cells in the operator neighboring cell list.This function is mutually exclusive to IBCA dynamic measurement and Enhanced Measurement Report (EMR). That is, when this parameter is set to "Yes",disable IBCA dynamic measurement and EMR. NO
NO
SET OTHSOFTPARA(Optional)
When the Handover Between Operators Allow parameter is set to Yes, this parameter specifies whether the CS services are applicable to the cells in the operator neighboring cell list. NO
NO
SET OTHSOFTPARA(Optional)
This parameter specifies whether to enable IMSIbased handover. NO
NO
SET OTHSOFTPARA(Optional)
Whether to enable the TC performance measurement function.If this parameter is set to YES, a 37 kbit/s signaling bandwidth is required to transmit the TC performance measurement result. In the BM/TC separated configuration mode, it is recommended that whether to enable the TC performance measurement function depends on the signaling bandwidth on the Ater interface. NO
NO
SET OTHSOFTPARA(Optional)
This parameter specifies whether to contain PREC to determine whether to allow a highpriority MS to preempt the radio resources that are allocated to a low-priority MS in the target cell during an Out BSC better cell handover .
NO
NO
SET OTHSOFTPARA(Optional)
This parameter specifies the period of IBCA flow control. NO
NO
SET OTHSOFTPARA(Optional)
This parameter specifies the maximum number of times that a channel can be evaluated within an IBCA flow control period.
NO
NO
SET OTHSOFTPARA(Optional)
None
NO
NO
SET OTHSOFTPARA(Optional)
This parameter specifies whether to enable the function of processing the downlink DTMF signaling of the user/control plane on the A interface.
NO
NO
SET OTHSOFTPARA(Optional)
This parameter indicates how a BSC allocates frequencies to each cell in a Cell Allocation (CA) list. When conditions are met, frequencies are allocated as much as possible. When this parameter is set to NO, the BSC allocates frequencies in a CA list in the original way. To be more precise, the BSC allocates only the frequencies in BCCH-compatible frequency bands and the SDCCH frequencies that are in different frequency bands from the BCCH frequency and participate in frequency hopping. When this parameter is set to YES, the BSC allocates frequencies in a CA list in the following ways: 1. If all frequencies in a cell meet the frequency encoding rules, then all the frequencies in the cell are allocated to MSs. 2. If frequencies in a cell do not meet the frequency encoding rules, then frequency allocation depends on whether there are the SDCCHs that are in different frequency bands from the BCCH and participate in frequency hopping. (1) If there are such SDCCHs in a cell, then the BSC allocates in a CA list all the frequencies in the MA group that these SDCCH frequencies belong to and all the frequencies in BCCHcompatible frequency bands. (2) If there are no such SDCCHs in a cell, then frequency allocation depends on whether all the frequencies in a BCCH-compatible frequency band meet the frequency encoding rules. (a) If yes, then the frequencies in a BCCHcompatible frequency band are allocated in a CA list. NO
NO
SET OTHSOFTPARA(Optional)
Whether to release or hand over an admitted call on a channel when the configured channel type is changed. When this parameter is set to YES and the setting of TCH Rate Adjust Allow is changed, the BSC may adjust a channel with configured type between half rate and full rate. When switchback is performed on the channel from the adjusted type to the configured type, the call on the channel is not released but forcibly handed over to another channel. If the handover fails, the call is released forcibly. At present, this parameter is used in the scenario in which the setting of TCH Rate Adjust Allow is changed. NO
NO
SET OTHSOFTPARA(Optional)
Threshold of a short-time call. When the duration of a call is lower than this threshold, the call is considered a short-time call. The value 0 indicates that the short-time call function is disabled. NO Whether to calculate the number of failed assignments when a CLR CMD message is received during assignment. NO
SET OTHSOFTPARA(Optional)
Whether to delay sending the HO CMD message to the MS. The delay in sending the HO CMD message to the MS can shorten the downlink mute duration during handover. NO
NO
SET OTHSOFTPARA(Optional)
Length of the timer set to delay sending a HO CMD message to the MS. Before the timer expires, the BSC cannot send a HO CMD to the MS. NO
NO
SET OTHSOFTPARA(Optional)
Whether to send the call speech version to the TC in advance. After the downlink network arrangement is complete and the speech version changes after handover, the speech version information is sent to the TC to shorten the mute duration during handover. NO
NO
RMV PATCH(Optional)
Operation type of the command.
NO
NO
RMV PATCH(Mandatory)
Type of the board
YES
YES
SET OTHSOFTPARA(Optional)
NO
NO
RMV PATCH(Optional)
Logical function type of the board TDM_Switching:TDM switching process GCP:All the GCP subsystems are configured as CPUS to act as the control plane processing subsystems for GSM BSC RGCP:Subsystem 0 of RGCP is configured as the MPU subsystem to act as the resource management subsystem. The other subsystems are configured as CPUS to act as the control plane processing subsystems for GSM BSC MCP: Mathematics Computing Process, which includes Interference Based Channel Allocation (IBCA) GTC:GSM BSC TC Process GPCU:GSM BSC PCU Process IP:GOUc/IP IP over GE Optical interface,GOUa/IP IP over GE Optical interface,PEUa/IP IP over E1/T1/J1 interface,FG2c/IP IP over FE/GE interface(not support GbIP),FG2a/IP IP over FE/GE interface,POUc/IP IP over channelized Optical STM-1/OC-3 interface,POUa/IP IP over channelized Optical STM-1/OC-3 interface,UOIa/IP IP over Unchannelized Optical STM-1/OC-3 interface FR:PEUa/FR Frame Relay over E1/T1/J1 interface HDLC:PEUa/HDLC Packet over E1/T1/J1 interface TDM:POUc/TDM channelized Optical STM1/OC-3 interface GbIP:FG2a/GbIP GSM BSC Gb IP interface Abis_TDM:EIUa/Abis_TDM E1/T1 circuit Interface for Abis,OIUa/Abis_TDM channelized Optical STM-1 Interface for Abis YES
NO
RMV PATCH(Optional)
Patch type
YES
NO
RMV PBE1T1(Mandatory) MOD PBE1T1(Mandatory) ADD PBE1T1(Mandatory)
This parameter indicates the subrack number.
NO
YES
RMV PBE1T1(Mandatory) MOD PBE1T1(Mandatory) ADD PBE1T1(Mandatory)
Number of the slot
NO
YES
RMV PBE1T1(Mandatory) MOD PBE1T1(Mandatory) ADD PBE1T1(Mandatory)
Port number of the E1/T1 of the Pb interface
MOD PBE1T1(Optional) ADD PBE1T1(Optional)
E1 transmission type of the Pb interface. The terrestrial transmission or satellite transmission can be selected. In the areas such as desert and lake where the terrestrial transmission is difficult, the satellite transmission can be used. NO
NO
MOD PBE1T1(Optional) ADD PBE1T1(Mandatory)
Start CIC of the E1/T1 of the Pb interface
NO
NO
MOD PBE1T1(Mandatory)
Operation mode
NO
YES
MOD PBE1T1(Mandatory)
Start timeslot number
NO
YES
MOD PBE1T1(Mandatory)
Number of the end timeslot
NO
YES
MOD PBE1T1(Mandatory) ADD PBE1T1(Optional)
Value ALLCIC indicates that all E1/T1 timeslots on the PB interface must be set with the start CIC. Value ALLNULL indicates that all E1/T1 timeslots on the PB interface can be set with the value NULL. NO
YES
MOD PBE1T1(Mandatory)
Timeslot number
NO
YES
MOD PBE1T1(Mandatory)
Timeslot number
NO
YES
ADD PBE1T1(Mandatory)
Port number of the E1/T1 of the Pb interface
NO
YES
ADD PBSL(Optional) MOD PBSL(Mandatory) RMV PBSL(Mandatory)
The Logical Index of PB signaling link
YES
NO
ADD PBSL(Mandatory)
Subrack number of board to which Pb signaling link belongs
NO
YES
NO
YES
ADD PBSL(Mandatory)
Slot number of board to which Pb signaling link belongs
NO
YES
ADD PBSL(Mandatory) MOD PBSL(Optional)
Port number of Pb signaling link
NO
YES
ADD PBSL(Mandatory) MOD PBSL(Optional)
Timeslot number of Pb signaling link
NO
YES
ADD PBSL(Optional) MOD PBSL(Optional)
Terminal endpoint ID of the Pb signaling link
NO
NO
ADD PBSL(Optional) MOD PBSL(Optional)
Congestion start threshold. If congestion start threshold is set to a large value, there will be a time lag in the congestion control and, the work of the signaling link gets deteriorated. The interval between congestion start threshold and congestion end threshold should not be too small. Otherwise, the work of the signaling link is unstable. The congestion control would start frequently. NO
NO
ADD PBSL(Optional) MOD PBSL(Optional)
Congestion end threshold. If the congestion end threshold is large, the congestion control ends earlier. As a result, the congestion control effect is poor. The work status of the Ater signaling link is deteriorated. NO
NO
ADD PCU(Mandatory) MOD PCU(Mandatory)
Name of the PCU
NO
YES
ADD PCU(Mandatory) MOD PCU(Mandatory) RMV PCU(Mandatory)
PCU number, identifying a unique PCU.
YES
YES
ADD PCU(Mandatory)
Name of the operator. This parameter uniquely identifies an operator.
NO
YES
SET PHBMAP(Mandatory)
This parameter indicates the subrack number.
YES
YES
SET PHBMAP(Mandatory)
Number of the slot
YES
YES
SET PHBMAP(Mandatory)
Value of the per-hop behavior (PHB)
YES
SET PHBMAP(Mandatory)
The DSCP is a field of the IP data packet. It is used to assign the differentiated service to the communication networks. The DSCP code is used to label each data packet on the network and allocate the corresponding service levels. In the same network environment, the larger the DSCP is, the higher the priority is. NO
YES
YES
ADD PORTFLOWCTRLPARA(Ma ndatory) RMV PORTFLOWCTRLPARA(Ma ndatory) Flow control parameter index
NO
YES
ADD PORTFLOWCTRLPARA(Ma ndatory) Port protocol type
NO
YES
ADD This parameter applies to the FG2a and GOUa PORTFLOWCTRLPARA(Opti boards. For the FG2c, GOUc, or POUc board, onal) this parameter is always set to 2.
NO
NO
ADD If the duration for buffering the data in queue 0 is PORTFLOWCTRLPARA(Opti more than or equals to the value of this onal) parameter, flow control is triggered. NO
NO
ADD If the duration for buffering the data in queue 0 is PORTFLOWCTRLPARA(Opti less than or equals to the value of this onal) parameter, flow control is canceled. NO
NO
If the duration for buffering the data in queue 0 is ADD more than or equals to the value of this PORTFLOWCTRLPARA(Opti parameter, the subsequent packets added to onal) queue 0 are discarded. NO
NO
ADD If the duration for buffering the data in queue 1 is PORTFLOWCTRLPARA(Opti more than or equals to the value of this onal) parameter, flow control is triggered. NO
NO
ADD If the duration for buffering the data in queue 1 is PORTFLOWCTRLPARA(Opti less than or equals to the value of this onal) parameter, flow control is canceled. NO
NO
If the duration for buffering the data in queue 1 is ADD more than or equals to the value of this PORTFLOWCTRLPARA(Opti parameter, the subsequent packets added to onal) queue 1 are discarded. NO
NO
ADD If the duration for buffering the data in queue 2 is PORTFLOWCTRLPARA(Opti more than or equals to the value of this onal) parameter, flow control is triggered. NO
NO
ADD If the duration for buffering the data in queue 2 is PORTFLOWCTRLPARA(Opti less than or equals to the value of this onal) parameter, flow control is canceled. NO
NO
If the duration for buffering the data in queue 2 is ADD more than or equals to the value of this PORTFLOWCTRLPARA(Opti parameter, the subsequent packets added to onal) queue 2 are discarded. NO
NO
ADD If the duration for buffering the data in queue 3 is PORTFLOWCTRLPARA(Opti more than or equals to or equals to the value of onal) this parameter, flow control is triggered. NO
NO
ADD If the duration for buffering the data in queue 3 is PORTFLOWCTRLPARA(Opti less than or equals to the value of this onal) parameter, flow control is canceled. NO
NO
If the duration for buffering the data in queue 3 is ADD more than or equals to the value of this PORTFLOWCTRLPARA(Opti parameter, the subsequent packets added to onal) queue 3 are discarded. NO
NO
ADD If the duration for buffering the data in queue 4 is PORTFLOWCTRLPARA(Opti more than or equals to the value of this onal) parameter, flow control is triggered. NO
NO
ADD If the duration for buffering the data in queue 4 is PORTFLOWCTRLPARA(Opti less than or equals to the value of this onal) parameter, flow control is canceled. NO
NO
If the duration for buffering the data in queue 4 is ADD more than or equals to the value of this PORTFLOWCTRLPARA(Opti parameter, the subsequent packets added to onal) queue 4 are discarded. NO
NO
ADD If the duration for buffering the data in queue 5 is PORTFLOWCTRLPARA(Opti more than or equals to the value of this onal) parameter, flow control is triggered. NO
NO
ADD If the duration for buffering the data in queue 5 is PORTFLOWCTRLPARA(Opti less than or equals to the value of this onal) parameter, flow control is canceled. NO
NO
If the duration for buffering the data in queue 5 is more than or equals to the value of this parameter, the subsequent packets added to queue 5 are discarded. NO
NO
Number of the subrack
YES
YES
ADD PPPLNK(Mandatory) MOD PPPLNK(Mandatory) RMV PPPLNK(Mandatory)
Indicates the slot number for running this command
YES
YES
ADD PPPLNK(Mandatory) MOD PPPLNK(Mandatory)
Board type
NO
YES
ADD PPPLNK(Mandatory) MOD PPPLNK(Mandatory)
Logical function type
NO
YES
ADD PPPLNK(Optional) MOD PPPLNK(Optional) RMV PPPLNK(Mandatory)
PPP link number of BSC.
YES
NO
ADD PPPLNK(Optional) MOD PPPLNK(Optional)
Number of the E1T1 port for bearing the PPP link
NO
NO
ADD PORTFLOWCTRLPARA(Opti onal) ADD PPPLNK(Mandatory) MOD PPPLNK(Mandatory) RMV PPPLNK(Mandatory)
ADD PPPLNK(Mandatory) MOD PPPLNK(Optional)
Bearer E1/T1 port timeslot of PPP link.
NO
YES
ADD PPPLNK(Mandatory) MOD PPPLNK(Optional)
This parameter specifies whether to use the device IP address as the local IP address, or not. If this parameter is set to YES, the device IP address is used as the local IP address. If this parameter is set to NO, the device IP address is not used as the local IP address. NO
YES
ADD PPPLNK(Mandatory) MOD PPPLNK(Mandatory)
Local IP address of PPP link. The IP address of the PPP link on the BSC side. NO
YES
ADD PPPLNK(Mandatory) MOD PPPLNK(Mandatory)
Borrowed device IP address.
NO
YES
ADD PPPLNK(Mandatory) MOD PPPLNK(Optional)
Subnet mask of the PPP link
NO
YES
ADD PPPLNK(Mandatory) MOD PPPLNK(Optional)
Peer IP address of PPP link
NO
YES
ADD PPPLNK(Optional) MOD PPPLNK(Optional)
This parameter specifies whether to compress the packet headers, or not.
NO
NO
ADD PPPLNK(Optional) MOD PPPLNK(Optional)
Compression flag of the PPP link protocol domain
NO
NO
ADD PPPLNK(Optional) MOD PPPLNK(Optional)
This parameter specifies whether to compress the address and control fields, or not. If this parameter is set to ENABLE, both ends negotiate whether to compress the address and control fields. If this parameter is set to DISABLE, the address and control fields are not compressed. NO
NO
ADD PPPLNK(Optional)
This parameter specifies whether to enable the PPP frame multiplexing function, or not.If this parameter is set to ENABLE, the PPP frame multiplexing function is enabled. If this parameter is set to DISABLE, the PPP frame multiplexing function is disabled. NO
NO
ADD PPPLNK(Optional) MOD PPPLNK(Optional)
Maximum PPPMUX sub-frame length. If the PPP frame length is larger than this value, the PPPMUX multiplexing is performed. The value of this parameter cannot be larger than the maximum multiplexed frame length wMuxMfl. To enable the PPPMUX, the number of sub-frames must be more than or equal to 2. The following condition must be met: wMuxMaxSfL <= ( wMuxMfl-8 )/2 NO
NO
ADD PPPLNK(Optional) MOD PPPLNK(Optional)
The value of this parameter cannot be less than the maximum PPPMUX sub-frame length (MUXMAXSFL). This parameter can be associated with the maximum segment length of the MP to control whether to segment the multiplexed MP. To enable the PPPMUX, the number of sub-frames must be more than or equal to 2. The following condition must be met: wMuxMaxSfL <= ( wMuxMfl-8 )/2. NO
NO
ADD PPPLNK(Optional)
Maximum time waiting for multiplexing
NO
NO
ADD PPPLNK(Optional) MOD PPPLNK(Optional)
Type of validation protocol for the PPP or MLPPP link negotiation.
NO
NO
ADD PPPLNK(Mandatory) MOD PPPLNK(Optional)
Validation mode upon PPP or MLPPP link negotiation.
NO
YES
ADD PPPLNK(Mandatory) MOD PPPLNK(Optional)
Username to validate, for the PPP or MLPPP link negotiation.
NO
YES
ADD PPPLNK(Mandatory) MOD PPPLNK(Optional)
Password to validate, upon PPP or MLPPP link negotiation.
NO
YES
ADD PPPLNK(Optional) MOD PPPLNK(Optional)
Duration of the PPP/MLPPP link restart timer.
NO
NO
ADD PPPLNK(Optional) MOD PPPLNK(Optional)
Duration of the PPP/MLPPP link keep-alive timer.
NO
NO
ADD PPPLNK(Optional) MOD PPPLNK(Optional)
Link flow control switch
NO
NO
ADD PPPLNK(Optional) MOD PPPLNK(Optional)
Minimum guarantee bandwidth of the OAM stream
NO
NO
ADD PPPLNK(Optional) MOD PPPLNK(Mandatory)
Flow control parameter index
NO
NO
ADD PPPLNK(Optional) MOD PPPLNK(Optional)
CRC verification mode of PPP link.
NO
NO
ADD PPPLNK(Optional) MOD PPPLNK(Optional)
TRM load threshold index
NO
NO
ADD PPPLNK(Optional) MOD PPPLNK(Optional)
Error-frame detect switch
NO
NO
ADD PPPLNK(Optional) MOD PPPLNK(Optional)
Error-frame alarm threshold
NO
NO
MOD PPPLNK(Optional)
This parameter specifies whether to enable the PPP frame multiplexing function, or not.If this parameter is set to ENABLE, the PPP frame multiplexing function is enabled. If this parameter is set to DISABLE, the PPP frame multiplexing function is disabled. NO
NO
MOD PPPLNK(Optional)
Maximum time waiting for multiplexing
NO
NO
SET PPPSELFLOOP(Mandatory)
Number of the subrack
NO
YES
SET PPPSELFLOOP(Mandatory)
Indicates the slot number for running this command
NO
YES
SET PPPSELFLOOP(Mandatory)
PPP/MPGRP link type
NO
YES
SET PPPSELFLOOP(Mandatory)
MLPPP group number.
NO
YES
PPP link number of BSC.
NO
YES
Loop type.
NO
YES
SET PPPSELFLOOP(Mandatory) SET PPPSELFLOOP(Mandatory)
SET PPPSELFLOOP(Mandatory)
It specifies the test duration.
NO
YES
NO
YES
SET Subscribers can specify the cell according to the PSCELLTODSP(Mandatory) index or the name. NO
YES
SET Index of a cell, uniquely identifying a cell in a PSCELLTODSP(Mandatory) BSC.
NO
YES
Name of a cell. This parameter uniquely identifies a cell in a BSC. Cell names cannot contain the following invalid characters: ,;="' In addition, cell names cannot contain two or SET more consecutive %, two or more consecutive PSCELLTODSP(Mandatory) spaces, or more than two consecutive +.
NO
YES
SET PSCELLTODSP(Mandatory) Number of the subrack
NO
YES
SET PSCELLTODSP(Mandatory) Number of the slot
NO
YES
NO
YES
SET Index type, supporting the index based on the PSCELLTODSP(Mandatory) cell and BSC mode.
SET PSCELLTODSP(Mandatory) SET PSPREFABISCONGCTRL(O ptional) SET PSPREFABISCONGCTRL(O ptional) SET PSPREFABISCONGCTRL(O ptional) SET PSPREFABISCONGCTRL(O ptional) SET PSPREFABISCONGCTRL(O ptional) SET PSPREFABISCONGCTRL(O ptional)
Target DSP number
CS original call service priority of a PS preferred call NO
NO
CS terminated call service priority of a PS preferred call
NO
NO
CS emergency call service priority of a PS preferred call
NO
NO
VBS service priority of a PS preferred call
NO
NO
VGCS service priority of a PS preferred call
NO
NO
Supplement service priority of a PS preferred call NO
NO
SET PSPREFABISCONGCTRL(O ptional) SET PSPREFABISCONGCTRL(O ptional) SET PSPREFABISCONGCTRL(O ptional) SET PSPREFABISCONGCTRL(O ptional) SET PSPREFABISCONGCTRL(O ptional)
Reestablish service priority of a PS preferred call NO
NO
BSC intra handover service priority of a PS preferred call
NO
NO
BSC handover service priority of a PS preferred call NO
NO
PS service priority of a PS preferred call
NO
NO
Other service priority of a PS preferred call
NO
NO
ADD PTPBVC(Mandatory) RMV PTPBVC(Mandatory)
Identifies a unique NSE
YES
YES
ADD PTPBVC(Mandatory) RMV PTPBVC(Mandatory)
Identifies a unique PTP BVC with NSE
YES
YES
ADD PTPBVC(Mandatory)
Subscribers can specify the cell according to the index or the name. NO
YES
ADD PTPBVC(Mandatory)
Index of a cell, uniquely identifying a cell in a BSC.
NO
YES
ADD PTPBVC(Mandatory)
Name of a cell. This parameter uniquely identifies a cell in a BSC. Cell names cannot contain the following invalid characters: ,;="' In addition, cell names cannot contain two or more consecutive %, two or more consecutive spaces, or more than two consecutive +.
NO
YES
SET PWDPOLICY(Optional) Minimum length of the user password.
NO
NO
SET PWDPOLICY(Optional) Complexity of the password.
NO
NO
Maximum number of retries when the user logs SET PWDPOLICY(Optional) in.
NO
NO
Duration of time after which the locked user is SET PWDPOLICY(Optional) unlocked automatically.
NO
NO
NO
NO
NO
NO
SET PWDPOLICY(Optional) Expire Prompt Dates.
NO
NO
SET PWDPOLICY(Optional) Maximum History Password Numbers.
NO
NO
SET PWRALMSW(Mandatory)
YES
YES
Interval for resetting the counter when the user SET PWDPOLICY(Optional) fails to log in. Interval between the date when the password takes effect and the date when the password SET PWDPOLICY(Optional) expires.
Number of the subrack
First alarm switch of power distribution SET PWRALMSW(Optional) monitoring board
NO
NO
Second alarm switch of power distribution SET PWRALMSW(Optional) monitoring board
NO
NO
SET PWRPARA(Mandatory) Number of the subrack
YES
YES
SET PWRPARA(Optional)
Upper limit of input voltage 1
NO
NO
SET PWRPARA(Optional)
Lower limit of input voltage 1
NO
NO
SET PWRPARA(Optional)
Upper limit of input voltage 2
NO
NO
SET PWRPARA(Optional)
Lower limit of input voltage 2
NO
NO
SET PWRPARA(Optional)
Upper limit of input voltage 3
NO
NO
SET PWRPARA(Optional)
Lower limit of input voltage 3
NO
NO
SET PWRPARA(Optional)
Upper limit of input voltage 4
NO
NO
SET PWRPARA(Optional)
Lower limit of input voltage 4
NO
NO
SET PWRPARA(Optional)
Upper limit of input voltage 5
NO
NO
SET PWRPARA(Optional)
Lower limit of input voltage 5
NO
NO
SET PWRPARA(Optional)
Upper limit of input voltage 6
NO
NO
SET PWRPARA(Optional)
Lower limit of input voltage 6
NO
NO
SET QUEUEMAP(Mandatory)
Number of the subrack
YES
YES
SET QUEUEMAP(Mandatory)
Indicates the slot number for running this command
YES
YES
SET QUEUEMAP(Optional)
Minimum DSCP of queue 0. The IP packets with DSCP in a relation that "Min DSCP of queue 0" <= DSCP <= 63 is added to queue 0. YES
NO
SET QUEUEMAP(Optional)
Minimum DSCP of queue 1. The IP packets with DSCP in a relation that "Min DSCP of queue 1" <= DSCP < "Min DSCP of queue 0" is added to queue 1. YES
NO
SET QUEUEMAP(Optional)
Minimum DSCP of queue 2. The IP packets with DSCP in a relation that "Min DSCP of queue 2" <= DSCP < "Min DSCP of queue 1" is added to queue 2. YES
NO
SET QUEUEMAP(Optional)
Minimum DSCP of queue 3. The IP packets with DSCP in a relation that "Min DSCP of queue 3" <= DSCP < "Min DSCP of queue 2" is added to queue 3. YES
NO
SET QUEUEMAP(Optional)
Minimum DSCP of queue 4. The IP packets with DSCP in a relation that "Min DSCP of queue 4" <= DSCP < "Min DSCP of queue 3" is added to queue 4. The IP packets with DSCP in a relation that 0 <= DSCP < "Min DSCP of queue 4" is added to queue 5. YES
NO
SET QUEUEMAP(Optional)
Minimum guarantee bandwidth switch of the OAM stream
SET QUEUEMAP(Mandatory)
DSCP value of the OAM stream. The data of the OAM stream are not added to queues 0 to 5 for transmission. Instead, the data of the OAM stream is added to the dedicated queue. YES
YES
NO
YES
SET QUICKCFG(Mandatory) Configuration mode
NO
YES
ADD RDRTCAUSE(Mandatory) MOD RDRTCAUSE(Mandatory) RMV RDRTCAUSE(Mandatory)
The cause value of re-routing.
YES
YES
ADD RDRTCAUSE(Mandatory) MOD RDRTCAUSE(Mandatory)
The index of re-route cause values, When all the operators in a cell reject the access of an MS, the cause value with the highest index is sent to the MS. NO
YES
RMV ROLLBACKPOINT(Mandator y) Rollback type
NO
YES
RMV ROLLBACKPOINT(Mandator y) ADD ROLLBACKPOINT(Mandator y) Name of the rollback point
NO
YES
ADD ROLLBACKPOINT(Optional) Description of the rollback point
NO
NO
ADD RSCGRP(Mandatory) MOD RSCGRP(Mandatory) RMV RSCGRP(Mandatory)
This parameter indicates the subrack number.
YES
YES
ADD RSCGRP(Mandatory) MOD RSCGRP(Mandatory) RMV RSCGRP(Mandatory)
Slot number of the MPU Subsystem for the centralized management of the resources
YES
YES
ADD RSCGRP(Mandatory) MOD RSCGRP(Mandatory) RMV RSCGRP(Mandatory)
Transport resource group number
YES
YES
ADD RSCGRP(Mandatory) MOD RSCGRP(Optional)
Type of the transport resource group
NO
YES
ADD RSCGRP(Mandatory)
Whether to indicate the first class transport resource group
NO
YES
ADD RSCGRP(Mandatory)
Upper class transport resource group No. It is valid only when " Is First Class Transport Resource Group " is set to NO.
NO
YES
ADD RSCGRP(Mandatory)
The parameter indicates whether the resource group is shared or is used by a specific telecom carrier.
NO
YES
ADD RSCGRP(Mandatory) MOD RSCGRP(Optional)
Bandwidth mode
NO
YES
ADD RSCGRP(Mandatory) MOD RSCGRP(Optional)
Transmit bandwidth
NO
YES
ADD RSCGRP(Mandatory) MOD RSCGRP(Optional)
Receive bandwidth
NO
YES
ADD RSCGRP(Mandatory) MOD RSCGRP(Optional)
Specifies the bandwidth occupied when the " transmission resource group type " is IP and the " bandwidth mode " is HALF_DUPLEX. NO
YES
ADD RSCGRP(Optional)
TRM load threshold index
NO
NO
MOD RSCGRP(Optional)
TRM load threshold index. The TRM load threshold must be configured (see "ADD TRMLOADTH").
NO
NO
SET SCCPTMR(Optional)
This timer is started after a connection is established successfully. When this timer expires, a detection message will be sent to the peer end.
NO
NO
SET SCCPTMR(Optional)
This timer is started after a connection is established successfully. If a detection message is not received when this timer expires, the connection will be released. NO
NO
ADD SCHTSK(Mandatory) RMV SCHTSK(Optional)
Name of the scheduled task.
NO
YES
SET SCHTSKSW(Optional)
Name of the scheduled task.
NO
NO
SET SCHTSKSW(Mandatory)
Status of the scheduled task. This parameter determines whether to start the scheduled task.
NO
YES
ADD SCTPLNK(Mandatory) MOD SCTPLNK(Mandatory) RMV SCTPLNK(Mandatory)
Number of the subrack where the XPU board is located
YES
YES
ADD SCTPLNK(Mandatory) MOD SCTPLNK(Mandatory) RMV SCTPLNK(Mandatory)
Number of the slot where the XPU board is located
YES
YES
ADD SCTPLNK(Mandatory) MOD SCTPLNK(Mandatory) RMV SCTPLNK(Mandatory)
Specifies the SCTP link number for the XPU board. This number uniquely identifies an SCTP link. YES
YES
ADD SCTPLNK(Mandatory) MOD SCTPLNK(Optional)
SCTP link work mode. Server mode: BSC starts the listening and waits for the peer to send the SCTP-INIT message. Client mode: BSC actively sends the SCTP-INIT message. NO
YES
ADD SCTPLNK(Mandatory)
Upper layer application type of the SCTP link. The upper layer application type of A and LB interface is M3UA. In the BSC disaster tolerance, the application type is BBAP in the case of the communication between the primary and secondary BSC. NO
YES
ADD SCTPLNK(Optional) MOD SCTPLNK(Optional)
The DSCP is a field of the IP data packet. It is used to assign the differentiated service to the communication networks. The DSCP code is used to label each data packet on the network and allocate the corresponding service levels. In the same network environment, the larger the DSCP is, the higher the priority is. NO
NO
ADD SCTPLNK(Mandatory) MOD SCTPLNK(Mandatory)
Specifies the local port number of an SCTP link. NO
YES
ADD SCTPLNK(Mandatory) MOD SCTPLNK(Optional)
Identifies the first local IP address that communicates with the peer end. When it is set to 0, it is invalid. This IP address must be first configured on the corresponding interface board. NO
YES
ADD SCTPLNK(Optional) MOD SCTPLNK(Optional)
Identifies the second local IP address that communicates with the peer end. When it is set to 0, it is invalid. This IP address must be first configured on the corresponding interface board. NO
NO
ADD SCTPLNK(Mandatory) MOD SCTPLNK(Optional)
First destination IP address. The invalid value is 0. NO
YES
ADD SCTPLNK(Optional) MOD SCTPLNK(Optional)
Second destination IP address. The invalid value is 0. NO
NO
ADD SCTPLNK(Mandatory) MOD SCTPLNK(Optional)
Destination SCTP port number
YES
NO
ADD SCTPLNK(Mandatory) MOD SCTPLNK(Optional)
Whether the SCTP is bound to a logical port. For details, see "ADD IPLOGICPORT". NO
YES
ADD SCTPLNK(Mandatory) MOD SCTPLNK(Mandatory)
Logical port slot No. bound by the SCTP. For details, see the parameter "Slot No." of the "ADD IPLOGICPORT". NO
YES
ADD SCTPLNK(Mandatory) MOD SCTPLNK(Mandatory)
Logical port No. bound by the SCTP. For details, see the parameter "Logic port No." of the "ADD IPLOGICPORT". NO
YES
ADD SCTPLNK(Optional) MOD SCTPLNK(Optional)
When the "RTOMAX" parameter is set to a fixed value, the larger the value is, the longer the check of the link is. NO
NO
ADD SCTPLNK(Optional) MOD SCTPLNK(Optional)
When the "RTOMIN" parameter is set to a fixed value, the larger the value is, the longer the check of the link is.
NO
NO
ADD SCTPLNK(Optional) MOD SCTPLNK(Optional)
When the "RTOMIN" and "RTPMAX" parameters are set to fixed values, the larger the value is, the longer the check of the link is. NO
NO
ADD SCTPLNK(Optional) MOD SCTPLNK(Optional)
It is used to calculate the round-trip time of the protocol stack and the RTO value. The value must be smaller than "RTOBETA". In the case of the fixed value of the "RTOBETA", the larger the value is, the less the link delay sensitivity is. NO
NO
ADD SCTPLNK(Optional) MOD SCTPLNK(Optional)
It is used to calculate the round-trip time of the protocol stack and the RTO value. The value must be greater than "RTOALPHA". In the case of the fixed value of the "RTOALPHA", the larger the value is, the less the link delay sensitivity is. NO
NO
ADD SCTPLNK(Optional)
Heartbeat interval when the SCTP server is idle
NO
NO
ADD SCTPLNK(Optional)
If the number of the association retransmissions exceeds this value, the parameter is deleted automatically. The value must be greater than Path max retrans. NO
NO
ADD SCTPLNK(Optional)
If the number of the path retransmissions exceeds this value, the parameter is deleted automatically. The value must be smaller than Association max retrans.
NO
NO
ADD SCTPLNK(Optional) MOD SCTPLNK(Optional)
Whether to perform checksum when sending message
NO
NO
ADD SCTPLNK(Optional) MOD SCTPLNK(Optional)
Whether to perform checksum when receiving message
NO
NO
ADD SCTPLNK(Optional) MOD SCTPLNK(Optional)
Checksum arithmetic type. According to the RFC4960, the ALDER32 algorithm is not applicable to the SCTP checksum. The CRC32 is recommended.
NO
NO
ADD SCTPLNK(Optional) MOD SCTPLNK(Optional)
Maximum transport unit
NO
NO
ADD SCTPLNK(Optional) MOD SCTPLNK(Optional)
VLANID flag of first local IP address
NO
NO
ADD SCTPLNK(Mandatory) MOD SCTPLNK(Mandatory)
VLAN ID of first Local IP address
NO
YES
ADD SCTPLNK(Optional) MOD SCTPLNK(Optional)
VLANID Flag of second Local IP address
NO
NO
ADD SCTPLNK(Mandatory) MOD SCTPLNK(Mandatory)
VLAN ID of second Local IP address
NO
YES
ADD SCTPLNK(Optional) MOD SCTPLNK(Optional)
The field indicates whether the cross-connect path is available. When the cross-path is available, a maximum of four IP paths exists. The four IP paths are the IP path between the first local IP address and the first peer IP address, the IP path between the first local IP address and the second peer IP address, the IP path between the second local IP address and the first peer IP address, and the IP path between the second local IP address and the second peer IP address. When the cross-path is unavailable, a maximum of two IP paths exists. The two IP paths are the IP path between the first local IP address and the first peer IP address and the IP path between the second local IP address and the second peer IP address. NO
NO
ADD SCTPLNK(Optional) MOD SCTPLNK(Optional)
The field indicates whether the primary path can be switched back when it is available. NO
NO
ADD SCTPLNK(Optional) MOD SCTPLNK(Mandatory)
The association is smoothly switched over to the primary path after the number of heartbeat responses is received. NO
NO
ADD SCTPLNK(Optional) MOD SCTPLNK(Optional)
Whether to enable the data binding function
NO
NO
MOD SCTPLNK(Optional)
Heartbeat interval when the SCTP server is idle. NO
NO
MOD SCTPLNK(Optional)
If the number of the association retransmissions exceeds this value, the parameter is deleted automatically. The value must be greater than Path max retrans. NO
NO
MOD SCTPLNK(Optional)
If the number of the path retransmissions exceeds this value, the parameter is deleted automatically. The value must be smaller than Association max retrans.
NO
NO
SET SCTPSRVPORT(Optional)
Number of the NBAP service listening port
NO
NO
SET SCTPSRVPORT(Optional)
Number of the M3UA service listening port
NO
NO
SET SCTPSRVPORT(Optional)
Number of the BBAP service listening port
NO
NO
SET SCUPORT(Mandatory)
Number of the subrack
YES
YES
SET SCUPORT(Optional)
Number of the slot. This parameter needs to be set when the SCUa and SCUb boards are installed in the same subrack. YES
NO
SET SCUPORT(Optional)
Number of the port
YES
NO
SET SCUPORT(Mandatory)
State of the panel port switch
NO
YES
MOD SEMILINK(Mandatory) RMV SEMILINK(Mandatory) ADD SEMILINK(Mandatory)
Index of the semipermanent link
NO
YES
MOD SEMILINK(Mandatory)
Specifies the application type of semilink
NO
YES
MOD SEMILINK(Optional) ADD SEMILINK(Optional)
Rate of the semipermanent link
NO
NO
MOD SEMILINK(Optional) ADD SEMILINK(Mandatory)
ID of the BSC at the other end of the link. In nonTC pool scenario, this parameter specifies the ID of the primary BSC. In TC pool scenario, this parameter specifies the ID of the BSC that is at the other end of the link. NO
NO
MOD SEMILINK(Optional) ADD SEMILINK(Mandatory)
Index of an Ater connection path
NO
NO
MOD SEMILINK(Mandatory) ADD SEMILINK(Mandatory)
Incoming BSC subrack number
NO
YES
MOD SEMILINK(Mandatory) ADD SEMILINK(Mandatory)
Incoming BSC slot number
NO
YES
MOD SEMILINK(Mandatory) ADD SEMILINK(Mandatory)
Incoming BSC port number
NO
YES
MOD SEMILINK(Mandatory) ADD SEMILINK(Mandatory)
Incoming BSC start timeslot number
NO
YES
MOD SEMILINK(Optional) ADD SEMILINK(Optional)
Specifies the timeslot mask in BSC
NO
NO
MOD SEMILINK(Mandatory) ADD SEMILINK(Mandatory)
Outgoing BSC subrack number
NO
YES
MOD SEMILINK(Mandatory) ADD SEMILINK(Mandatory)
Outgoing BSC slot number
NO
YES
MOD SEMILINK(Mandatory) ADD SEMILINK(Mandatory)
Outgoing BSC port number
NO
YES
MOD SEMILINK(Mandatory) ADD SEMILINK(Mandatory)
Outgoing BSC start timeslot number
NO
YES
MOD SEMILINK(Optional) ADD SEMILINK(Optional)
Specifies the timeslot mask out BSC
NO
NO
ADD SEMILINK(Mandatory)
Application type of the semi-permanent link
NO
YES
ADD SEMILINK(Mandatory)
Whether to configure the Ater OML link used for the TC subrack for the port. If it is actually configured and you specify that it is not configured, the TC subrack fails to start. If it is not configured and you specify that it is already configured, crosstalk occurs on the timeslot over the port. NO
YES
ADD SGSN(Mandatory) MOD SGSN(Mandatory) RMV SGSN(Mandatory)
Name of the SGSN
YES
YES
ADD SGSN(Mandatory) MOD SGSN(Optional)
First IP address of the SGSN
NO
YES
ADD SGSN(Optional) MOD SGSN(Optional)
Second IP address of the SGSN
NO
NO
ADD SGSN(Optional) MOD SGSN(Optional)
Third IP address of the SGSN
NO
NO
ADD SGSN(Optional) MOD SGSN(Optional)
Fourth IP address of the SGSN
NO
NO
ADD SGSNNODE(Mandatory) MOD SGSNNODE(Mandatory) RMV SGSNNODE(Mandatory)
Name of the operator. This parameter uniquely identifies an operator.
YES
YES
ADD SGSNNODE(Mandatory) MOD SGSNNODE(Mandatory) RMV SGSNNODE(Mandatory)
Uniquely identifies a node of SGSN, with the specified operator name
YES
YES
Administrative state of the SGSN. The value "ALLOW" indicates that the SGSN can handle the PS services normally. The value "UNISTALL" indicates that the SGSN does not permit new PS services to access the network and the ongoing ADD SGSNNODE(Optional) PS services are not affected. The value "DENY" MOD SGSNNODE(Optional) indicates that the SGSN denies all PS services. NO
NO
ADD SGSNNODE(Optional) MOD SGSNNODE(Optional) Available capacity of the SGSN
NO
NO
ADD SGSNROUTEINFO(Mandato ry) MOD SGSNROUTEINFO(Mandato ry) RMV SGSNROUTEINFO(Mandato ry) Identifies a router uniquely
YES
YES
ADD SGSNROUTEINFO(Mandato ry) MOD SGSNROUTEINFO(Optional) IP address of the router
NO
YES
ADD SGSNROUTEINFO(Mandato ry) Router port number. The setting of this MOD parameter must be consistent with the setting at SGSNROUTEINFO(Optional) the SGSN side. NO
YES
ADD SGSNROUTEINFO(Mandato ry) Identifies the local port of the router. The setting MOD of this parameter must be consistent with the SGSNROUTEINFO(Optional) setting at the SGSN side. NO
YES
ADD SHA(Mandatory) MOD SHA(Mandatory) RMV SHA(Mandatory)
The code of a handover sharing area. It is used to identify a handover sharing area. SHAC is unique within a BSC. An SHAC belongs to only one operator.
YES
YES
ADD SHA(Mandatory) MOD SHA(Optional)
Name of the operator. This parameter uniquely identifies an operator.
NO
YES
ADD SHA(Mandatory) MOD SHA(Optional)
The description of a handover sharing area.
NO
YES
ADD SHALAMAP(Mandatory) MOD SHALAMAP(Mandatory) RMV A record that identifies the mapping between the SHALAMAP(Mandatory) handover sharing area and the location area. YES The code of a handover sharing area. It is used to identify a handover sharing area. SHAC is ADD SHALAMAP(Mandatory) unique within a BSC. An SHAC belongs to only MOD SHALAMAP(Optional) one operator. NO Mobile country code. This parameter identifies ADD SHALAMAP(Mandatory) the country where a mobile subscriber is located, MOD SHALAMAP(Optional) for example, the Chinese MCC is 460. NO
YES
YES
YES
Mobile network code. This parameter identifies ADD SHALAMAP(Mandatory) the public land mobile network (PLMN) to which MOD SHALAMAP(Optional) a mobile subscriber belongs. NO
YES
Location area code (LAC). MS can freely move in the local location area with no need of location update. Reasonable local allocation can effectively lighten the signaling load and improve the call completion rate. Can be input in hexadecimal format. The ADD SHALAMAP(Mandatory) hexadecimal format is H'****, for example, MOD SHALAMAP(Optional) H'1214. NO
YES
SET SLFSLVSW(Mandatory) Switch for the OMU self-healing
YES
NO
SET SLFSLVSW(Optional)
Switch for the self-healing of the OMU processes NO
NO
SET SLFSLVSW(Optional)
Switch for the self-healing of the OMU when the OMU process memory is overloaded. NO
NO
SET SLFSLVSW(Optional)
Self-healing switch for the Ethernet adapter traffic monitoring.
NO
NO
TST SNDRSI(Mandatory)
Support the index based on the TLLI and IMSI mode
NO
YES
TST SNDRSI(Mandatory)
Temporary logical link ID in the decimal format
NO
YES
TST SNDRSI(Mandatory)
International mobile subscriber identity of the MS. IMSI containing the number 0 to 9.
NO
YES
TST SNDRSI(Mandatory)
Reason for activating the radio status procedure NO
YES
SET Synchronization period of the SNTP client SNTPCLTPARA(Mandatory) service
NO
YES
ADD SNTPSRVINFO(Mandatory)
NO
YES
Number of the port that provides the time information on the SNTP server
ADD SRA(Mandatory) RMV SRA(Mandatory) MOD SRA(Mandatory)
A routing sharing area consists of multiple location areas. The rate of the routing between a subscriber and an operator is the same as the rate of IMSI segment. YES
YES
ADD SRA(Mandatory) MOD SRA(Mandatory)
Description of the routing sharing area.
NO
YES
YES
YES
ADD SRALAMAP(Mandatory) MOD SRALAMAP(Mandatory) RMV A record that identifies the relationship between SRALAMAP(Mandatory) the routing sharing area and the location area.
A routing sharing area consists of multiple location areas. The rate of the routing between a ADD SRALAMAP(Mandatory) subscriber and an operator is the same as the MOD SRALAMAP(Optional) rate of IMSI segment. NO Mobile country code. This parameter identifies ADD SRALAMAP(Mandatory) the country where a mobile subscriber is located, MOD SRALAMAP(Optional) for example, the Chinese MCC is 460. NO Mobile network code. This parameter identifies ADD SRALAMAP(Mandatory) the public land mobile network (PLMN) to which MOD SRALAMAP(Optional) a mobile subscriber belongs. NO Location area code (LAC). MS can freely move in the local location area with no need of location update. Reasonable local allocation can effectively lighten the signaling load and improve the call completion rate. Can be input in hexadecimal format. The ADD SRALAMAP(Mandatory) hexadecimal format is H'****, for example, MOD SRALAMAP(Optional) H'1214. NO
YES
YES
YES
YES
ADD SRCONPATH(Mandatory) MOD SRCONPATH(Optional)
Number of the subrack at one end of the intersubrack connection channel
NO
YES
ADD SRCONPATH(Mandatory) MOD SRCONPATH(Optional)
Number of the subrack at the other end of the inter-subrack connection channel
NO
YES
ADD SRCONPATH(Mandatory) MOD SRCONPATH(Optional)
Each subrack has six TDM port numbers, ranging from 0 to 5. Subrack 1 TDM Port No. refers to the TDM port number on subrack 1 of the inter-subrack connection..
NO
YES
ADD SRCONPATH(Mandatory) MOD SRCONPATH(Optional)
Each subrack has six TDM numbers, ranging from 0 to 5. Subrack 2 TDM Port No. refers to the TDM number on subrack 2 of the intersubrack connection.
NO
YES
YES
NO
ADD SRCONPATH(Optional) MOD SRCONPATH(Mandatory) RMV Indicates the index of the inter-subrack SRCONPATH(Mandatory) connection path
SET SS7PATCHSWITCH(Optiona l) Set patch switch parameter1
NO
NO
SET SS7PATCHSWITCH(Optiona l) Set patch switch parameter2
NO
NO
SET SS7PATCHSWITCH(Optiona l) Set patch switch parameter3
NO
NO
SET SS7PATCHSWITCH(Optiona l) Set patch switch parameter4
NO
NO
SET SS7PATCHSWITCH(Optiona l) Set patch switch parameter5
NO
NO
SET SS7PATCHSWITCH(Optiona l) Set patch switch parameter6
NO
NO
SET SS7PATCHSWITCH(Optiona l) Set patch switch parameter7
NO
NO
SET SS7PATCHSWITCH(Optiona l) Set patch switch parameter8
NO
NO
SET SS7PATCHSWITCH(Optiona l) Set patch switch parameter9
NO
NO
SET SS7PATCHSWITCH(Optiona l) Set patch switch parameter10
NO
NO
SET SSLAUTHMODE(Mandatory) SSL authentication mode of the peer certificate
NO
YES
ADD SUBCMD(Optional) RMV SUBCMD(Optional)
Name of the scheduled task.
NO
NO
ADD SUBCMD(Mandatory) RMV SUBCMD(Mandatory)
Number of the scheduled subtask
NO
YES
ADD SUBCMD(Mandatory)
Command string of the scheduled subtask. This command can be only a service command, and the system command cannot be added to the scheduled subtask. NO
YES
ADD SUBCMD(Mandatory) RMV SUBCMD(Mandatory)
Sequence number of the command string of the scheduled subtask. NO
YES
SET SUBNET(Mandatory)
Subnet Number in a BSC
NO
YES
ADD SUBRACK(Mandatory) MOD SUBRACK(Optional)
Name of the subrack to be added
NO
YES
ADD SUBRACK(Optional) MOD SUBRACK(Optional)
Whether to connect the power monitoring board NO
NO
ADD SUBRACK(Mandatory)
Type of the subrack
NO
YES
ADD SUBRACK(Optional)
Whether the subrack is a remote main TC subrack
NO
NO
ADD SUBRACK(Mandatory)
Work mode of subrack
NO
YES
ADD SUBRACK(Optional)
Type of SCU Board
NO
NO
ADD SUBRACK(Optional) MOD SUBRACK(Optional)
Whether the subrack is a secondary main subrack. The secondary main subrack is of two types, namely, local secondary main subrack and remote secondary main subrack. The local secondary main subrack forwards the OM signals between the MPS(Main Processing Subrack) and other local subracks, The remote secondary main subrack forwards the OM signals between the remote main subrack and other remote subracks.
NO
NO
YES
YES
MOD SUBRACK(Mandatory) Number of the subrack
ADD SUBTSK(Optional) RMV SUBTSK(Optional) MOD SUBTSK(Optional) ADD SUBTSK(Mandatory) RMV SUBTSK(Mandatory) MOD SUBTSK(Mandatory)
ADD SUBTSK(Optional)
Name of the scheduled task.
NO
NO
Number of the scheduled subtask
NO
YES
Status of the scheduled subtask to be added
NO
NO
ADD SUBTSK(Mandatory) MOD SUBTSK(Optional)
Command string of the scheduled subtask. This command can be only a service command, and the system command cannot be added to the scheduled subtask.requirements, you can set NO Based on different different time points for the scheduled task. Seven time modes are available: 1. ONTIME: When this parameter is set to "ONTIME", the command is executed once only at the specified time point. 2. DAILY_T: When this parameter is set to "DAILY_T", the command is executed every day. You can also set up to five time points for executing the command in the day. The default execution interval is one day. 3. DAILY_C: When this parameter is set to "DAILY_C", the command is executed every day. You can set the start time and end time in the day in which the command is executed. You can also set the time interval for executing the command in the day. The default execution interval is one day and the default time interval is 30 minutes. 4. WEEKLY_T: When this parameter is set to "WEEKLY_T", the command is executed every week. You can set the day in which the command is executed. You can also set up to five time points for executing the command in the day. The default execution interval is one week. 5. WEEKLY_C: When this parameter is set to "WEEKLY_C", the command is executed every week. You can set the day in which the command is executed. You can also set the start time and end time in the day in which the command is executed, and set the time interval for executing the command in the day. The default execution interval is one week and the default time interval is 30 minutes. NO
ADD SUBTSK(Mandatory)
Date when the scheduled task is started
ADD SUBTSK(Mandatory)
NO
YES
YES
YES
ADD SUBTSK(Optional)
Date when the scheduled task is stopped
NO
NO
ADD SUBTSK(Optional)
Interval for executing the scheduled subtask The unit is determined according to the time mode. 1. If the time mode is set to "DAILY_T" or "DAILY_C", the unit is day. 2. If the time mode is set to "WEEKLY_T" or "WEEKLY_C", the unit is week. 3. If the time mode is set to "MONTHLY_T" or "MONTHLY_C", the unit is month.
NO
NO
ADD SUBTSK(Mandatory) MOD SUBTSK(Mandatory)
Day in the month on which the command can be executed. NO
YES
ADD SUBTSK(Mandatory) MOD SUBTSK(Mandatory)
Day in the week on which the command can be executed.
NO
YES
ADD SUBTSK(Mandatory)
If the time mode is set to "DAILY_T", "WEEKLY_T", or "MONTHLY_T", you should set this parameter. This parameter specifies the first execution time in the day in which the scheduled task is executed. NO
YES
ADD SUBTSK(Optional)
If the time mode is set to "DAILY_T", "WEEKLY_T", or "MONTHLY_T", you should set this parameter. This parameter specifies the second execution time in the day in which the scheduled task is executed. NO
NO
ADD SUBTSK(Optional)
If the time mode is set to "DAILY_T", "WEEKLY_T", or "MONTHLY_T", you should set this parameter. This parameter specifies the third execution time in the day in which the scheduled task is executed. NO
NO
ADD SUBTSK(Optional)
If the time mode is set to "DAILY_T", "WEEKLY_T", or "MONTHLY_T", you should set this parameter. This parameter specifies the fourth execution time in the day in which the scheduled task is executed. NO
NO
ADD SUBTSK(Optional)
If the time mode is set to "DAILY_T", "WEEKLY_T", or "MONTHLY_T", you should set this parameter. This parameter specifies the fifth execution time in the day in which the scheduled task is executed. NO
NO
ADD SUBTSK(Mandatory)
If the time mode is set to "DAILY_T", "WEEKLY_T", or "MONTHLY_T", you should set this parameter. NO
YES
ADD SUBTSK(Mandatory)
Time when the scheduled subtask is stopped. If the time mode is set to "DAILY_T", "WEEKLY_T", or "MONTHLY_T", you should set this parameter. NO
YES
ADD SUBTSK(Optional)
Interval for executing the scheduled subtask. If the time mode is set to "DAILY_C", "WEEKLY_C", or "MONTHLY_C", you should set this parameter.
NO
NO
ADD SUBTSK(Mandatory)
When the time mode is set to "ONTIME", you should set this parameter.
NO
YES
MOD SUBTSK(Optional)
Status of the scheduled subtask to be modified
NO
NO
MOD SUBTSK(Mandatory)
Date when the scheduled task is started
NO
YES
MOD SUBTSK(Optional)
Date when the scheduled task is stopped
NO
NO
MOD SUBTSK(Optional)
Interval for executing the scheduled subtask The unit is determined according to the time mode. 1. If the time mode is set to "DAILY_T" or "DAILY_C", the unit is day. 2. If the time mode is set to "WEEKLY_T" or "WEEKLY_C", the unit is week. 3. If the time mode is set to "MONTHLY_T" or "MONTHLY_C", the unit is month.
NO
NO
MOD SUBTSK(Optional)
If the time mode is set to "DAILY_T", "WEEKLY_T", or "MONTHLY_T", you should set this parameter. This parameter specifies the first execution time in the day in which the scheduled task is executed. NO
NO
MOD SUBTSK(Optional)
If the time mode is set to "DAILY_T", "WEEKLY_T", or "MONTHLY_T", you should set this parameter. This parameter specifies the second execution time in the day in which the scheduled task is executed. NO
NO
MOD SUBTSK(Optional)
If the time mode is set to "DAILY_T", "WEEKLY_T", or "MONTHLY_T", you should set this parameter. This parameter specifies the third execution time in the day in which the scheduled task is executed. NO
NO
MOD SUBTSK(Optional)
If the time mode is set to "DAILY_T", "WEEKLY_T", or "MONTHLY_T", you should set this parameter. This parameter specifies the fourth execution time in the day in which the scheduled task is executed. NO
NO
MOD SUBTSK(Optional)
If the time mode is set to "DAILY_T", "WEEKLY_T", or "MONTHLY_T", you should set this parameter. This parameter specifies the fifth execution time in the day in which the scheduled task is executed. NO
NO
MOD SUBTSK(Mandatory)
If the time mode is set to "DAILY_T", "WEEKLY_T", or "MONTHLY_T", you should set this parameter. NO
YES
MOD SUBTSK(Mandatory)
Time when the scheduled subtask is stopped. If the time mode is set to "DAILY_T", "WEEKLY_T", or "MONTHLY_T", you should set this parameter. NO
YES
MOD SUBTSK(Optional)
Interval for executing the scheduled subtask. If the time mode is set to "DAILY_C", "WEEKLY_C", or "MONTHLY_C", you should set this parameter.
NO
NO
MOD SUBTSK(Mandatory)
When the time mode is set to "ONTIME", you should set this parameter.
NO
YES
SET SYS(Optional)
Description of the Base Station Controller
NO
NO
SET SYS(Optional)
Name of the Base Station Controller of Network Element
NO
NO
SET SYS(Optional)
Contact way of the Base Station Controller supplier
NO
NO
SET SYS(Optional)
Location of the Base Station Controller
NO
NO
SET SYS(Optional)
Services provided by the Base Station Controller NO
NO
SET TCPARA(Mandatory)
Subrack number. Subrack number is used to uniquely identify a subrack. GSM services are mainly carried on the XPUa, XPUb, XPUi, and DPU boards. You can specify the subrack number to query the information about the specific board.
YES
YES
SET TCPARA(Mandatory)
Slot number. Subrack number and slot number uniquely identify a board. GSM services are mainly carried on the XPUa, XPUb, XPUi, and DPU boards. You can specify the slot number to query theofinformation about the specific YES Number a DSP in the DPU board. Theboard.
YES
SET TCPARA(Optional)
number of a DSP in the DPUf board ranges from 0 to 47. The number of a DSP in theDPUa/DPUb/DPUc board ranges from 0 to 21. YES
NO
SET TCPARA(Optional)
SET TCPARA(Optional)
G711 Mode. A/U law configuration, 0-A law (default), 1-U law. NO This parameter indicates the idle code of the A interface. It is used for the interconnection of the A interfaces. NO
NO
NO
SET TCPARA(Optional)
This parameter indicates whether the acoustic echo cancellation (AEC) functional switch is on or off.
NO
NO
SET TCPARA(Optional)
Extra delay due to the transmission line. This parameter should be set according to the actual conditions and is applicable to satellite transmission. NO
NO
SET TCPARA(Optional)
Delay range in which the BSC searches for echo and performs echo suppression. If the actual delay is greater than the value of this parameter, the BSC does not search for echo or perform echo suppression. NO
NO
SET TCPARA(Optional)
Loss range in which the BSC searches for echo and performs echo suppression. If the actual loss is less than the value of this parameter, the BSC does not search for echo or perform echo suppression. NO
NO
SET TCPARA(Optional)
Whether to enable the adaptive noise restrain (ANR) function.
NO
NO
SET TCPARA(Optional)
This parameter indicates the switch of noise suppression algorithm. Mode 0: Baseline version of VQE 1.0. Mode 1: optimized version of VQE 2.0 or VQE 3.0. Compared with the baseline version, the optimized version has enhancements in terms of convergence time, music recognition capability, and noise adaptability. NO
NO
SET TCPARA(Optional)
Relative mode: The noise level is attenuated by a specified power level. The target noise level changes with the specified power level. Absolute mode: The input noise level is restricted to the specified target noise level. The target noise level does not change with the input noise level. Users can select a preferred mode. Note: This parameter has a correlation with the parameter Noise Suppression Level. If this parameter is set to relative mode, the parameter Noise Suppression Level can be set only to a value that is allowed in relative mode. NO
NO
SET TCPARA(Optional)
This parameter corresponds to the noise attenuation mode. In relative mode, this parameter corresponds to the attenuated value of the input noise level. In absolute mode, this parameter corresponds to the target noise level. Note: This parameter has a correlation with the parameter Noise Attenuation Mode. If the parameter Noise Attenuation Mode is set to relative mode, this parameter can be set only to a value that is allowed in relative mode. NO
NO
SET TCPARA(Optional)
Transparent transmission threshold of noise level. In a PESQ test scenario where noise does not exist, signals are transparently transmitted. This prevents the ANR function from deteriorating signal quality. NO
NO
SET TCPARA(Optional)
Whether to enable the adaptive level control (ALC) function.
NO
NO
SET TCPARA(Optional)
ALC level control mode.
NO
NO
SET TCPARA(Optional)
This parameter indicates maximum target level in adaptive ALC mode.
NO
NO
SET TCPARA(Optional)
This parameter indicates minimum target level in adaptive ALC mode. NO
NO
SET TCPARA(Optional)
This parameter indicates target level in fixed level mode.
NO
NO
SET TCPARA(Optional)
This parameter indicates fixed gain in fixed gain mode. Note: If this parameter is set to a too great value (greater than 6) or a too small value (smaller than -6), speech quality may deteriorate. NO
NO
SET TCPARA(Optional)
This parameter restrains the maximum gain to the input signal. It is valid only when "ALC Mode" is "FIXEDLEVEL" or "ADAPTIVE". If the parameter is set to a small value, it may affect the conformance to the target level. NO
NO
SET TCPARA(Optional)
Whether to enable the adaptive noise cancel (ANC) function. NO The system adjusts the remote input so that the ratio of the remote signal to the local noise is above the value of this parameter. NO
SET TCPARA(Optional)
This parameter indicates maximum gain to the signals from the remote end. If the parameter is set to a small value, the target SNR may be restrained when the signal arrives at the local end.
NO
NO
SET TCPARA(Optional)
Whether to enable the anti-clip (ACLP) function. NO
NO
SET TCPARA(Optional)
Time limit for restraining the noise level.
NO
NO
SET TCPARA(Optional)
TFO option switch. Acoustic Echo Cancellation (AEC) is an important way to improve speech quality. If AEC works for a consecutive time that is longer than a threshold, the TFO function needs to be disabled to provide a better speech quality. NO
NO
SET TCPARA(Optional)
This parameter indicates time for detecting the AEC(Acoustic Echo Control) performance.
NO
NO
SET TCPARA(Optional)
This parameter indicates threshold for detecting the AEC performance. NO
NO
SET TCPARA(Optional)
NO
NO
SET TCPARA(Optional)
Whether to enable the enhanced packet loss concealment (EPLC) function.
NO
NO
SET TCPARA(Optional)
Whether to enable the memory self-check and self-healing function.
NO
NO
SET TCPARA(Optional)
Whether to discard the first CMR frame of FAMR services. This switch is used to avoid noises because the rate of the first CMR frame is different from the rates of the speech frames of the current call. NO
NO
SET TCPARA(Optional)
Whether to use the 8+8k mode to establish TFO for half-rate AMR services. By default, this parameter is set to ON. If this parameter is set to OFF, half-rate AMR services are converted into full-rate AMR services and the 16k mode is used to establish TFO. NO
NO
SET TCPARA(Optional)
Whether to reduce the downlink traffic of FR voice services in Abis over IP or Abis HDLC mode. If this parameter is set to ON, the downlink DTX efficiency of FR services is improved, and the downlink traffic of FR services is reduced. NO
NO
SET TCPARA(Optional)
Whether to limit the amplitude of the uplink background noise.
NO
NO
SET TCPARA(Optional)
Whether the BM subrack needs to wait for a synchronization response message from the TC subrack. If this parameter is set to ON, the synchronization over the Ater interface for the 14.4 kbit/s data service is more reliable. The mandatory synchronization, however, may cause frame loss. Therefore, this parameter is set to ON only when the synchronization over the Ater interface is not reliable. NO
NO
SET TCPARA(Optional)
Whether a GSM HR frame contains the Toc field in A over IP. The purpose is to enable the BSC to be compatible with the old and new UMG processing methods. If this parameter is set to ON, the BSC initially sends a 15-byte HR frame (containing the Toc field) to the UMG. Later, if the BSC receives a 14byte HR frame (not containing the Toc field), it automatically adjusts subsequent HR frames to be sent to 14 bytes (not containing the Toc field). Otherwise, the BSC sends 15-byte HR frames. If the value of this parameter is set to OFF, the BSC sends only 14-byte HR frames (not containing the Toc field). NO
NO
SET TCPLYVOICE(Mandatory)
Subrack number. Subrack number is used to uniquely identify a subrack. GSM services are mainly carried on the XPUa, XPUb, XPUi, and DPU boards. You can specify the subrack number to query the information about the specific board.
YES
YES
SET TCPLYVOICE(Mandatory)
Slot number. Subrack number and slot number uniquely identify a board. GSM services are mainly carried on the XPUa, XPUb, XPUi, and DPU boards. You can specify the slot number to query theofinformation about the specific YES Number a DSP in the DPU board. Theboard.
YES
SET TCPLYVOICE(Mandatory)
number of a DSP in the DPUf board ranges from 0 to 47. The number of a DSP in theDPUa/DPUb/DPUc board ranges from 0 to 21. YES
YES
SET TCPLYVOICE(Mandatory)
Whether to enable sound playing
NO
YES
SET TCPLYVOICE(Mandatory)
Timeslot for playing sound
NO
YES
SET TCPLYVOICE(Mandatory)
Point at which to play sound
NO
YES
NO
NO
Duration of sound playing. If this parameter is set to 0, the sound is played repeatedly. If this parameter exceeds the duration of the record file, the void sound is played for the exceeding SET TCPLYVOICE(Optional) part.
SET TCTYPE(Mandatory)
Subrack number. Subrack number is used to uniquely identify a subrack. GSM services are mainly carried on the XPUa, XPUb, XPUi, and DPU boards. You can specify the subrack number to query the information about the specific board.
YES
YES
SET TCTYPE(Mandatory)
Slot number. Subrack number and slot number uniquely identify a board. GSM services are mainly carried on the XPUa, XPUb, XPUi, and DPU boards. You can specify the slot number to query theofinformation about the specific YES Number a DSP in the DPU board. Theboard.
YES
SET TCTYPE(Optional)
number of a DSP in the DPUf board ranges from 0 to 47. The number of a DSP in theDPUa/DPUb/DPUc board ranges from 0 to 21. YES
NO
The type of TC resource GTC: TC resources that support normal voice coding/decoding and packet conversion UTC: TC resources that support only the optimized handover on the Iur-g interface ITC: TC resources that support only packet conversion
NO
YES
TGW ID
YES
YES
SET TCTYPE(Mandatory) ADD TGWIP(Mandatory) MOD TGWIP(Mandatory) RMV TGWIP(Mandatory)
ADD TGWIP(Mandatory) MOD TGWIP(Optional)
This parameter indicates the address of the operation and maintenance console for TGW.
NO
YES
ADD TGWIP(Mandatory) MOD TGWIP(Optional)
This parameter indicates the mask of the operation and maintenance console for TGW.
NO
YES
ADD TGWIP(Mandatory) MOD TGWIP(Optional)
Subrack number of the BSC interface board interworking with TGW
NO
YES
ADD TGWIP(Mandatory) MOD TGWIP(Optional)
Slot number of the BSC interface board interworking with TGW
NO
YES
SET TIME(Optional)
Date
NO
NO
NO
NO
YES
YES
YES
NO
SET TIME(Optional) Time SET TRANSPATCHPARA(Mandat ory) Number of the subrack
SET TRANSPATCHPARA(Option al) Parameter 1 reserved for future use.
SET TRANSPATCHPARA(Option al) Parameter 2 reserved for future use.
YES
NO
SET TRANSPATCHPARA(Option al) Parameter 3 reserved for future use.
YES
NO
SET TRANSPATCHPARA(Option al) Parameter 4 reserved for future use.
YES
NO
SET TRANSPATCHPARA(Option al) Parameter 5 reserved for future use.
YES
NO
SET TRANSPATCHPARA(Option al) Parameter 6 reserved for future use.
YES
NO
SET TRANSPATCHPARA(Option al) Parameter 7 reserved for future use.
YES
NO
SET TRANSPATCHPARA(Option al) Parameter 8 reserved for future use.
YES
NO
SET TRANSPATCHPARA(Option al) Parameter 9 reserved for future use.
YES
NO
SET TRANSPATCHPARA(Option al) Parameter 10 reserved for future use.
YES
NO
SET TRANSPATCHPARA(Option al) Parameter 11 reserved for future use.
YES
NO
SET TRANSPATCHPARA(Option al) Parameter 12 reserved for future use.
YES
NO
SET TRANSPATCHPARA(Option al) Parameter 13 reserved for future use.
YES
NO
SET TRANSPATCHPARA(Option al) Parameter 14 reserved for future use.
YES
NO
SET TRANSPATCHPARA(Option al) Parameter 15 reserved for future use.
YES
NO
Activation factor table index
YES
YES
This parameter indicates the remark.
NO
YES
ADD TRMFACTOR(Mandatory) MOD TRMFACTOR(Mandatory) RMV TRMFACTOR(Mandatory) ADD TRMFACTOR(Mandatory) MOD TRMFACTOR(Optional)
ADD TRMFACTOR(Optional) MOD TRMFACTOR(Optional) GSM CS voice service downlink factor
NO
NO
ADD TRMFACTOR(Optional) MOD TRMFACTOR(Optional) GSM CS voice service uplink factor
NO
NO
ADD TRMFACTOR(Optional) MOD TRMFACTOR(Optional) GSM CS data service downlink factor
NO
NO
ADD TRMFACTOR(Optional) MOD TRMFACTOR(Optional) GSM CS data service uplink factor
NO
NO
ADD TRMFACTOR(Optional) MOD TRMFACTOR(Optional) GSM PS data service downlink factor
NO
NO
ADD TRMFACTOR(Optional) MOD TRMFACTOR(Optional) GSM PS data service uplink factor
NO
NO
ADD TRMLOADTH(Mandatory) RMV TRMLOADTH(Mandatory)
TRM load threshold index. It is the unique ID of the load threshold.
YES
YES
ADD TRMLOADTH(Mandatory)
Transport type
NO
YES
ADD TRMLOADTH(Mandatory)
Load balance threshold type. It indicates the threshold calculation mode.
NO
YES
NO
NO
ADD TRMLOADTH(Optional) Reserved forward bandwidth for handover user
Reserved backward bandwidth for handover ADD TRMLOADTH(Optional) user
NO
NO
If the available forward bandwidth is less than or equal to this value, the forward congestion alarm is emitted and forward congestion control is ADD TRMLOADTH(Optional) triggered. NO
NO
If the available backward bandwidth is less than or equal to this value, the backward congestion alarm is emitted and backward congestion ADD TRMLOADTH(Optional) control is triggered. NO
NO
If the available forward bandwidth is greater than this value, the forward congestion alarm is cleared and forward congestion control is ADD TRMLOADTH(Optional) stopped. NO
NO
If the available backward bandwidth is greater than this value, the backward congestion alarm is cleared and backward congestion control is ADD TRMLOADTH(Optional) stopped.
NO
NO
If the available forward bandwidth is less than or equal to this value, the forward overload congestion alarm is emitted and forward ADD TRMLOADTH(Optional) overload control is triggered. NO
NO
If the available backward bandwidth is less than or equal to this value, the backward overload congestion alarm is emitted and backward ADD TRMLOADTH(Optional) overload control is triggered. NO
NO
If the available forward bandwidth is greater than this value, the forward overload congestion alarm is cleared and forward overload control is ADD TRMLOADTH(Optional) stopped. NO
NO
If the available backward bandwidth is greater than this value, the backward overload congestion alarm is cleared and backward ADD TRMLOADTH(Optional) overload control is stopped.
NO
NO
Ratio of reserved forward bandwidth for ADD TRMLOADTH(Optional) handover user
NO
NO
Ratio of reserved backward bandwidth for ADD TRMLOADTH(Optional) handover user
NO
NO
If the ratio of available forward bandwidth is less than or equal to this value, the forward congestion alarm is emitted and forward ADD TRMLOADTH(Optional) congestion control is triggered. NO
NO
If the ratio of available backward bandwidth is less than or equal to this value, the backward congestion alarm is emitted and backward ADD TRMLOADTH(Optional) congestion control is triggered.
NO
NO
If the ratio of available forward bandwidth is greater than this value, the forward congestion alarm is cleared and forward congestion control ADD TRMLOADTH(Optional) is stopped.
NO
NO
If the ratio of available backward bandwidth is greater than this value, the backward congestion alarm is cleared and backward congestion ADD TRMLOADTH(Optional) control is stopped. NO
NO
If the ratio of available forward bandwidth is less than or equal to this value, the forward overload congestion alarm is emitted and forward ADD TRMLOADTH(Optional) overload control is triggered. NO
NO
If the ratio of available backward bandwidth is less than or equal to this value, the backward overload congestion alarm is emitted and ADD TRMLOADTH(Optional) backward overload control is triggered.
NO
NO
If the ratio of available forward bandwidth is greater than this value, the forward overload congestion alarm is cleared and forward ADD TRMLOADTH(Optional) overload control is stopped.
NO
NO
If the ratio of available backward bandwidth is greater than this value, the backward overload congestion alarm is cleared and backward ADD TRMLOADTH(Optional) overload control is stopped.
NO
NO
If the ratio of available TDM bandwidth is less than or equal to this value, congestion control is ADD TRMLOADTH(Optional) triggered.
NO
NO
If the ratio of available TDM bandwidth is greater ADD TRMLOADTH(Optional) than this value, congestion control is stopped. NO
NO
Ratio of bandwidth occupied by the CS service in ADD TRMLOADTH(Optional) the GSM NO
NO
ADD TRMMAP(Mandatory) MOD TRMMAP(Mandatory) RMV TRMMAP(Mandatory)
This parameter indicates the TRMMAP index.
YES
YES
ADD TRMMAP(Optional) MOD TRMMAP(Optional)
This parameter indicates the remark.
NO
NO
ADD TRMMAP(Mandatory) MOD TRMMAP(Mandatory)
This parameter indicates the type of the adjacent node. NO
YES
ADD TRMMAP(Optional) MOD TRMMAP(Optional)
This parameter indicates the transport type.
NO
NO
ADD TRMMAP(Optional) MOD TRMMAP(Optional)
This parameter indicates the CS voice path.
NO
NO
ADD TRMMAP(Optional) MOD TRMMAP(Optional)
This parameter indicates the CS data path.
NO
NO
ADD TRMMAP(Optional) MOD TRMMAP(Optional)
This parameter indicates the PS high PRI data path.
NO
NO
ADD TRMMAP(Optional) MOD TRMMAP(Optional)
This parameter indicates the PS low PRI data path.
NO
NO
ADD TRMMAP(Optional) MOD TRMMAP(Optional)
This parameter indicates the CS voice priority.
NO
NO
ADD TRMMAP(Optional) MOD TRMMAP(Optional)
This parameter indicates the CS data priority.
NO
NO
ADD TRMMAP(Optional) MOD TRMMAP(Optional)
This parameter indicates the PS high PRI data priority.
NO
NO
ADD TRMMAP(Optional) MOD TRMMAP(Optional)
This parameter indicates the PS low PRI data priority.
NO
NO
ADD TRXBIND2PHYBRD(Mandat ory) RMV TRXBIND2PHYBRD(Mandat Index of a TRX, uniquely identifying a TRX in a ory) BSC.
YES
YES
ADD TRXBIND2PHYBRD(Mandat ory) Type of the TRX board bound to the TRX
NO
YES
Number of the channel bound to the TRX on the TRX board. TRX Pass No. of the DTRU/DRRU/BTS3900B of the BTS in separate mode must be 0 or 1; TRX Pass No. of the QTRU/MRRU/MRFU/GRFU/BTS3900E of the ADD BTS in separate mode must be 0 to 5; TRX Pass TRXBIND2PHYBRD(Mandat No. of the GRRU of the BTS in separate mode ory) should in 0 to 7. NO
YES
ADD TRXBIND2PHYBRD(Mandat ory) Index type of the RXU
NO
YES
Number of the cabinet.
NO
NO
Number of the subrack where the BTS board is located
NO
YES
Number of the slot where the BTS board is located
NO
YES
ADD TRXBIND2PHYBRD(Mandat ory) Name of the RXU
NO
YES
ADD TRXBIND2PHYBRD(Mandat Number of the RXU chain to which the RXU ory) belongs
NO
YES
ADD TRXBIND2PHYBRD(Mandat ory) Position number of the RXU on the RXU chain
NO
YES
ADD TRXBIND2PHYBRD(Mandat Number of the antenna feeder channel mapped ory) to the RXU
NO
YES
ADD TSCROSS(Mandatory) RMV TSCROSS(Mandatory) Number of the subrack
YES
YES
ADD TSCROSS(Mandatory) Indicates the slot number for running this RMV TSCROSS(Mandatory) command
YES
YES
ADD TRXBIND2PHYBRD(Optional ) ADD TRXBIND2PHYBRD(Mandat ory) ADD TRXBIND2PHYBRD(Mandat ory)
ADD TSCROSS(Mandatory)
Source of timeslot cross
NO
YES
ADD TSCROSS(Mandatory)
Source timeslot mask
NO
YES
ADD TSCROSS(Mandatory)
Destination of the timeslot cross connection
NO
YES
ADD TSCROSS(Mandatory)
Target timeslot mask
ADD TSCROSS(Optional) RMV TSCROSS(Mandatory) Timeslot cross index
NO
YES
YES
NO
SET TZ(Optional)
Time zone
NO
NO
SET TZ(Optional)
Whether daylight saving time has to be used
NO
NO
SET TZ(Mandatory)
Type of the start date. "WEEK" indicates that the start date is a weekday. "DATE" indicates that the start date is a month day. "DATEWEEK" indicates the start date is expressed by a combination of weekday and month day. NO
YES
SET TZ(Mandatory)
Month in which DST starts
NO
YES
SET TZ(Mandatory)
Start date of the daylight saving time (DST)
NO
YES
SET TZ(Mandatory)
Sequence of the start week of DST
NO
YES
SET TZ(Mandatory)
Weekday on which DST starts
NO
YES
SET TZ(Mandatory)
Time to start DST. Note that the time set in this parameter is not a DST.
NO
YES
SET TZ(Mandatory)
Type of the end date. "WEEK" indicates that the end date is a weekday. "DATE" indicates that the end date is a month day. "DATEWEEK" indicates the end date is expressed by a combination of weekday and month day. NO
YES
SET TZ(Mandatory)
Month on which DST ends
YES
NO
SET TZ(Mandatory)
End date of the daylight saving time
NO
YES
SET TZ(Mandatory)
Sequence of the end week of DST
NO
YES
SET TZ(Mandatory)
Weekday on which DST ends
NO
YES
SET TZ(Mandatory)
Time to stop DST. Note that the time set in this parameter is a DST.
NO
YES
SET TZ(Mandatory)
Offset to DST, namely, the adjustment to time.
NO
YES
Support the index based on the TLLI and IMSI TST UPDMSRAC(Mandatory) mode
NO
YES
TST UPDMSRAC(Mandatory) Temporary logical link ID in the decimal format
NO
YES
International mobile subscriber identity of the TST UPDMSRAC(Mandatory) MS. IMSI containing the number 0 to 9.
NO
YES
ADD USRCAT(Mandatory) RMV USRCAT(Mandatory)
This parameter identifies a subscriber category in an MOCN-enabled cell. The rate of a category of subscriber corresponds to the rate of a group of routing. YES
YES
ADD USRCAT(Mandatory)
Name of the operator. This parameter uniquely identifies an operator.
NO
YES
ADD USRCAT(Mandatory)
Rate of routing of operator 1.
NO
YES
ADD USRCAT(Optional)
Name of the operator. This parameter uniquely identifies an operator.
NO
NO
ADD USRCAT(Optional)
Rate of routing of operator 2.
NO
NO
ADD USRCAT(Optional)
Name of the operator. This parameter uniquely identifies an operator.
NO
NO
ADD USRCAT(Optional)
Rate of routing of operator 3.
NO
NO
ADD VLANID(Mandatory) RMV VLANID(Mandatory)
Number of the subrack
YES
YES
ADD VLANID(Mandatory) RMV VLANID(Mandatory)
Indicates the slot number for running this command
YES
YES
ADD VLANID(Mandatory) RMV VLANID(Mandatory)
IP address of the next hop
YES
YES
ADD VLANID(Mandatory)
VLANID of the IP address of the specified next hop
NO
YES
SET XPUPORT(Mandatory)
Number of the subrack
YES
YES
SET XPUPORT(Mandatory)
Number of the slot Port No. of the XPU board. If you do not specify this parameter, all ports of the XPU board are queried.
YES
YES
YES
NO
Whether to enable the panel port of the XPU board
NO
YES
Number of the subrack
YES
YES
Number of the slot
YES
YES
Number of the subsystem
YES
YES
MOD XPUVLAN(Optional) ADD XPUVLAN(Mandatory)
MAC address of the VLAN
NO
NO
MOD XPUVLAN(Optional) ADD XPUVLAN(Mandatory)
IP address
NO
NO
MOD XPUVLAN(Optional) ADD XPUVLAN(Mandatory)
IP address mask of the VLAN
NO
NO
SET XPUPORT(Optional)
SET XPUPORT(Mandatory) MOD XPUVLAN(Mandatory) ADD XPUVLAN(Mandatory) RMV XPUVLAN(Mandatory) MOD XPUVLAN(Mandatory) ADD XPUVLAN(Mandatory) RMV XPUVLAN(Mandatory) MOD XPUVLAN(Mandatory) ADD XPUVLAN(Mandatory) RMV XPUVLAN(Mandatory)
Feature ID
Feature Name
Value Type
GUI Value Range
Actual Value Range
MRFD210301
Configuration Management
Interval Type 1~11
1~11
None
None
Interval Type 0~11
0~11
GBFD111203
O&M of BSC
Interval Type 0~27
0~27
GBFD111203
O&M of BSC
Interval Type 0~27
0~27
GBFD111203
O&M of BSC
Interval Type 0~27
0~27
GBFD118601 GBFD118602 GBFD118605 GBFD118611 GBFD118622
GBFD118605
Abis over IP A over IP IP QOS Abis IP over E1/T1 A IP over E1/T1 Interval Type 0~4599 0~4599 ABIS(Abis Interface), A(A Interface), ATER(ATER Interface), Enumeration IUR_G(IUR_G IP QOS Type Interface) ABIS, A, ATER, IUR_G
None
None
Interval Type 0~163
0~163
GBFD118605
IP QOS
Interval Type 0~33
0~33
GBFD118601 GBFD118602 GBFD118605 GBFD118611 GBFD118622
Abis over IP A over IP IP QOS Abis IP over E1/T1 A IP over E1/T1 Interval Type 0~4599
0~4599
GBFD118605
IP QOS
String Type
1~31 characters
GBFD116902 GBFD118605 GBFD113726
Ater Compression Transmission IP QOS TC Pool
ABIS(Abis Interface), A(A Interface), BSC(Ater Interface on BSC), TC(Ater Interface Enumeration on TC), IUR_G(IUR_G Type Interface) ABIS, A, BSC, TC, IUR_G
GBFD118605
IP QOS
Interval Type 0~2047
0~2047
GBFD116902 GBFD118605 GBFD113726
Ater Compression Transmission IP QOS TC Pool
Interval Type 0~15
0~15
None
None
Interval Type 0~11
0~11
None
None
Interval Type 0~5, 8~27
0~5, 8~27
GBFD111803
A Interface Circuit Management
Interval Type 0~335
0~335
GBFD111803
A Interface Circuit Management
MODSTARTCIC(Mod Start CIC), Enumeration MODSGLCIC(Mod Type Single CIC)
MODSTARTCIC, MODSGLCIC
None
GBFD111803
A Interface Circuit Management
Interval Type 0~65535
0~65535
GBFD111803
A Interface Circuit Management
ALLCIC(Set all Timeslots CIC), Enumeration ALLNULL(Set all Type Timeslots Null)
ALLCIC, ALLNULL
Interval Type 1~31
1~31
GBFD111803 GBFD111803
A Interface Circuit Management A Interface Circuit Management
Enumeration Type CIC(CIC), NULL(NULL) CIC, NULL
GBFD111803
A Interface Circuit Management A Interface Circuit Management
GBFD111803
A Interface Circuit Management
Interval Type 0~4
GBFD111803 GBFD113726
A Interface Circuit Management TC Pool
Enumeration MAINBSC(MAIN BSC), Type SUBBSC(SUB BSC) MAINBSC, SUBBSC
GBFD111803
GBFD113726 GBFD118201 GBFD118201 GBFD118201
TC Pool SoftSynchronized Network SoftSynchronized Network SoftSynchronized Network
Interval Type 0~65535
0~65535
Interval Type 0~31
0~31
0~4
Interval Type 1~15
1~15
Interval Type 0~7
0~7
Enumeration Type OFF(OFF), ON(ON)
OFF, ON
Enumeration Type OFF(OFF), ON(ON)
OFF, ON
GBFD118201 GBFD118201 GBFD118201 GBFD118201 GBFD118201 GBFD118201 GBFD118201 GBFD118201 GBFD118201 GBFD118201 GBFD118201
GBFD118201 GBFD118201 GBFD118201 GBFD118201 GBFD118201
SoftSynchronized Network SoftSynchronized Network SoftSynchronized Network SoftSynchronized Network SoftSynchronized Network SoftSynchronized Network SoftSynchronized Network SoftSynchronized Network SoftSynchronized Network SoftSynchronized Network SoftSynchronized Network SoftSynchronized Network SoftSynchronized Network SoftSynchronized Network SoftSynchronized Network SoftSynchronized Network
Interval Type 0~2047
0~2047
Enumeration Type NO(NO), YES(YES)
NO, YES
Enumeration Type NO(NO), YES(YES)
NO, YES
Enumeration Type NO(NO), YES(YES)
NO, YES
Interval Type 1~16777215
1~16777215
Interval Type 1~30
1~30
Interval Type 0~8
0~8
Compound Type
hour, min
hour{0~23} min{0~59}
Compound Type
hour, min
hour{0~23} min{0~59}
Compound Type
hour, min
hour{0~23} min{0~59}
Compound Type
hour, min
hour{0~23} min{0~59}
Compound Type
hour, min
hour{0~23} min{0~59}
hour, min
hour{0~23} min{0~59}
Compound Type
Interval Type 0~100
0~100
Interval Type 0~100
0~100
Interval Type 1~10
1~10
GBFD118201
GBFD118201 GBFD118201 GBFD118201 GBFD118201 GBFD118201 GBFD118201 GBFD118201 GBFD118201 GBFD118201 GBFD118201 GBFD118201
GBFD118201 GBFD118201 GBFD118201
SoftSynchronized Network
SoftSynchronized Network SoftSynchronized Network SoftSynchronized Network SoftSynchronized Network SoftSynchronized Network SoftSynchronized Network SoftSynchronized Network SoftSynchronized Network SoftSynchronized Network SoftSynchronized Network SoftSynchronized Network
SoftSynchronized Network SoftSynchronized Network SoftSynchronized Network
Interval Type 1~10
1~10
Interval Type 0~63
0~63
Interval Type 1~16
1~16
Interval Type 1~60
1~60
Interval Type 1~60
1~60
Interval Type 1~60
1~60
Interval Type 1~60
1~60
Interval Type 1~60
1~60
Interval Type 1~60
1~60
Interval Type 1~60
1~60
Interval Type 1~255
1~255
Interval Type 1~255
1~255
Interval Type 0~60
0~60
Interval Type 1~60
1~60
Interval Type 5~60
5~60
GBFD118201
SoftSynchronized Network
Enumeration Type NO(NO), YES(YES)
NO, YES
GBFD118201
SoftSynchronized Network
Enumeration Type NO(NO), YES(YES)
NO, YES
GBFD117401
MSC Pool
Interval Type 0~31
0~31
GBFD111803
A Interface Circuit Management
Interval Type 0~65535
0~65535
GBFD111804
A Interface Protocol Process
Enumeration Type NO(No), YES(Yes)
NO, YES
GBFD110607
Direct Retry
Enumeration Type NO(No), YES(Yes)
NO, YES
GBFD118602
A over IP
Enumeration Type OFF(Off), ON(On)
OFF, ON
GBFD115403
A Interface Protocol Process Simple Mode LCS(Cell ID + TA)
GBFD113501
A5/1 and A5/2 Ciphering Algorithm
GBFD111804
Enumeration Type NO(No), YES(Yes)
NO, YES
Enumeration CLOSE(Close), Type OPEN(Open)
CLOSE, OPEN
Enumeration Type NO(No), YES(Yes)
NO, YES
GBFD118602
A over IP
MSC_STRATEGY(MSC Strategy), BSC_STRATEGY(BSC Strategy), SP_VER_ORIG_CELL_ PREF(Speech Version MSC_STRATEGY, Enumeration of Originating Cell BSC_STRATEGY, Type Preferred) SP_VER_ORIG_CELL_PREF
MRFD210304
Faulty Management
Interval Type 1~65535
1~65535
MRFD210304
Faulty Management
Interval Type 0~65534
0~65534
MRFD210304
Faulty Management
Interval Type 0~250
0~250
MRFD210304
Faulty Management
Interval Type 0~250
0~250
MRFD210304
Faulty Management
Interval Type 0~100
0~100
MRFD210304
Faulty Management
Interval Type 0~100
0~100
MRFD210304
Faulty Management
Enumeration DISABLE(Disable), Type ENABLE(Enable)
DISABLE, ENABLE
MRFD210304
Faulty Management
Enumeration DISABLE(Disable), Type ENABLE(Enable)
DISABLE, ENABLE
MRFD210304
Faulty Management
Interval Type 60~65534
60~65534
MRFD210304
Faulty Management
Interval Type 10000~150000
10000~150000
MRFD210304
Faulty Management
Interval Type 7~90
7~90
MRFD210304
Faulty Management
Critical(Critical), Major(Major), Enumeration Minor(Minor), Type Warning(Warning)
Critical, Major, Minor, Warning
None
None
Enumeration Type ON(ON), OFF(OFF)
ON, OFF
MRFD210301
Configuration Management
Interval Type 0~11
0~11
MRFD210304
Faulty Management
Interval Type 1~32
1~32
MRFD210304
Faulty Management
Enumeration CLOSE(CLOSE), Type OPEN(OPEN)
CLOSE, OPEN
MRFD210304
Faulty Management
Interval Type 65334~65383
65334~65383
MRFD210304
Faulty Management
Enumeration BOOL(BOOL), Type VALUE(VALUE)
BOOL, VALUE
MRFD210304
Faulty Management
Enumeration LOW(LOW), Type HIGH(HIGH)
LOW, HIGH
MRFD210304
Faulty Management
String Type
0~9 characters
None
MRFD210304
Faulty Management
String Type
MRFD210304
Faulty Management
Critical(Critical), Major(Major), Enumeration Minor(Minor), Type Warning(Warning)
MRFD210304
Faulty Management
Enumeration unshielded(Unshielded), Type shielded(Shielded) unshielded, shielded
GBFD111203
O&M of BSC
Enumeration Type ON, OFF
ON, OFF
GBFD111203
O&M of BSC
Interval Type 30~1024
30~1024
GBFD111203
O&M of BSC
Enumeration Type ON, OFF
OFF, ON
GBFD111203
O&M of BSC
Interval Type 0~255
0~255
None
None
Interval Type 0~11
0~11
None
None
Interval Type 0~5, 8~27
0~5, 8~27
None
None
Interval Type 0~335
0~335
None
None
Interval Type 0~11
0~11
None
None
Interval Type 0~5, 8~27
0~5, 8~27
None
0~9 characters
Critical, Major, Minor, Warning
None
None
Interval Type 0~335
0~335
GBFD111203
O&M of BSC
Interval Type 0~2047
0~2047
GBFD111203
O&M of BSC
Interval Type 0~255
0~255
GBFD111203 GBFD111804
O&M of BSC A Interface Protocol Process
Bit Field Type
TS1(Timeslot 1), TS2(Timeslot 2), TS3(Timeslot 3), TS4(Timeslot 4), TS5(Timeslot 5), TS6(Timeslot 6), TS7(Timeslot 7), TS8(Timeslot 8), TS9(Timeslot 9), TS10(Timeslot 10), TS11(Timeslot 11), TS12(Timeslot 12), TS13(Timeslot 13), TS14(Timeslot 14), TS15(Timeslot 15), TS16(Timeslot 16), TS17(Timeslot 17), TS18(Timeslot 18), TS19(Timeslot 19), TS20(Timeslot 20), TS21(Timeslot 21), TS22(Timeslot 22), TS23(Timeslot 23), TS24(Timeslot 24), TS25(Timeslot 25), TS26(Timeslot 26), TS27(Timeslot 27), TS28(Timeslot 28), TS29(Timeslot 29), TS30(Timeslot 30), TS31(Timeslot 31)
Interval Type 0~27
TS1, TS2, TS3, TS4, TS5, TS6, TS7, TS8, TS9, TS10, TS11, TS12, TS13, TS14, TS15, TS16, TS17, TS18, TS19, TS20, TS21, TS22, TS23, TS24, TS25, TS26, TS27, TS28, TS29, TS30, TS31
0~27
GBFD113903
Satellite Transmission over Ater Interface
TRRS(Terrestrial Transmission), Enumeration SATEL(Satellite Type Transmission)
TRRS, SATEL
GBFD111203
O&M of BSC
Interval Type 30~100
30~100
GBFD111203
O&M of BSC
Interval Type 20~90
20~90
GBFD111203
O&M of BSC
Interval Type 1~127
1~127
GBFD111801 GBFD113726
Ater Interface 4:1 Multiplexing Enumeration CFGBM(BM), TC Pool Type CFGTC(TC)
CFGBM, CFGTC
GBFD113726
TC Pool
Interval Type 0~15
0~15
GBFD111203
O&M of BSC
Interval Type 0~255
0~255
None
None
Interval Type 0~11
0~11
None
None
Interval Type 0~5, 8~27
0~5, 8~27
GBFD111801
Ater Interface 4:1 Multiplexing Interval Type 0~335
0~335
MRFD210301
Configuration Management
Interval Type 0~1
0~1
MRFD210301
Configuration Management
Interval Type 0~255
0~255
TS1(Timeslot 1), TS2(Timeslot 2), TS3(Timeslot 3), TS4(Timeslot 4), TS5(Timeslot 5), TS6(Timeslot 6), TS7(Timeslot 7), TS8(Timeslot 8), TS9(Timeslot 9), TS10(Timeslot 10), TS11(Timeslot 11), TS12(Timeslot 12), TS13(Timeslot 13), TS14(Timeslot 14), TS15(Timeslot 15), TS16(Timeslot 16), TS17(Timeslot 17), TS18(Timeslot 18), TS19(Timeslot 19), TS20(Timeslot 20), TS21(Timeslot 21), TS22(Timeslot 22), TS23(Timeslot 23), TS24(Timeslot 24), TS25(Timeslot 25), TS26(Timeslot 26), TS27(Timeslot 27), TS28(Timeslot 28), TS29(Timeslot 29), TS30(Timeslot 30), TS31(Timeslot 31)
MRFD210301
Configuration Management
Bit Field Type
GBFD111203
O&M of BSC
Interval Type 0~2047
TS1, TS2, TS3, TS4, TS5, TS6, TS7, TS8, TS9, TS10, TS11, TS12, TS13, TS14, TS15, TS16, TS17, TS18, TS19, TS20, TS21, TS22, TS23, TS24, TS25, TS26, TS27, TS28, TS29, TS30, TS31
0~2047
GBFD111801
Ater Interface Enumeration CFGBM(BM), 4:1 Multiplexing Type CFGTC(TC)
CFGBM, CFGTC
GBFD113726
TC Pool
Interval Type 0~15
0~15
GBFD111203
O&M of BSC
Interval Type 0~255
0~255
GBFD111203 GBFD111804
O&M of BSC A Interface Protocol Process
Bit Field Type
TS1(Timeslot 1), TS2(Timeslot 2), TS3(Timeslot 3), TS4(Timeslot 4), TS5(Timeslot 5), TS6(Timeslot 6), TS7(Timeslot 7), TS8(Timeslot 8), TS9(Timeslot 9), TS10(Timeslot 10), TS11(Timeslot 11), TS12(Timeslot 12), TS13(Timeslot 13), TS14(Timeslot 14), TS15(Timeslot 15), TS16(Timeslot 16), TS17(Timeslot 17), TS18(Timeslot 18), TS19(Timeslot 19), TS20(Timeslot 20), TS21(Timeslot 21), TS22(Timeslot 22), TS23(Timeslot 23), TS24(Timeslot 24), TS25(Timeslot 25), TS26(Timeslot 26), TS27(Timeslot 27), TS28(Timeslot 28), TS29(Timeslot 29), TS30(Timeslot 30), TS31(Timeslot 31)
Interval Type 0~27
TS1, TS2, TS3, TS4, TS5, TS6, TS7, TS8, TS9, TS10, TS11, TS12, TS13, TS14, TS15, TS16, TS17, TS18, TS19, TS20, TS21, TS22, TS23, TS24, TS25, TS26, TS27, TS28, TS29, TS30, TS31
0~27
GBFD113903
Satellite Transmission over Ater Interface
TRRS(Terrestrial Transmission), Enumeration SATEL(Satellite Type Transmission)
TRRS, SATEL
GBFD111203
O&M of BSC
Interval Type 30~100
30~100
GBFD111203
O&M of BSC
Interval Type 20~90
20~90
GBFD111203
O&M of BSC
Interval Type 1~127
1~127
MRFD210301
Configuration Management
Interval Type 0~11
0~11
MRFD210301
Configuration Management
Interval Type 0~27
0~27
GBFD510002
Gb Over FR
Interval Type 0~335
0~335
GBFD510002
Gb Over FR
Interval Type 0~511
0~511
TS1(timeslot 1), TS2(timeslot 2), TS3(timeslot 3), TS4(timeslot 4), TS5(timeslot 5), TS6(timeslot 6), TS7(timeslot 7), TS8(timeslot 8), TS9(timeslot 9), TS10(timeslot 10), TS11(timeslot 11), TS12(timeslot 12), TS13(timeslot 13), TS14(timeslot 14), TS15(timeslot 15), TS16(timeslot 16), TS17(timeslot 17), TS18(timeslot 18), TS19(timeslot 19), TS20(timeslot 20), TS21(timeslot 21), TS22(timeslot 22), TS23(timeslot 23), TS24(timeslot 24), TS25(timeslot 25), TS26(timeslot 26), TS27(timeslot 27), TS28(timeslot 28), TS29(timeslot 29), TS30(timeslot 30), TS31(timeslot 31)
GBFD510002
Gb Over FR
Bit Field Type
GBFD510002
Gb Over FR
Enumeration Q933(Q933), Type ANSI(Ansi)
Q933, ANSI
GBFD510002
Gb Over FR
Interval Type 1~255
1~255
2~4294967294
GBFD510002
Gb Over FR
Interval Type 1~10
1~10
GBFD510002
Gb Over FR
Interval Type 1~10
1~10
GBFD510002
Gb Over FR
Interval Type 5~30
5~30
MRFD210301
Configuration Management
Enumeration BYNAME(By Name), Type BYID(By Index)
BYNAME, BYID
MRFD210301
Configuration Management
Interval Type 0~2047
0~2047
MRFD210301
Configuration Management
String Type
MRFD210301
Configuration Management
Interval Type 0~4095
0~4095
MRFD210301
Configuration Management
Interval Type 0~11
0~11
MRFD210301
Configuration Management
Interval Type 0~27
0~27
GBFD118609
IP Fault Detection Based Enumeration BFD_OFF(OFF), on BFD Type BFD_ON(ON)
BFD_OFF, BFD_ON
MRFD210304
Faulty Management
Enumeration nonrpt(Not Report), Type rpt(Report)
nonrpt, rpt
MRFD210301
Configuration Management
Interval Type 0~11
0~11
MRFD210301
Configuration Management
Interval Type 0~27
0~27
MRFD210301
Configuration Management
Enumeration Type SCU, INT
SCU, INT
MRFD210301
Configuration Management
Enumeration Type YES(YES)
YES
MRFD210301
Configuration Management
Enumeration Type SCUa, SCUb
SCUa, SCUb
MRFD210301
Configuration Management
Enumeration INT, DPU, XPU, TNU, Type OMU, SAU
INT, DPU, XPU, TNU, OMU, SAU
Configuration Management
PEUa, FG2a, GOUa, EIUa, OIUa, POUc, FG2c, GOUc, SPUa, XPUa, SPUb, XPUb, DPUa, DPUb, DPUc, Enumeration DPUd, DPUf, TNUa, Type OMUa, OMUb, SAUa
PEUa, FG2a, GOUa, EIUa, OIUa, POUc, FG2c, GOUc, XPUa, XPUb, SPUa, SPUb, DPUa, DPUb, DPUc, DPUd, DPUf, TNUa, OMUa, OMUb, SAUa
MRFD210301
None
1~64 characters
MRFD210301
Configuration Management
OAM, TDM_Switching, GCP, RGCP, MCP, GTC, GPCU, IP, FR, HDLC, TDM, GbIP, Abis_TDM, Ater_TDM, Enumeration Pb_TDM, A_TDM, Type Abis_IP, SAU
MRFD210301
Configuration Management
Enumeration Type YES(YES), NO(NO)
YES, NO
MRFD210301
Configuration Management
Enumeration Type YES(YES), NO(NO)
YES, NO
MRFD210301
Configuration Management
Interval Type 0~11
0~11
MRFD210301
Configuration Management
Interval Type 0~27
0~27
MRFD210301
Configuration Management
Enumeration Type A/Gb, Abis/Ater/Pb/Gb
A/Gb, Abis/Ater/Pb/Gb
OAM, TDM_Switching, GCP, RGCP, MCP, GTC, GPCU, IP, FR, HDLC, TDM, GbIP, Abis_TDM, Ater_TDM, Pb_TDM, A_TDM, Abis_IP, SAU
MRFD210301
Configuration Management
Enumeration Type NO(NO), YES(YES)
NO, YES
GBFD111202
O&M of BTS
Enumeration BYNAME(By Name), Type BYID(By Index)
BYNAME, BYID
GBFD111202
O&M of BTS
Interval Type 0~2047
0~2047
GBFD111202
O&M of BTS
String Type
1~64 characters
GBFD111202
O&M of BTS
Enumeration Type IP, HDLC, TDM
IP, HDLC, TDM
GBFD111202
O&M of BTS
Interval Type 0~7
0~7
GBFD111202
O&M of BTS
Interval Type 0~7
0~7
GBFD111202
O&M of BTS
Interval Type 0~7
0~7
GBFD111202
O&M of BTS
Interval Type 0~7
0~7
GBFD111202
O&M of BTS
Enumeration Type OFF(OFF), ON(ON)
OFF, ON
GBFD111202
O&M of BTS
Interval Type 0~163
0~163
None
GBFD111202
O&M of BTS
Enumeration Type OFF(OFF), ON(ON)
OFF, ON
GBFD111202
O&M of BTS
Interval Type 0~33
0~33
GBFD111202
O&M of BTS
Enumeration Type OFF(OFF), ON(ON)
OFF, ON
GBFD111202
O&M of BTS
Interval Type 2~1999
2~1999
GBFD111202
O&M of BTS
Enumeration Type OFF(OFF), ON(ON)
OFF, ON
None
None
Interval Type 0~199
0~199
GBFD111202
O&M of BTS
Interval Type 0~63
0~63
GBFD111202
O&M of BTS
Interval Type 0~63
0~63
GBFD111202
O&M of BTS
Interval Type 0~63
0~63
GBFD111202
O&M of BTS
Interval Type 0~63
0~63
None
None
Enumeration Type DISABLE, ENABLE
DISABLE, ENABLE
GBFD111202
O&M of BTS
Interval Type 2~4094
2~4094
GBFD111202
O&M of BTS
Interval Type 2~4094
2~4094
GBFD111202
O&M of BTS
Interval Type 2~4094
2~4094
GBFD111202
O&M of BTS
Interval Type 2~4094
2~4094
GBFD511002
Access Control Class(ACC)
Interval Type 0~31
0~31
GBFD511002
Access Control Class(ACC)
Interval Type 1~10
1~10
GBFD511002
Access Control Class(ACC)
Interval Type 0~9
0~9
GBFD511002
Interval Type 15~7200
15~7200
GBFD118201
Access Control Class(ACC) SoftSynchronized Network
Interval Type 0~2500
0~2500
GBFD117401
MSC Pool
Interval Type 0~31
0~31
GBFD111803
A Interface Circuit Management
Interval Type 1~300
1~300
GBFD111803
A Interface Circuit Management
Interval Type 1~300
1~300
GBFD111705
GSM Flow Control
Interval Type 1~300
1~300
GBFD111705
GSM Flow Control
Interval Type 1~300
1~300
MRFD210301
Configuration Management
Interval Type 0~65535
0~65535
MRFD210301
Configuration Management
Interval Type 0~65535
0~65535
GBFD111804
A Interface Protocol Process
GSM_PHASE_1, Enumeration GSM_PHASE_2, Type GSM_PHASE_2Plus
GSM_PHASE_1, GSM_PHASE_2, GSM_PHASE_2Plus
MRFD210301
Configuration Management
GSM_PHASE_1, Enumeration GSM_PHASE_2, Type GSM_PHASE_2Plus
GSM_PHASE_1, GSM_PHASE_2, GSM_PHASE_2Plus
MRFD210301
Configuration Management
GSM_PHASE_1, Enumeration GSM_PHASE_2, Type GSM_PHASE_2Plus
GSM_PHASE_1, GSM_PHASE_2, GSM_PHASE_2Plus
GBFD115701
TFO
Enumeration NO(Not Support), Type YES(Support)
GBFD110101
Enumeration Frequency Band Type DCS1800, PCS1900
NO, YES
DCS1800, PCS1900
GBFD118602 GBFD113726
A over IP TC Pool
Enumeration SEPARATE(Separate), Type TOGETHER(Together) SEPARATE, TOGETHER
GBFD111203
O&M of BSC
String Type
None
1~32 characters
GBFD111203
O&M of BSC
String Type
None
1~32 characters
GBFD111203
O&M of BSC
String Type
None
1~32 characters
GBFD111203
O&M of BSC
String Type
None
1~32 characters
GBFD111203
O&M of BSC
String Type
None
1~32 characters
GBFD111203
O&M of BSC
String Type
None
1~32 characters
GBFD111203
O&M of BSC
String Type
None
1~32 characters
GBFD111203
O&M of BSC
String Type
None
1~32 characters
GBFD111203
O&M of BSC
String Type
None
1~32 characters
GBFD111203
O&M of BSC
String Type
None
1~32 characters
GBFD111203
O&M of BSC
String Type
None
1~32 characters
GBFD111203
O&M of BSC
String Type
None
1~32 characters
GBFD111203
O&M of BSC
String Type
None
1~32 characters
GBFD111203
O&M of BSC
String Type
None
1~32 characters
GBFD111203
O&M of BSC
String Type
None
1~32 characters
GBFD111203
O&M of BSC
String Type
None
1~32 characters
GBFD111203
O&M of BSC
String Type
None
1~32 characters
GBFD111203
O&M of BSC
String Type
None
1~32 characters
GBFD111203
O&M of BSC
String Type
None
1~32 characters
GBFD111203
O&M of BSC
String Type
None
1~32 characters
GBFD117701 GBFD117702
BSC Local Switch BTS Local Switch
String Type
None
1~10 characters
GBFD117701 GBFD117702
BSC Local Switch BTS Local Switch
String Type
None
1~10 characters
GBFD117701 GBFD117702
BSC Local Switch BTS Local Switch
String Type
None
1~10 characters
GBFD117701 GBFD117702
BSC Local Switch BTS Local Switch
String Type
None
1~10 characters
GBFD117701 GBFD117702
BSC Local Switch BTS Local Switch
String Type
None
1~10 characters
GBFD510301
Public Voice Group Call Service
Enumeration Type NO(No), YES(Yes)
NO, YES
GBFD510301 GBFD510302
Public Voice Group Call Service Public Voice Broadcast Service
Enumeration Type OFF(Off), ON(On)
OFF, ON
GBFD111203
O&M of BSC
Interval Type 1~255
1~255
GBFD111203
O&M of BSC
Interval Type 0~255
0~255
GBFD111203 GBFD113726
O&M of BSC TC Pool
Enumeration Type OFF(Off), ON(On)
OFF, ON
GBFD118701
RAN Sharing
Enumeration Type NO(No), YES(Yes)
NO, YES
GBFD113726
TC Pool
Enumeration Type NO(No), YES(Yes)
NO, YES
GBFD113726
TC Pool
Enumeration Type NO(No), YES(Yes)
NO, YES
GBFD113726
TC Pool
Interval Type 1~15
1~15
GBFD116902
Ater Compression Transmission
STANDALONETC(Stan d Alone TC ), MASTERINPOOLTC(M aster in Pool TC), STANDALONETC, Enumeration SLAVEINPOOLTC(Slav MASTERINPOOLTC, Type e in Pool TC) SLAVEINPOOLTC
GBFD118605
IP QOS
Interval Type 1~15
1~15
GBFD118605
IP QOS
Enumeration Type OFF(Off), ON(On)
OFF, ON
GBFD118605
IP QOS
Enumeration Type OFF(Off), ON(On)
OFF, ON
Interval Type 0~4095
0~4095
Enumeration Type TDM(TDM), IP(IP)
TDM, IP
GBFD113726 GBFD116902
GBFD118602
TC Pool Ater Compression Transmission
A over IP
NO(Not Supported), R3(Only R3 Supported), R2(Only R2 Supported), Enumeration R2ANDR3(R2 And R3 Type Supported) NO, R3, R2, R2ANDR3
GBFD110001
GBSS12.0 System Improvement GBSS12.0 System Improvement GBSS12.0 System Improvement
GBFD110001
GBSS12.0 System Improvement
Interval Type 0~160
0~160
GBFD110001
GBSS12.0 System Improvement
Interval Type 1~60
1~60
GBFD110001
GBSS12.0 System Improvement
Interval Type 1~12
1~12, step: 5
GBFD110001 GBFD110001
Enumeration Type OFF(Off), ON(On)
OFF, ON
Interval Type 1~100
1~100
Interval Type 1~12
1~12, step: 5
PERIOD_LOCATION_U PDATE(Period Location Update), NORMAL_LOCATION_ UPDATE(Normal Location Update), IMSI_ATTACH(IMSI Attach), SMS(SMS), CALL_SETUP(Call Setup), PAGING_RESPONSE( Paging Response), IMSI_DETACH(IMSI Detach), OTHERS(Others)
PERIOD_LOCATION_UPDATE, NORMAL_LOCATION_UPDATE, IMSI_ATTACH, SMS, CALL_SETUP, PAGING_RESPONSE, IMSI_DETACH, OTHERS
GBFD511701
Radio Measurement Data Interface for Navigation
Bit Field Type
GBFD511701
Radio Measurement Data Interface for Navigation
Enumeration Type OFF(Off), ON(On)
OFF, ON
GBFD511701
Radio Measurement Data Interface for Navigation
Interval Type 0~254
0~254
GBFD511701
Radio Measurement Data Interface for Navigation
Interval Type 0~254
0~254
GBFD111602
TRX Power Amplifier Intelligent Shutdown
Enumeration Type NO(No), YES(Yes)
NO, YES
GBFD111602
TRX Power Amplifier Intelligent Shutdown
Compound Type
hour, min
00:00~23:59
GBFD111602
TRX Power Amplifier Intelligent Shutdown
Compound Type
hour, min
00:00~23:59
GBFD111602
TRX Power Amplifier Intelligent Shutdown
Interval Type 60~3600
60~3600
GBFD111603
TRX Power Amplifier Intelligent Shutdown on Timeslot Level
Enumeration Type NO(No), YES(Yes)
NO, YES
GBFD111602
TRX Power Amplifier Intelligent Shutdown
Interval Type 0~3
0~3
GBFD111602
TRX Power Amplifier Intelligent Shutdown
Interval Type 1~12
1~12
TRX Power Amplifier Intelligent Shutdown
JAN(Jan.), FEB(Feb.), MAR(Mar.), APR(Apr.), MAY(May), JUN(Jun.), JUL(Jul.), AUG(Aug.), JAN, FEB, MAR, APR, MAY, Enumeration SEP(Sep), OCT(Oct.), JUN, JUL, AUG, SEP, OCT, Type NOV(Nov.), DEC(Dec) NOV, DEC
GBFD111602
TRX Power Amplifier Intelligent Shutdown
Interval Type 1~31
GBFD111602
TRX Power Amplifier Intelligent Shutdown
JAN(Jan.), FEB(Feb.), MAR(Mar.), APR(Apr.), MAY(May), JUN(Jun.), JUL(Jul.), AUG(Aug.), JAN, FEB, MAR, APR, MAY, Enumeration SEP(Sep), OCT(Oct.), JUN, JUL, AUG, SEP, OCT, Type NOV(Nov.), DEC(Dec) NOV, DEC
GBFD111602
TRX Power Amplifier Intelligent Shutdown
Interval Type 1~31
GBFD111602
1~31
1~31
GBFD113701
Frequency Hopping (RF hopping, baseband hopping)
Enumeration Type NO(No), YES(Yes)
NO, YES
GBFD111705
GSM Flow Control
Enumeration Type NO(No), YES(Yes)
NO, YES
GBFD111705
GSM Flow Control
Interval Type 100~600000
100~600000
GBFD111705
GSM Flow Control
Interval Type 10~1000
10~1000
GBFD111705
GSM Flow Control
Interval Type 10~2000
10~2000
GBFD111705
GSM Flow Control
Enumeration Type NO(No), YES(Yes)
NO, YES
GBFD111705
GSM Flow Control
Interval Type 100~600000
100~600000
GBFD111705
GSM Flow Control
Interval Type 10~800
10~800
GBFD111705
GSM Flow Control
Interval Type 10~800
10~800
GBFD111705
GSM Flow Control
Interval Type 0~2
0~2
GBFD111705
GSM Flow Control
Enumeration Type NO(No), YES(Yes)
NO, YES
GBFD111705
GSM Flow Control
Interval Type 100~600000
100~600000
GBFD111705
GSM Flow Control
Interval Type 10~10000
10~10000
GBFD111705
GSM Flow Control
Interval Type 50~95
50~95
GBFD111705
GSM Flow Control
Interval Type 50~95
50~95
GBFD111705
GSM Flow Control
Interval Type 50~95
50~95
GBFD111705
GSM Flow Control
Enumeration Type NO(No), YES(Yes)
NO, YES
GBFD111705
GSM Flow Control
Enumeration Type ABIS(Abis), A(A)
ABIS, A
GBFD111705
GSM Flow Control
Enumeration Type NO(No), YES(Yes)
NO, YES
GBFD111705
GSM Flow Control
Enumeration Type NO(No), YES(Yes)
NO, YES
GBFD111705
GSM Flow Control
Enumeration Type NO(No), YES(Yes)
NO, YES
GBFD111705
GSM Flow Control
Enumeration Type NO(No), YES(Yes)
NO, YES
GBFD111705
GSM Flow Control
Interval Type 0~100
0~100
GBFD111705
GSM Flow Control
Interval Type 0~100
0~100
GBFD111705
GSM Flow Control
Interval Type 0~100
0~100
GBFD111705
GSM Flow Control
Interval Type 0~100
0~100
GBFD111705
GSM Flow Control
Interval Type 0~100
0~100
GBFD111705
GSM Flow Control
Interval Type 0~100
0~100
GBFD111705
GSM Flow Control
Interval Type 50~95
50~95
GBFD111705
GSM Flow Control
Interval Type 50~95
50~95
GBFD111705
GSM Flow Control
Interval Type 50~95
50~95
GBFD111705
GSM Flow Control
Interval Type 50~95
50~95
GBFD111705
GSM Flow Control
Enumeration Type NO(No), YES(Yes)
NO, YES
GBFD111705
GSM Flow Control
Interval Type 50~95
50~95
GBFD111705
GSM Flow Control
Interval Type 50~95
50~95
GSM Flow Control
NONE(None), LEVEL4(User Level 4), LEVEL3(User Level 3), LEVEL2(User Level 2), LEVEL1(User Level 1), LEVEL0(User Level 0), NONE, LEVEL4, LEVEL3, Enumeration LEVELB(User Level B), LEVEL2, LEVEL1, LEVEL0, Type LEVELA(User Level A) LEVELB, LEVELA
GBFD111705
GBFD113701
Frequency Hopping (RF hopping, baseband hopping)
Enumeration Type NO(No), YES(Yes)
NO, YES
GBFD113701
Frequency Hopping (RF hopping, baseband hopping)
Interval Type 20~100
20~100
GBFD113701
Frequency Hopping (RF hopping, baseband hopping)
Interval Type 5~63
5~63
GBFD113701
Frequency Hopping (RF hopping, baseband hopping)
Interval Type 1~100
1~100
GBFD113701
Frequency Hopping (RF hopping, baseband hopping)
Interval Type 0~8
0~8
GBFD113701
Frequency Hopping (RF hopping, baseband hopping)
Interval Type 0~98
0~98
GBFD113701
Frequency Hopping (RF hopping, baseband hopping)
Interval Type 0~255
0~255
GBFD113701
Frequency Hopping (RF hopping, baseband hopping)
Interval Type 100~5000
100~5000
GBFD113701
Frequency Hopping (RF hopping, baseband hopping)
Interval Type 100~20000
100~20000
GBFD118601
Abis over IP
Interval Type 0~255
0~255
GBFD118601
Abis over IP
Interval Type 0~100
0~100
GBFD118601
Abis over IP
Interval Type 1~255
1~255
GBFD118601
Abis over IP
Interval Type 1~255
1~255
Abis over IP
20ms(20ms), 40ms(40ms), 60ms(60ms), Enumeration 80ms(80ms), Type 100ms(100ms)
20ms, 40ms, 60ms, 80ms, 100ms
GBFD118601
GBFD510002
Gb Over FR
Interval Type 5~15
5~15
GBFD510002
Gb Over FR
Interval Type 1~255
1~255
GBFD510002
Gb Over FR
Interval Type 1~6
1~6
GBFD510002
Gb Over FR
Interval Type 1~120
1~120
GBFD114101
GPRS
Interval Type 1~255
1~255
GBFD114101
GPRS
Interval Type 1~120
1~120
GBFD119001
Gb Interface Function
Interval Type 1~255
1~255
GBFD510002
Gb Over FR
Interval Type 1~6
1~6
GBFD114101
GPRS
Enumeration OUTER(External PCU), Type INNER(Built-in PCU) OUTER, INNER
GBFD113101 GBFD114201 GBFD119303 GBFD119501
PDCH Dynamic Adjustment EGPRS Load Sharing Adaptive Adjustment of Uplink and Downlink Enumeration OPEN(Open), Channels Type CLOSE(Close)
OPEN, CLOSE
GBFD113101 GBFD119402 GBFD119303 GBFD119501
PDCH Dynamic Adjustment MS High multislot classes Load Sharing Adaptive Adjustment of Uplink and NOTSUPPORT(Not Downlink Enumeration Support), Channels Type SUPPORT(Support)
NOTSUPPORT, SUPPORT
GBFD114101
NOTSUPPORT(Not Enumeration Support), Type SUPPORT(Support)
NOTSUPPORT, SUPPORT
GPRS
GBFD113101 GBFD119401 GBFD119303 GBFD119501
PDCH Dynamic Adjustment EDA(Extended Dynamic Allocation) Load Sharing Adaptive Adjustment of Uplink and NOTSUPPORT(Not Downlink Enumeration Support), Channels Type SUPPORT(Support)
GBFD119401
EDA(Extended Dynamic Allocation)
Enumeration NOTALLOW(Not Allow), Type ALLOW(Allow) NOTALLOW, ALLOW
GBFD116201
NetworkControlled Cell Reselection (NC2)
NotSupport(Not Enumeration Support), Type Support(Support)
NOTSUPPORT, SUPPORT
GBFD116201
NetworkControlled Cell Reselection (NC2)
Interval Type 1~10
1~10
GBFD119904
PS Active Package Management
Interval Type 1~65535
1~65535
NOTSUPPORT, SUPPORT
GBFD119904
PS Active Package Management
Interval Type 1~65535
1~65535
Interval Type 1~65535
1~65535
Enumeration CLOSE(Close), Type OPEN(Open)
CLOSE, OPEN
GBFD119904
PS Active Package Management PS Active Package Management
GBFD119904
PS Active Package Management
Interval Type 1~65535
1~65535
GBFD119904
PS Active Package Management
Interval Type 1~65535
1~65535
GBFD119904
GBFD119904
PS Active Package Management
Interval Type 1~65535
1~65535
GBFD119904
PS Active Package Management
Interval Type 1~65535
1~65535
GBFD114101
GPRS
CLOSE(Close), LOCALTLLI(Local TLLI Enumeration Opt), ALLTLLI(All TLLI Type Opt) CLOSE, LOCALTLLI, ALLTLLI
GBFD119105
RLC Mode
Interval Type 1~64
1~64
GBFD119105
RLC Mode
Interval Type 1~64
1~64
GBFD119105
RLC Mode
Interval Type 1~64
1~64
GBFD119105
RLC Mode
Interval Type 1~64
1~64
GBFD114101
GPRS
Interval Type 0~5
0~5
GBFD114101
GPRS
Interval Type 0~5
0~5
GBFD114101
GPRS
Interval Type 0~5
0~5
GBFD114101
GPRS
Enumeration Close(Close), Type Open(Open)
Close, Open
GBFD119501
Adaptive Adjustment of Uplink and Downlink Channels
Interval Type 0~65535
0~65535
GBFD119501
Adaptive Adjustment of Uplink and Downlink Channels
Interval Type 1~255
1~255
GBFD119501
Adaptive Adjustment of Uplink and Downlink Channels
Interval Type 1~255
1~255
GBFD119303
Load Sharing
Interval Type 0~65535
0~65535
GBFD116301
Network Assisted Cell Enumeration Change (NACC) Type NO(NO), YES(YES)
NO, YES
GBFD111705
GSM Flow Control
Interval Type 0~50
0~50
GBFD111705
GSM Flow Control
Interval Type 0~768
0~768
GBFD111705
GSM Flow Control
Interval Type 0~50
0~50
GBFD111705
GSM Flow Control
Interval Type 0~768
0~768
GBFD119501
Adaptive Adjustment of Uplink and Downlink Channels
Enumeration Close(Close), Type Open(Open)
Close, Open
GBFD119501
Adaptive Adjustment of Uplink and Downlink Channels
Interval Type 0~65535
0~65535
GBFD119501
Adaptive Adjustment of Uplink and Downlink Channels
Interval Type 0~65535
0~65535
GBFD119501
Adaptive Adjustment of Uplink and Downlink Channels
Interval Type 1~255
1~255
GBFD119501
Adaptive Adjustment of Uplink and Downlink Channels
Interval Type 1~255
1~255
GBFD118603
Gb over IP
Interval Type 0~63
0~63
GBFD118603
Gb over IP
Interval Type 0~63
0~63
GBFD118603
Gb over IP
Interval Type 0~63
0~63
GBFD118603
Gb over IP
Interval Type 0~63
0~63
GBFD118603
Gb over IP
Interval Type 0~63
0~63
GBFD118603
Gb over IP
Interval Type 0~63
0~63
Interval Type 0~63
0~63
GBFD118201
Gb over IP SoftSynchronized Network
Interval Type 0~7
0~7
GBFD111202
O&M of BTS
Enumeration BYIDX(By Index), Type BYNAME(By Name)
BYIDX, BYNAME
GBFD111202
O&M of BTS
Interval Type 0~2047
0~2047
String Type
None BYMANUAL(By Enumeration Manual), BYAUTO(By Type Auto)
1~64 characters
Interval Type -2715647~2715647
-2715647~2715647
GBFD118201
O&M of BTS SoftSynchronized Network SoftSynchronized Network SoftSynchronized Network
Interval Type -10000~10000
-10000~10000
GBFD113601
Short Message Service Cell Broadcast (TS23)
Interval Type 5~180
5~180
GBFD113601
Short Message Service Cell Broadcast (TS23)
Interval Type 1~5
1~5
GBFD118603
GBFD111202 GBFD118201 GBFD118201
BYMANUAL, BYAUTO
GBFD111203
O&M of BSC
Interval Type 1~300
1~300
GBFD111203 GBFD111803
O&M of BSC A Interface Circuit Management
Interval Type 1~300
1~300
GBFD111203
O&M of BSC
Interval Type 1~300
1~300
GBFD111705
GSM Flow Control
Interval Type 10~255
10~255
GBFD111705
GSM Flow Control
Interval Type 10~255
10~255
GBFD111705
GSM Flow Control
Interval Type 0~5000
0~5000
GBFD119701
SGSN Pool
Interval Type 1~15
1~15
GBFD118602
A over IP
Interval Type 1~300
1~300
GBFD119001
Gb Interface Function
Interval Type 1000~3000
1000~3000
GBFD119001
Gb Interface Function
Interval Type 1000~3000
1000~3000
GBFD119001
Gb Interface Function
Interval Type 1000~30000
1000~30000
GBFD119001
Gb Interface Function
Interval Type 1000~120000
1000~120000
GBFD119001
Gb Interface Function
Interval Type 1000~10000
1000~10000
GBFD119001
Gb Interface Function
Interval Type 1000~10000
1000~10000
GBFD119001
Gb Interface Function
Interval Type 1000~30000
1000~30000
GBFD119001
Gb Interface Function
Interval Type 1000~10000
1000~10000
GBFD119001
Gb Interface Function
Interval Type 1000~10000
1000~10000
GBFD119001
Gb Interface Function
Interval Type 1000~10000
1000~10000
GBFD114101
GPRS
Interval Type 5000~60000
BSC Local Switch BTS Local Switch
NEITHERSTART(Neith er Start), BTSPRIORITY(BTS Priority), BSCPRIORITY(BSC Priority), NEITHERSTART, Enumeration BTSONLY(BTS Only), BTSPRIORITY, BSCPRIORITY, Type BSCONLY(BSC Only) BTSONLY, BSCONLY
BTS Local Switch
UNCONDITIONALSTA RT(Unconditional Start), ABISCONGESTS(Start When Abis Congests), UNCONDITIONALSTART, Enumeration PREFIXNUMBER(Start ABISCONGESTS, Type by Prefix Number) PREFIXNUMBER
GBFD117701
BSC Local Switch
UNCONDITIONALSTA RT(Unconditional Start), ATERCONGESTS(Start When Ater Congests), UNCONDITIONALSTART, Enumeration PREFIXNUMBER(Start ATERCONGESTS, Type by Prefix Number) PREFIXNUMBER
GBFD117702
BTS Local Switch
Interval Type 0~100
GBFD117701 GBFD117702
GBFD117702
5000~60000
0~100
GBFD117701
BSC Local Switch
Interval Type 0~100
0~100
GBFD117702
BTS Local Switch
String Type
None
1~32 characters
GBFD117702
BTS Local Switch
String Type
None
1~32 characters
GBFD117702
BTS Local Switch
String Type
None
1~32 characters
GBFD117702
BTS Local Switch
String Type
None
1~32 characters
GBFD117702
BTS Local Switch
String Type
None
1~32 characters
GBFD117702
BTS Local Switch
String Type
None
1~32 characters
GBFD117702
BTS Local Switch
String Type
None
1~32 characters
GBFD117702
BTS Local Switch
String Type
None
1~32 characters
GBFD117702
BTS Local Switch
String Type
None
1~32 characters
GBFD117702
BTS Local Switch
String Type
None
1~32 characters
GBFD117702
BTS Local Switch
String Type
None
1~32 characters
GBFD117702
BTS Local Switch
String Type
None
1~32 characters
GBFD117702
BTS Local Switch
String Type
None
1~32 characters
GBFD117702
BTS Local Switch
String Type
None
1~32 characters
GBFD117702
BTS Local Switch
String Type
None
1~32 characters
GBFD117702
BTS Local Switch
String Type
None
1~32 characters
GBFD117702
BTS Local Switch
String Type
None
1~32 characters
GBFD117702
BTS Local Switch
String Type
None
1~32 characters
GBFD117702
BTS Local Switch
String Type
None
1~32 characters
GBFD117702
BTS Local Switch
String Type
None
1~32 characters
GBFD117701
BSC Local Switch
String Type
None
1~32 characters
GBFD117701
BSC Local Switch
String Type
None
1~32 characters
GBFD117701
BSC Local Switch
String Type
None
1~32 characters
GBFD117701
BSC Local Switch
String Type
None
1~32 characters
GBFD117701
BSC Local Switch
String Type
None
1~32 characters
GBFD117701
BSC Local Switch
String Type
None
1~32 characters
GBFD117701
BSC Local Switch
String Type
None
1~32 characters
GBFD117701
BSC Local Switch
String Type
None
1~32 characters
GBFD117701
BSC Local Switch
String Type
None
1~32 characters
GBFD117701
BSC Local Switch
String Type
None
1~32 characters
GBFD117701
BSC Local Switch
String Type
None
1~32 characters
GBFD117701
BSC Local Switch
String Type
None
1~32 characters
GBFD117701
BSC Local Switch
String Type
None
1~32 characters
GBFD117701
BSC Local Switch
String Type
None
1~32 characters
GBFD117701
BSC Local Switch
String Type
None
1~32 characters
GBFD117701
BSC Local Switch
String Type
None
1~32 characters
GBFD117701
BSC Local Switch
String Type
None
1~32 characters
GBFD117701
BSC Local Switch
String Type
None
1~32 characters
GBFD117701
BSC Local Switch
String Type
None
1~32 characters
GBFD117701
BSC Local Switch
String Type
None
1~32 characters
GBFD117702
BTS Local Switch
Enumeration Type NO(No), YES(Yes)
NO, YES
MRFD210301
Configuration Management
Enumeration BYNAME(By Name), Type BYID(By Index)
BYNAME, BYID
GBFD111202
O&M of BTS
Interval Type 0~2047
0~2047
GBFD111202
O&M of BTS
String Type
1~64 characters
None
GBFD111202
O&M of BTS
BTS30(BTS30), BTS312(BTS312), BTS3001C(BTS3001C), BTS3001CP(BTS3001C P), BTS3002C(BTS3002C), BTS3012A(BTS3012A), BTS3006A(BTS3006A), BTS3012(BTS3012), BTS3006C(BTS3006C), BTS3002E(BTS3002E), BTS3012AE(BTS3012A E), BTS3012_II(BTS3012_I I), DBS3900_GSM(DBS39 00 GSM), BTS3900_GSM(BTS39 00 GSM), BTS3900A_GSM(BTS3 900A GSM), DBS3036(DBS3036), BTS3036(BTS3036), BTS3036A(BTS3036A), BTS3900L_GSM(BTS3 900L GSM), BTS3900B_GSM(BTS3 900B GSM), Enumeration BTS3900E_GSM(BTS3 Type 900E GSM)
GBFD111202
O&M of BTS
String Type
O&M of BTS
SUPPORT(Support), Enumeration UNSUPPORT(Not Type Support)
GBFD111202
None
BTS30, BTS312, BTS3001C, BTS3001CP, BTS3002C, BTS3012A, BTS3006A, BTS3012, BTS3006C, BTS3002E, BTS3012AE, BTS3012_II, DBS3900_GSM, BTS3900_GSM, BTS3900A_GSM, DBS3036, BTS3036, BTS3036A, BTS3900B_GSM, BTS3900E_GSM, BTS3900L_GSM
0~64 characters
SUPPORT, UNSUPPORT
GBFD118601
Abis over IP
Enumeration TDM, HDLC, Type HDLC_HubBTS, IP
GBFD117301
Flex Abis
FIX_16K_ABIS(Fix Abis), FLEX_ABIS(Flex Abis), Enumeration SEMI_ABIS(Semisolid FIX_16K_ABIS, FLEX_ABIS, Type Abis) SEMI_ABIS
GBFD116601
Abis Bypass
Enumeration TRUE(Support), Type FALSE(Not Support)
TRUE, FALSE
GBFD117801
Ring Topology
Enumeration Type NO(No), YES(Yes)
NO, YES
TDM, HDLC, HubBTS, IP
GBFD111301
LAPD Multiplexing at Abis Interface
MODE1_1, MODE2_1, MODE3_1, MODE4_1, Enumeration MODE5_1, MODE6_1, Type MODE16K
MODE1_1, MODE2_1, MODE3_1, MODE4_1, MODE5_1, MODE6_1, MODE16K
MRFD210206
Tree Topology
Interval Type 0~1
0~1
GBFD118601
Abis over IP
Enumeration IP_OVER_FE/GE, Type IP_OVER_E1
IP_OVER_FE/GE, IP_OVER_E1
GBFD111202
GBFD111202
O&M of BTS
SUPPORT(Support), Enumeration NOT_SUPPORT(Not Type Support)
SUPPORT, NOT_SUPPORT
O&M of BTS
Enumeration Type NO(No), YES(Yes)
NO, YES
GBFD111202
O&M of BTS
Enumeration Type E1(E1), T1(T1)
E1, T1
GBFD111202
O&M of BTS
Enumeration Type YES(YES), NO(NO)
YES, NO
MRFD210301
Configuration Management
String Type
None
1~64 characters
GBFD111202
O&M of BTS
Enumeration BYNAME(By Name), Type BYID(By Index)
BYNAME, BYID
GBFD111202
O&M of BTS
Interval Type 0~2047
0~2047
GBFD111202
O&M of BTS
String Type
1~64 characters
GBFD118401
Abis Transmission Optimization
Interval Type 0~15
0~15
GBFD111202
O&M of BTS
Enumeration BYNAME(By Name), Type BYID(By Index)
BYNAME, BYID
GBFD118401
Abis Transmission Optimization
String Type
1~64 characters
GBFD118401
Abis Transmission Optimization
Interval Type 0~2047
None
None
0~2047
GBFD118401
Abis Transmission Optimization
Interval Type 0~31
TS1(Timeslot 1), TS2(Timeslot 2), TS3(Timeslot 3), TS4(Timeslot 4), TS5(Timeslot 5), TS6(Timeslot 6), TS7(Timeslot 7), TS8(Timeslot 8), TS9(Timeslot 9), TS10(Timeslot 10), TS11(Timeslot 11), TS12(Timeslot 12), TS13(Timeslot 13), TS14(Timeslot 14), TS15(Timeslot 15), TS16(Timeslot 16), TS17(Timeslot 17), TS18(Timeslot 18), TS19(Timeslot 19), TS20(Timeslot 20), TS21(Timeslot 21), TS22(Timeslot 22), TS23(Timeslot 23), TS24(Timeslot 24), TS25(Timeslot 25), TS26(Timeslot 26), TS27(Timeslot 27), TS28(Timeslot 28), TS29(Timeslot 29), TS30(Timeslot 30), TS31(Timeslot 31)
GBFD111202
O&M of BTS
Bit Field Type
GBFD111202
O&M of BTS
Enumeration BYNAME(By Name), Type BYID(By Index)
0~31
TS1, TS2, TS3, TS4, TS5, TS6, TS7, TS8, TS9, TS10, TS11, TS12, TS13, TS14, TS15, TS16, TS17, TS18, TS19, TS20, TS21, TS22, TS23, TS24, TS25, TS26, TS27, TS28, TS29, TS30, TS31
BYNAME, BYID
GBFD111202
O&M of BTS
Interval Type 0~2047
0~2047
GBFD111202
O&M of BTS
String Type
1~64 characters
GBFD118605
IP QOS
CSVOICE(CS Voice), CSDATA(CS Data), PSHIGHPRI(PS High Enumeration PRI), PSLOWPRI(PS Type Low PRI)
CSVOICE, CSDATA, PSHIGHPRI, PSLOWPRI
GBFD118604
Abis MUX
Interval Type 16~1023
16~1023
GBFD118604
Abis MUX
Interval Type 24~1031
24~1031
None
GBFD118604
Abis MUX
Interval Type 1~20
1~20
MRFD210301
Configuration Management
Enumeration BYNAME(By Name), Type BYID(By Index)
BYNAME, BYID
GBFD111202
O&M of BTS
Interval Type 0~2047
0~2047
GBFD111202
O&M of BTS
String Type
1~64 characters
GBFD111202
O&M of BTS
Enumeration Type OFF(OFF), ON(ON)
OFF, ON
GBFD111202
O&M of BTS
Interval Type 5~300
5~300
GBFD111202
O&M of BTS
Enumeration BYNAME(By Name), Type BYID(By Index)
BYNAME, BYID
GBFD111202
O&M of BTS
Interval Type 0~2047
0~2047
GBFD111202
O&M of BTS
String Type
1~64 characters
None
None
MRFD210301
Configuration Management
Enumeration BYNAME(By Name), Type BYID(By Index)
BYNAME, BYID
GBFD111202
O&M of BTS
Interval Type 0~2047
0~2047
GBFD111202
O&M of BTS
String Type
1~64 characters
GBFD111202
O&M of BTS
Interval Type 5~20
5~20
GBFD111202
O&M of BTS
Interval Type 3~20
3~20
GBFD111202
O&M of BTS
Interval Type 220~280
220~280
None
GBFD111202
O&M of BTS
Interval Type 5~20
5~20
GBFD111202
O&M of BTS
Interval Type 3~20
3~20
GBFD111202
O&M of BTS
Interval Type 220~280
220~280
GBFD111202
O&M of BTS
Interval Type 1~30
1~30
GBFD111202
O&M of BTS
Enumeration BYIDX(By Index), Type BYNAME(By Name)
BYIDX, BYNAME
GBFD111202
O&M of BTS
Interval Type 0~2047
0~2047
GBFD111202
O&M of BTS
String Type
GBFD118201
SoftSynchronized Network
Interval Type 0~2500
0~2500
SoftSynchronized Network
Interval Type 0~255
0~255
O&M of BTS
String Type
1~256 characters
MRFD210301
Configuration Management
Enumeration BYNAME(By Name), Type BYID(By Index)
BYNAME, BYID
GBFD111202
O&M of BTS
Interval Type 0~2047
0~2047
GBFD111202
O&M of BTS
String Type
1~64 characters
GBFD118201 GBFD111202
None
None
None
1~64 characters
GBFD111202
O&M of BTS
BTS30(BTS30), BTS312(BTS312), BTS3001C(BTS3001C), BTS3001CP(BTS3001C P), BTS3002C(BTS3002C), BTS3012A(BTS3012A), BTS3006A(BTS3006A), BTS3012(BTS3012), BTS3006C(BTS3006C), BTS3002E(BTS3002E), BTS3012AE(BTS3012A E), BTS3012_II(BTS3012_I I), DBS3900_GSM(DBS39 00 GSM), BTS3900_GSM(BTS39 00 GSM), BTS3900A_GSM(BTS3 900A GSM), DBS3036(DBS3036), BTS3036(BTS3036), BTS3036A(BTS3036A), BTS3900L_GSM(BTS3 900L GSM), BTS3900B_GSM(BTS3 900B GSM), Enumeration BTS3900E_GSM(BTS3 Type 900E GSM)
GBFD111202
O&M of BTS
Enumeration Type NO(No), YES(Yes)
NO, YES
MRFD210304
Faulty Management
Interval Type 0~65534
0~65534
MRFD210304
Faulty Management
Interval Type 0~65534
0~65534
MRFD210304
Faulty Management
Interval Type 0~65534
0~65534
BTS30, BTS312, BTS3001C, BTS3001CP, BTS3002C, BTS3012A, BTS3006A, BTS3012, BTS3006C, BTS3002E, BTS3012AE, BTS3012_II, DBS3900_GSM, BTS3900_GSM, BTS3900A_GSM, DBS3036, BTS3036, BTS3036A, BTS3900B_GSM, BTS3900E_GSM, BTS3900L_GSM
MRFD210304
Faulty Management
Interval Type 0~250
0~250
MRFD210304
Faulty Management
Interval Type 0~250
0~250
MRFD210304
Faulty Management
Interval Type 0~100
0~100
MRFD210304
Faulty Management
Interval Type 0~100
0~100
MRFD210304
Faulty Management
Enumeration DISABLE(DISABLE), Type ENABLE(ENABLE)
DISABLE, ENABLE
MRFD210304
Faulty Management
Interval Type 60~65534
60~65534
MRFD210304
Faulty Management
Interval Type 60~65534
60~65534
GBFD111202
O&M of BTS
Enumeration BYNAME(By Name), Type BYID(By Index)
BYNAME, BYID
GBFD111202
O&M of BTS
String Type
1~64 characters
GBFD111202
O&M of BTS
Interval Type 0~2047
0~2047
MRFD210304
Faulty Management
Interval Type 0~65535
0~65535
MRFD210304
Faulty Management
Enumeration RATIORULE(Ratio Type Rule)
RATIORULE
MRFD210304
Faulty Management
Interval Type 0~65535
0~65535
MRFD210304
Faulty Management
Interval Type 0~65535
0~65535
MRFD210304
Faulty Management
Interval Type 0~65535
0~65535
None
MRFD210304
Faulty Management
Interval Type 0~65535
0~65535
GBFD111202
O&M of BTS
Enumeration BYNAME(By Name), Type BYID(By Index)
BYNAME, BYID
GBFD111202
O&M of BTS
String Type
1~64 characters
GBFD111202
O&M of BTS
Interval Type 0~2047
0~2047
GBFD111202
O&M of BTS
Enumeration Type NO(NO), YES(YES)
NO, YES
GBFD111202
O&M of BTS
Interval Type 0~255
0~255
GBFD111202
O&M of BTS
Interval Type 0~255
0~255
GBFD111202
O&M of BTS
Interval Type 0~255
0~255
GBFD111202
O&M of BTS
Interval Type 0~255
0~255
GBFD111202
O&M of BTS
Interval Type 0~255
0~255
GBFD111202
O&M of BTS
Interval Type 0~255
0~255
None
GBFD111202
O&M of BTS
Interval Type 0~255
0~255
GBFD111202
O&M of BTS
Interval Type 0~255
0~255
GBFD111202
O&M of BTS
Enumeration BYNAME(By Name), Type BYID(By Index)
BYNAME, BYID
GBFD111202
O&M of BTS
Interval Type 0~2047
0~2047
GBFD111202
O&M of BTS
String Type
1~64 characters
GBFD111202
O&M of BTS
Interval Type 0~254
None
0~254
GBFD111202
O&M of BTS
Interval Type 0~23
0~23
GBFD111202
O&M of BTS
CDU(CDU), CDUC(CDUC), CDUP(CDUP), CDUR(CDUR), CDUE(CDUE), PCDU(PCDU), RCDU(RCDU), DCDU(DCDU), EDU(EDU), EDUC(EDUC), EDUP(EDUP), EDUR(EDUR), EDUE(EDUE), PEDU(PEDU), REDU(REDU), DEDU(DEDU), DDPM_DDPU(DDPM_ Enumeration DDPU), DFCU(DFCU), Type DFCB(DFCB)
CDU, CDUC, CDUP, CDUR, CDUE, PCDU, RCDU, DCDU, EDU, EDUC, EDUP, EDUR, EDUE, PEDU, REDU, DEDU, DDPM_DDPU, DFCU, DFCB
GBFD111202
O&M of BTS
Interval Type 1~12
1~12
GBFD111202
O&M of BTS
Interval Type 0~53
0~53
GBFD111202
O&M of BTS
Interval Type 0~23
0~23
GBFD111202
O&M of BTS
Interval Type 0~1
0, 1
GBFD111202
O&M of BTS
Enumeration A(A), B(B), Type NULL(NULL)
A, B, NULL
GBFD111202
O&M of BTS
Interval Type 0~255
0~255
GBFD111202
O&M of BTS
Interval Type 0~255
0~255
Configuration Management
PGSM900(PGSM900), EGSML25(EGSM ), EGSM35M(EGSM<35M >), RGSML25(RGSM ), GSM900_RGSM39M(G SM900_RGSM<39M>), DCS1800(DCS1800), PCS1900(PCS1900), GSM850(GSM850), EGSM24M(EGSM<24M >), DCS1800_L(DCS1800< L50M>), Enumeration DCS1800_H(DCS1800< Type H50M>)
PGSM900, EGSML25, EGSM35M, RGSML25, GSM900_RGSM39M, DCS1800, PCS1900, GSM850, EGSM24M, DCS1800_L, DCS1800_H
O&M of BTS
CDU(CDU), CDUC(CDUC), CDUP(CDUP), CDUR(CDUR), CDUE(CDUE), PCDU(PCDU), Enumeration RCDU(RCDU), Type DCDU(DCDU)
CDU, CDUC, CDUP, CDUR, CDUE, PCDU, RCDU, DCDU
GBFD111202
O&M of BTS
EDU(EDU), EDUC(EDUC), EDUP(EDUP), EDUR(EDUR), EDUE(EDUE), PEDU(PEDU), Enumeration REDU(REDU), Type DEDU(DEDU)
EDU, EDUC, EDUP, EDUR, EDUE, PEDU, REDU, DEDU
GBFD111202
O&M of BTS
Enumeration BYNAME(By Name), Type BYID(By Index)
BYNAME, BYID
GBFD111202
O&M of BTS
Interval Type 0~2047
0~2047
MRFD210301
GBFD111202
GBFD111202
O&M of BTS
String Type
GBFD111202
O&M of BTS
Interval Type 0~254
0~254
GBFD111202
O&M of BTS
Interval Type 0~23
0~23
O&M of BTS
CDU(CDU), CDUC(CDUC), CDUP(CDUP), CDUR(CDUR), CDUE(CDUE), PCDU(PCDU), RCDU(RCDU), DCDU(DCDU), EDU(EDU), EDUC(EDUC), EDUP(EDUP), EDUR(EDUR), EDUE(EDUE), PEDU(PEDU), REDU(REDU), DEDU(DEDU), DDPM_DDPU(DDPM_ Enumeration DDPU), DFCU(DFCU), Type DFCB(DFCB)
CDU, CDUC, CDUP, CDUR, CDUE, PCDU, RCDU, DCDU, EDU, EDUC, EDUP, EDUR, EDUE, PEDU, REDU, DEDU, DDPM_DDPU, DFCU, DFCB
GBFD111202
O&M of BTS
1(1), 2(2), 3(3), 4(4), 5(5), 6(6), 7(7), 8(8), Enumeration 9(9), 10(10), 11(11), Type 12(12)
1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12
GBFD111202
O&M of BTS
Interval Type 0~53, 255
0~53, 255
GBFD111202
O&M of BTS
Interval Type 0~23, 255
0~23, 255
GBFD111202
O&M of BTS
Interval Type 0~1, 255
0~1, 255
GBFD111202
None
1~64 characters
GBFD111202
O&M of BTS
Enumeration A(A), B(B), Type NULL(NULL)
A, B, NULL
GBFD111202
O&M of BTS
Interval Type 0~255
0~255
GBFD111202
O&M of BTS
Interval Type 0~255
0~255
GBFD111202
O&M of BTS
1(1), 2(2), 3(3), 4(4), 5(5), 6(6), 7(7), 8(8), Enumeration 9(9), 10(10), 11(11), Type 12(12)
1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12
GBFD111202
O&M of BTS
Interval Type 0~53, 255
0~53, 255
GBFD111202
O&M of BTS
Interval Type 0~23, 255
0~23, 255
GBFD111202
O&M of BTS
Interval Type 0~1, 255
0~1, 255
GBFD111202
O&M of BTS
Enumeration Type NO(NO), YES(YES)
NO, YES
GBFD111202
O&M of BTS
Interval Type 0~15
0~15
GBFD111202
O&M of BTS
1(1), 2(2), 3(3), 4(4), 5(5), 6(6), 7(7), 8(8), Enumeration 9(9), 10(10), 11(11), Type 12(12)
1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12
GBFD111202
O&M of BTS
Interval Type 0~53, 255
0~53, 255
GBFD111202
O&M of BTS
Interval Type 0~23, 255
0~23, 255
GBFD111202
O&M of BTS
Interval Type 0~1, 255
0~1, 255
GBFD111202
O&M of BTS
Enumeration Type NO(NO), YES(YES)
NO, YES
GBFD111202
O&M of BTS
Interval Type 0~15
0~15
GBFD111202
O&M of BTS
Enumeration BYNAME(By Name), Type BYID(By Index)
BYNAME, BYID
GBFD111202
O&M of BTS
Interval Type 0~2047
0~2047
GBFD111202
O&M of BTS
String Type
1~64 characters
GBFD111202
O&M of BTS
Interval Type 0~62
0~62
GBFD111202
O&M of BTS
Interval Type 0~254
0~254
GBFD111202
O&M of BTS
Interval Type 0~23
0~23
GBFD111202
O&M of BTS
Enumeration Type NO(NO), YES(YES)
NO, YES
O&M of BTS
APM100(APM100), APM200(APM200), APM30(APM30), EPS4890(EPS4890), EPS4815(EPS4815), SC48200(SC48200), Enumeration DPMU(DPMU), Type CUSTOM(CUSTOM)
APM100, APM200, APM30, EPS4890, EPS4815, SC48200, CUSTOM, DPMU
GBFD111202
None
GBFD111202
O&M of BTS
Enumeration Type NO(NO), YES(YES)
NO, YES
GBFD111202
O&M of BTS
Enumeration Type NO(NO), YES(YES)
NO, YES
GBFD111202
O&M of BTS
Enumeration Type NO(NO), YES(YES)
NO, YES
MRFD210304
Faulty Management
Enumeration Type NO(NO), YES(YES)
NO, YES
GBFD111202
GBFD111202
O&M of BTS
O&M of BTS
Bit Field Type
BT1_DISABLE(Battery Temp 1 Disabled), AH_DISABLE(Envirome nt Humidity Disabled), AT1_DISABLE(Envirom ent Temp 1 Disabled), AT2_DISABLE(Envirom ent Temp 2 Disabled), BT1_DISABLE, AH_DISABLE, BT2_DISABLE(Battery AT1_DISABLE, AT2_DISABLE, Temp 2 Disabled) BT2_DISABLE
Bit Field Type
WS_DISABLE(WaterImmersed Sensor Disabled), SS_DISABLE(Smog Sensor Disabled), GS_DISABLE(Gating Sensor Disabled)
WS_DISABLE, SS_DISABLE, GS_DISABLE
GBFD111202
O&M of BTS
Enumeration Type NO(NO), YES(YES)
GBFD111202
O&M of BTS
NO_BAT(No Battery), VRLA_INNER_BAT(VR LA Inner Battery), VRLA_OUTER_BAT(V Enumeration RLA Outer Battery), NO_BAT, VRLA_INNER_BAT, Type LI_BAT(Li-Ion Battery) VRLA_OUTER_BAT, LI_BAT
GBFD111202
O&M of BTS
Interval Type 5~25
5~25
GBFD111202
O&M of BTS
Interval Type 0~5000
0~5000
GBFD111202
O&M of BTS
Interval Type 1~2
1~2
GBFD111202 GBFD111601
O&M of BTS BTS Power Management
Enumeration Type NO(NO), YES(YES)
NO, YES
GBFD111202
O&M of BTS
Interval Type 350~556
35.0~55.6 (step: 0.1)
NO, YES
GBFD111202
O&M of BTS
Interval Type 432~576
43.2~57.6 (step: 0.1)
GBFD111202
O&M of BTS
Interval Type 432~576
43.2~57.6 (step: 0.1)
GBFD111202
O&M of BTS
Enumeration DISABLE(DISABLE), Type ENABLE(ENABLE)
DISABLE, ENABLE
GBFD111202 GBFD111601
O&M of BTS BTS Power Management
Enumeration DISABLE(DISABLE), Type ENABLE(ENABLE)
DISABLE, ENABLE
GBFD111202
O&M of BTS
Interval Type 350~556
35.0~55.6 (step: 0.1)
GBFD111202
O&M of BTS
Enumeration Type NO(NO), YES(YES)
NO, YES
GBFD111202
O&M of BTS
Interval Type -400~0
-40.0~0.0 (step: 0.1)
GBFD111202
O&M of BTS
Interval Type 60~300
60~300
GBFD111202
O&M of BTS
Interval Type 60~300
60~300
GBFD111202
O&M of BTS
Interval Type 580~600
58.0~60.0 (step: 0.1)
GBFD111202
O&M of BTS
Interval Type 350~556
35.0~55.6 (step: 0.1)
GBFD111202
O&M of BTS
Enumeration Type NO(NO), YES(YES)
NO, YES
GBFD111202
O&M of BTS
Interval Type 0~1000
0.0~100.0 (step: 0.1)
GBFD111202
O&M of BTS
Interval Type -500~0
-50.0~0.0 (step: 0.1)
GBFD111202
O&M of BTS
Interval Type 35~80
35~80
GBFD111202
O&M of BTS
Interval Type -20~20
-20~20
GBFD111202
O&M of BTS
Interval Type 0~500
0~500
GBFD111202
O&M of BTS
Battery1Temp(Battery 1 Temperature), Enumeration Battery2Temp(Battery 2 Type Temperature) Battery1Temp, Battery2Temp
GBFD111202
O&M of BTS
Enumeration Type NO(NO), YES(YES)
NO, YES
MRFD210304
Faulty Management
Interval Type 350~800
35.0~80.0(step: 0.1)
MRFD210304
Faulty Management
Interval Type -200~200
-20.0~20.0 (step: 0.1)
GBFD111202
O&M of BTS
Enumeration Type NO(NO), YES(YES)
NO, YES
MRFD210304
Faulty Management
Interval Type 0~1000
0.0~100.0 (step: 0.1)
MRFD210304
Faulty Management
Interval Type 0~1000
0.0~100.0 (step: 0.1)
GBFD111202
O&M of BTS
Enumeration Type NO(NO), YES(YES)
NO, YES
GBFD111202
O&M of BTS
Enumeration DISABLE(DISABLE), Type ENABLE(ENABLE)
DISABLE, ENABLE
GBFD111202
O&M of BTS
Interval Type 1~1000
0.1~100.0 (step: 0.1)
GBFD111202
O&M of BTS
Interval Type 0~90
0~90
GBFD111202
O&M of BTS
Interval Type 0~62, 255
0~62, 255
GBFD111202
O&M of BTS
Interval Type 0~255
0~255
GBFD111202
O&M of BTS
Interval Type 0~23, 255
0~23, 255
MRFD210304
Faulty Management
Enumeration DISABLE(DISABLE), Type ENABLE(ENABLE)
DISABLE, ENABLE
GBFD111202
O&M of BTS
Enumeration Type NO(NO), YES(YES)
NO, YES
GBFD111202 GBFD111601
O&M of BTS BTS Power Management
Interval Type 40~70
40~70
GBFD111202 GBFD111601
O&M of BTS BTS Power Management
Interval Type 50~70
50~70
GBFD111202
O&M of BTS
Interval Type 0~62
0~62
GBFD111202
O&M of BTS
Interval Type 0~254
0~254
GBFD111202
O&M of BTS
Interval Type 0~1
0~1
GBFD111202
O&M of BTS
Interval Type 1~30
1~30
GBFD111202
O&M of BTS
Interval Type 30~240
30~240
GBFD111202
O&M of BTS
Enumeration Type NO(NO), YES(YES)
NO, YES
GBFD111202
O&M of BTS
Interval Type 1~5000
0.01~50.0 (step: 0.01)
GBFD111202
O&M of BTS
Interval Type 1~5000
0.01~50.0 (step: 0.01)
GBFD111202
O&M of BTS
Interval Type 1~5000
0.01~50.0 (step: 0.01)
GBFD111202
O&M of BTS
Interval Type 1~5000
0.01~50.0 (step: 0.01)
GBFD111202
O&M of BTS
Interval Type 1~5000
0.01~50.0 (step: 0.01)
GBFD111202
O&M of BTS
Interval Type 1~5000
0.01~50.0 (step: 0.01)
GBFD111202
O&M of BTS
Interval Type 1~5000
0.01~50.0 (step: 0.01)
GBFD111202
O&M of BTS
Interval Type 1~5000
0.01~50.0 (step: 0.01)
GBFD111202
O&M of BTS
Interval Type 1~5000
0.01~50.0 (step: 0.01)
GBFD111202
O&M of BTS
Interval Type 1~5000
0.01~50.0 (step: 0.01)
GBFD111202
O&M of BTS
Interval Type 80~100
0.8~1.0 (step: 0.01)
GBFD111202
O&M of BTS
Interval Type 170~220
1.7~2.2 (step: 0.01)
GBFD111202
O&M of BTS
Interval Type 1~50
1~50
GBFD111202
O&M of BTS
Interval Type 1~100
1~100
GBFD111202
O&M of BTS
Interval Type 400~540
40~54 (step: 0.1)
GBFD111202
O&M of BTS
Interval Type 1~240
1~240
GBFD111202
O&M of BTS
NOAUTOTEST(no automatic test mode), PERIOD(scheduled automatic test mode), POWERCUT(power failure automatic test mode), PERIODPOWERCUT(s cheduled automatic NOAUTOTEST, PERIOD, Enumeration test+power failure POWERCUT, Type automatic test mode) PERIODPOWERCUT
GBFD111202
O&M of BTS
Interval Type 30~240
30~240
GBFD111202
O&M of BTS
Interval Type 1~60
1~60
O&M of BTS
Enumeration Type OFF(OFF), ON(ON)
OFF, ON
GBFD111202
GBFD111202
O&M of BTS
Compound Type
hour, min, sec
00:00:00~23:59:59
GBFD111202
O&M of BTS
Compound Type
hour, min, sec
00:00:00~23:59:59
GBFD111202
O&M of BTS
Enumeration BYNAME(By Name), Type BYID(By Index)
BYNAME, BYID
GBFD111202
O&M of BTS
Interval Type 0~2047
0~2047
GBFD111202
O&M of BTS
String Type
1~64 characters
GBFD111202
O&M of BTS
Enumeration Type OFF(OFF), ON(ON)
O&M of BTS
BTSAUTODLDACT(BT S Software Auto DL and ACT), Enumeration TMUAUTOACT(TMU BTSAUTODLDACT, Type Software Auto ACT) TMUAUTOACT
GBFD111202
None
OFF, ON
GBFD111202
O&M of BTS
String Type
None
1~51 characters
GBFD111202
O&M of BTS
String Type
None
1~51 characters
GBFD111202
O&M of BTS
String Type
None
1~50 characters
O&M of BTS
COMMON_DLD(Comm on Download), QUICK_DLD1(Quick Download No Traffic), QUICK_DLD2(Quick Enumeration Download Reserve COMMON_DLD, QUICK_DLD1, Type BCCH) QUICK_DLD2
GBFD111202
O&M of BTS
BTS30(BTS30), BTS312(BTS312), BTS3001C(BTS3001C), BTS3001CP(BTS3001C P), BTS3002C(BTS3002C), BTS3012A(BTS3012A), BTS3006A(BTS3006A), BTS3012(BTS3012), BTS3006C(BTS3006C), BTS3002E(BTS3002E), BTS3012AE(BTS3012A E), BTS3012_II(BTS3012 II), DBS3900_GSM(DBS39 00 GSM), BTS3900_GSM(BTS39 00 GSM), BTS3900A_GSM(BTS3 900A GSM), DBS3036(DBS3036), BTS3036(BTS3036), BTS3036A(BTS3036A), BTS3900L_GSM(BTS3 900L GSM), BTS3900B_GSM(BTS3 900B GSM), Enumeration BTS3900E_GSM(BTS3 Type 900E GSM)
BTS30, BTS312, BTS3001C, BTS3001CP, BTS3002C, BTS3012A, BTS3006A, BTS3012, BTS3006C, BTS3002E, BTS3012AE, BTS3012_II, DBS3900_GSM, BTS3900_GSM, BTS3900A_GSM, DBS3036, BTS3036, BTS3036A, BTS3900L_GSM, BTS3900B_GSM, BTS3900E_GSM
GBFD111202
O&M of BTS
Interval Type 0~9999
0~9999
GBFD111202
GBFD111202
O&M of BTS
Interval Type 0~65535
0~65535
GBFD111202
O&M of BTS
Interval Type 0~9999
0~9999
GBFD111202
O&M of BTS
Interval Type 0~12
0~12
GBFD111202
O&M of BTS
Interval Type 0~31
0~31
GBFD111202
O&M of BTS
Interval Type 0~999
0~999
GBFD111202
O&M of BTS
Interval Type 0~999
0~999
GBFD111202
O&M of BTS
Interval Type 0~99
0~99
GBFD111202
O&M of BTS
Interval Type 0~99
0~99
GBFD111202
O&M of BTS
Interval Type 0~2047
0~2047
GBFD111202
O&M of BTS
String Type
1~64 characters
GBFD510701
Compact BTS Automatic Configuration and Planning
BTS3900B_GSM(BTS3 900B GSM), Enumeration BTS3900E_GSM(BTS3 BTS3900B_GSM, Type 900E GSM) BTS3900E_GSM
GBFD510701
Compact BTS Automatic Configuration and Planning
Enumeration Type BSC, BTS
BSC, BTS
MRFD210301
Configuration Management
Interval Type 0~11
0~11
None
MRFD210301
Configuration Management
Interval Type 0~27
0~27
GBFD111202
O&M of BTS
Interval Type 0~355
0~355
GBFD111202
O&M of BTS
Enumeration BYNAME(By Name), Type BYID(By Index)
BYNAME, BYID
GBFD111202
O&M of BTS
Interval Type 0~2047
0~2047
GBFD111202
O&M of BTS
String Type
1~64 characters
GBFD111202
O&M of BTS
Interval Type 0~62
0~62
GBFD111202
O&M of BTS
Interval Type 0~254
0~254
None
GBFD111202
O&M of BTS
Interval Type 0~23
0~23
GBFD111202
O&M of BTS
Interval Type 0~23
0~23
GBFD510601
PICO Automatic Configuration Enumeration and Planning Type TDM, HDLC, IP
GBFD118601
Abis over IP
IP Address Type
None
0.0.0.0~255.255.255.255
GBFD118601
Abis over IP
IP Address Type
None
0.0.0.0~255.255.255.255
GBFD118601
Abis over IP
IP Address Type
None
0.0.0.0~255.255.255.255
GBFD118601
Abis over IP
IP Address Type
None
0.0.0.0~255.255.255.255
GBFD118601
Abis over IP
String Type
None
1~64 characters
TDM, HDLC, IP
O&M of BTS
SUPPORT(Support), Enumeration NOT_SUPPORT(Not Type Support)
SUPPORT, NOT_SUPPORT
MRFD210301
Configuration Management
Interval Type 0~2047
0~2047
GBFD111202
O&M of BTS
String Type
1~64 characters
GBFD510701
Compact BTS Automatic Configuration and Planning
GSM900, DCS1800, GSM900_DCS1800, Enumeration GSM850, PCS1900, Type GSM850_1900
GSM900, DCS1800, GSM900_DCS1800, GSM850, PCS1900, GSM850_1900
MRFD210301
Configuration Management
String Type
None
3 digits
MRFD210301
Configuration Management
String Type
None
2~3 digits
MRFD210301
Configuration Management
Interval Type 1~65533, 65535
1~65533, 65535
MRFD210301
Configuration Management
Interval Type 0~65535
0~65535
GBFD111202
None
GBFD510701 GBFD510601
Compact BTS Automatic Configuration and Planning PICO Automatic Configuration and Planning Interval Type 1~2
GBFD118606
Clock over IP
IP Address Type
GBFD118601
Abis over IP
IP_OVER_FE/GE(IP_O VER_FE/GE), Enumeration IP_OVER_E1(IP_OVER Type _E1) IP_OVER_FE/GE, IP_OVER_E1
MRFD210301
Configuration Management
String Type
None
1~64 characters
GBFD111202
O&M of BTS
Enumeration BYNAME(By Name), Type BYID(By Index)
BYNAME, BYID
GBFD111202
O&M of BTS
Interval Type 0~2047
0~2047
GBFD111202
O&M of BTS
String Type
1~64 characters
None
None
1~2
0.0.0.0~255.255.255.255
GBFD510701
Compact BTS Automatic Configuration and Planning
Enumeration AUTO(AUTOPLAN), Type NORMAL(NORMAL)
GBFD510701
Compact BTS Automatic Configuration and Planning
BTS3900B_GSM(BTS3 900B GSM), Enumeration BTS3900E_GSM(BTS3 BTS3900B_GSM, Type 900E GSM) BTS3900E_GSM
GBFD510601
PICO Automatic Configuration Enumeration and Planning Type OFF(OFF), ON(ON)
OFF, ON
MRFD210301
Configuration Management
String Type
None
3 digits
MRFD210301
Configuration Management
String Type
None
2~3 digits
MRFD210301
Configuration Management
Interval Type 1~65533, 65535
1~65533, 65535
MRFD210301
Configuration Management
Interval Type 0~65535
0~65535
GBFD510701
Compact BTS Automatic Configuration and Planning
Interval Type 0~255
0~255
GBFD510601
PICO Automatic Configuration Enumeration and Planning Type OFF(OFF), ON(ON)
OFF, ON
GBFD510701
Compact BTS Automatic Configuration and Planning
OFF, ON
Enumeration Type OFF(OFF), ON(ON)
AUTO, NORMAL
GBFD510701 GBFD510601
Compact BTS Automatic Configuration and Planning PICO Automatic Configuration and Planning Interval Type 1~2
1~2
GBFD510704 GBFD510601
Compact BTS Automatic Neighbor Cell Planning and Optimization PICO Automatic Configuration Enumeration and Planning Type OFF(OFF), ON(ON)
OFF, ON
GBFD510702 GBFD510607
Compact BTS Automatic Capacity Planning PICO Automatic Enumeration Optimization Type OFF(OFF), ON(ON)
OFF, ON
GBFD510702
Compact BTS Automatic Capacity Planning
Enumeration Type OFF(OFF), ON(ON)
OFF, ON
GBFD510702
Compact BTS Automatic Capacity Planning
Interval Type 1~2
1~2
GBFD510702
Compact BTS Automatic Capacity Planning
String Type
None
1~3 characters
GBFD510702
Compact BTS Automatic Capacity Planning
String Type
None
1~3 characters
GBFD510702
Compact BTS Automatic Capacity Planning
Interval Type 1~65533, 65535
1~65533, 65535
MRFD210301
Configuration Management
Interval Type 0~65535
0~65535
GBFD510702
Compact BTS Automatic Capacity Planning
Interval Type 0~255
0~255
GBFD510704
Compact BTS Automatic Neighbor Cell Planning and Optimization
Enumeration Type OFF(OFF), ON(ON)
OFF, ON
GBFD510603
PICO Dual-band Enumeration Auto-planning Type NO(NO), YES(YES)
NO, YES
MRFD210301
Configuration Management
Enumeration BYNAME(By Name), Type BYID(By Index)
BYNAME, BYID
GBFD111202
O&M of BTS
Interval Type 0~2047
0~2047
GBFD111202
GBFD111202
GBFD111202
O&M of BTS
O&M of BTS
O&M of BTS
String Type
None
1~64 characters
Bit Field Type
AU0(Auxiliary Equipment8), AU1(Auxiliary Equipment7), AU2(Auxiliary Equipment6), AU3(Auxiliary Equipment5), AU4(Temperature Control Unit), AU5(Transmission Power), AU6(Inner Battery), AU7(Voltage Regulator)
AU0, AU1, AU2, AU3, AU4, AU5, AU6, AU7
Bit Field Type
AU0(Auxiliary Equipment8), AU1(Auxiliary Equipment7), AU2(Auxiliary Equipment6), AU3(Auxiliary Equipment5), AU4(Temperature Control Unit), AU5(Transmission Power), AU6(Inner Battery), AU7(Voltage Regulator)
AU0, AU1, AU2, AU3, AU4, AU5, AU6, AU7
AU0(Auxiliary Equipment8), AU1(Auxiliary Equipment7), AU2(Auxiliary Equipment6), AU3(Auxiliary Equipment5), AU4(Temperature Control Unit), AU5(Transmission Power), AU6(Inner Battery), AU7(Voltage Regulator)
GBFD111202
O&M of BTS
Bit Field Type
MRFD210301
Configuration Management
Enumeration BYNAME(By Name), Type BYID(By Index)
BYNAME, BYID
GBFD111202
O&M of BTS
Interval Type 0~2047
0~2047
GBFD111202
O&M of BTS
String Type
1~64 characters
GBFD111605
Active Backup Power Control
BYTRX(Turn off TRX), Enumeration BYPWR(Reduce Type Backup Power)
None
AU0, AU1, AU2, AU3, AU4, AU5, AU6, AU7
BYTRX, BYPWR
GBFD111605
Active Backup Power Control
BYCOVER(Cover Priority), BYCAP(Capability Priority), Enumeration BYSAVING(Saving Type Priority)
GBFD111605
Active Backup Power Control
Interval Type 0~12
0~12
GBFD111605
Active Backup Power Control
Interval Type 0~12
0~12
GBFD111605
Active Backup Power Control
Interval Type 1~60
1~60
GBFD111605
Active Backup Power Control
Interval Type 2~10
2~10
GBFD111605
Active Backup Power Control
Interval Type 0~20
0~20
GBFD111605
Active Backup Power Control
Interval Type 0~720
0~720
MRFD210301
Configuration Management
Enumeration BYNAME(By Name), Type BYID(By Index)
BYNAME, BYID
GBFD111202
O&M of BTS
Interval Type 0~2047
0~2047
BYCOVER, BYCAP, BYSAVING
GBFD111202
O&M of BTS
String Type
GBFD111202
O&M of BTS
Enumeration BTS3002C, BTS3012A, BTS3002C, BTS3012A, Type BTS3006A BTS3006A
GBFD111202
O&M of BTS
Interval Type 190~240
19.0~24.0, step:0.1
GBFD111202
O&M of BTS
Enumeration Type NO(No), YES(Yes)
NO, YES
O&M of BTS
INSIDE_BATTERY(Insi de Storage Battery), Enumeration OUTSIDE_BATTERY(O INSIDE_BATTERY, Type utside Storage Battery) OUTSIDE_BATTERY
GBFD111202
None
1~64 characters
O&M of BTS
INSIDE_100AH(100AH Inside Storage Battery), INSIDE_50AH(50AH Inside Storage Battery), OUTSIDE_300AH(300A H Outside Storage Battery), OUTSIDE_400AH(400A H Outside Storage Battery), OUTSIDE_500AH(500A H Outside Storage Battery), OUTSIDE_650AH(650A H Outside Storage Battery), OUTSIDE_200AH(200A Enumeration H Outside Storage Type Battery)
INSIDE_100AH, INSIDE_50AH, OUTSIDE_300AH, OUTSIDE_400AH, OUTSIDE_500AH, OUTSIDE_650AH, OUTSIDE_200AH
GBFD111202
O&M of BTS
007C(0.07C), Enumeration 010C(0.10C), Type 015C(0.15C)
007C, 010C, 015C
GBFD111202
O&M of BTS
Enumeration Type NO(No), YES(Yes)
NO, YES
O&M of BTS
INSIDE_BATTERY(Insi de Storage Battery), Enumeration OUTSIDE_BATTERY(O INSIDE_BATTERY, Type utside Storage Battery) OUTSIDE_BATTERY
GBFD111202
GBFD111202
O&M of BTS
INSIDE_100AH(100AH Inside Storage Battery), INSIDE_50AH(50AH Inside Storage Battery), OUTSIDE_300AH(300A H Outside Storage Battery), OUTSIDE_400AH(400A H Outside Storage Battery), OUTSIDE_500AH(500A H Outside Storage Battery), OUTSIDE_650AH(650A H Outside Storage Battery), OUTSIDE_200AH(200A Enumeration H Outside Storage Type Battery)
INSIDE_100AH, INSIDE_50AH, OUTSIDE_300AH, OUTSIDE_400AH, OUTSIDE_500AH, OUTSIDE_650AH, OUTSIDE_200AH
GBFD111202
O&M of BTS
007C(0.07C), Enumeration 010C(0.10C), Type 015C(0.15C)
007C, 010C, 015C
GBFD111202
O&M of BTS
Enumeration Type NO(No), YES(Yes)
NO, YES
O&M of BTS
INSIDE_BATTERY(Insi de Storage Battery), Enumeration OUTSIDE_BATTERY(O INSIDE_BATTERY, Type utside Storage Battery) OUTSIDE_BATTERY
GBFD111202
GBFD111202
O&M of BTS
INSIDE_100AH(100AH Inside Storage Battery), INSIDE_50AH(50AH Inside Storage Battery), OUTSIDE_300AH(300A H Outside Storage Battery), OUTSIDE_400AH(400A H Outside Storage Battery), OUTSIDE_500AH(500A H Outside Storage Battery), OUTSIDE_650AH(650A H Outside Storage Battery), OUTSIDE_200AH(200A Enumeration H Outside Storage Type Battery)
INSIDE_100AH, INSIDE_50AH, OUTSIDE_300AH, OUTSIDE_400AH, OUTSIDE_500AH, OUTSIDE_650AH, OUTSIDE_200AH
GBFD111202
O&M of BTS
007C(0.07C), Enumeration 010C(0.10C), Type 015C(0.15C)
007C, 010C, 015C
GBFD111202
O&M of BTS
Interval Type 0~65535
0~65535
GBFD111202
O&M of BTS
Interval Type 0~65535
0~65535
MRFD210301
Configuration Management
Enumeration BYNAME(By Name), Type BYID(By Index)
BYNAME, BYID
GBFD111202
O&M of BTS
Interval Type 0~2047
0~2047
GBFD111202
GBFD111202
O&M of BTS
String Type
None
GBFD118609
IP Fault Detection Based on BFD IP Fault Detection Based on BFD IP Fault Detection Based on BFD IP Fault Detection Based on BFD IP Fault Detection Based on BFD IP Fault Detection Based on BFD IP Fault Detection Based on BFD IP Fault Detection Based on BFD IP Fault Detection Based on BFD IP Fault Detection Based on BFD
GBFD118609
IP Fault Detection Based on BFD Interval Type 3~10
GBFD118609 GBFD118609 GBFD118609 GBFD118609 GBFD118609 GBFD118609 GBFD118609 GBFD118609 GBFD118609
1~64 characters
Interval Type 0~62
0~62
Interval Type 0~254
0~254
Interval Type 0~23
0~23
Interval Type 1~2
1~2
IP Address Type
None
0.0.0.0~255.255.255.255
IP Address Type
None
0.0.0.0~255.255.255.255
Enumeration SBFD(SINGLE_HOP), Type MBFD(MULTI_HOP)
SBFD, MBFD
Interval Type 0~1000000
0~1000000
Interval Type 10~1000
10~1000
Interval Type 10~1000
10~1000
3~10
GBFD111202
O&M of BTS
Interval Type 0~62
0~62
GBFD111202
O&M of BTS
Interval Type 0~254
0~254
GBFD111202
O&M of BTS
Interval Type 0~23
0~23
GBFD111202
O&M of BTS
Enumeration BYNAME(By Name), Type BYID(By Index)
BYNAME, BYID
GBFD111202
O&M of BTS
Interval Type 0~2047
0~2047
GBFD111202
O&M of BTS
String Type
1~64 characters
GBFD118401
Abis Transmission Optimization
Interval Type 0~15
None
0~15
GBFD111202
O&M of BTS
Enumeration BYNAME(By Name), Type BYID(By Index)
BYNAME, BYID
GBFD111202
O&M of BTS
Interval Type 0~2047
0~2047
GBFD111202
O&M of BTS
String Type
1~64 characters
GBFD510104
Multi-site Cell
Interval Type 0~35
0~35
GBFD510104
Multi-site Cell
Interval Type 0~35
0~35
GBFD510104
Multi-site Cell
Interval Type 0~4095
0~4095
GBFD111202
O&M of BTS
Interval Type 0~62
0~62
GBFD111202
O&M of BTS
Interval Type 0~254
0~254
GBFD111202
O&M of BTS
Interval Type 0~23
0~23
None
GBFD510104
Multi-site Cell
Interval Type 0~7
0~7
GBFD510104
Multi-site Cell
Enumeration Type A(A), B(B)
A, B
GBFD111202
O&M of BTS
Enumeration BYNAME(By Name), Type BYID(By Index)
BYNAME, BYID
GBFD111202
O&M of BTS
Interval Type 0~2047
0~2047
GBFD111202
O&M of BTS
String Type
1~64 characters
GBFD111202
O&M of BTS
Interval Type 0~62
0~62
GBFD111202
O&M of BTS
Interval Type 0~254
0~254
GBFD111202
O&M of BTS
Interval Type 0~23
0~23
None
O&M of BTS
PWC(PWC), EAC_EMUA(EAC_EMU A), DTMU(DTMU), DATM_DATU(DATM_D ATU), NFCB(NFCB), EMU_DEMU(EMU_DE MU), DPMU(DPMU), DCBM_DCOM(DCBM_ DCOM), DHEU(DHEU), ECOM(ECOM), MFU(MFU), MPW(MPW), MCD(MCD), IASU(IASU), PTU(PTU), TMU(TMU), PSU_APSU(PSU_APS U), PMU_APMU(PMU_AP MU), 3001C_MFU(3001C_M FU), TEU(TEU), TES(TES), PBU(PBU), DPBU(DPBU), RPBU(RPBU), PPBU(PPBU), SCU(SCU), MDU(MDU), UPEU(UPEU), UEIU(UEIU), FMU(FMU), FMUA(FMUA), DTCU(DTCU), GATM(GATM), Enumeration DGPS(DGPS), Type USCU(USCU),
PWC, EAC_EMUA, DTMU, DATM_DATU, NFCB, EMU_DEMU, DPMU, DCBM_DCOM, DHEU, ECOM, MFU, MPW, MCD, IASU, PTU, TMU, PSU_APSU, DPBU, RPBU, PPBU, PMU_APMU, 3001C_MFU, TEU, TES, PBU, SCU, MDU, UPEU, UEIU, FMU, FMUA, DTCU, GATM, DGPS, USCU, UBRI, FAN, EMU, PMU, TCU, PSU, UTRP
O&M of BTS
GSM900(GSM900), DCS1800(DCS1800), Enumeration GSM850(GSM850), Type PCS1900(PCS1900)
GSM900, DCS1800, GSM850, PCS1900
GBFD111202
O&M of BTS
PBU(PBU), DPBU(DPBU), Enumeration RPBU(RPBU), Type PPBU(PPBU)
PBU, DPBU, RPBU, PPBU
GBFD111202
O&M of BTS
Enumeration BYNAME(By Name), Type BYID(By Index)
BYNAME, BYID
GBFD111202
O&M of BTS
Interval Type 0~2047
0~2047
GBFD111202
GBFD111202
GBFD111202
O&M of BTS
String Type
GBFD111202
O&M of BTS
Interval Type
0
0
GBFD111202
O&M of BTS
Interval Type
0
0
GBFD111202
O&M of BTS
Interval Type 0~7
0~7
GBFD111202
O&M of BTS
Enumeration Type ON(ON), OFF(OFF)
ON, OFF
GBFD111202
O&M of BTS
Enumeration BYNAME(By Name), Type BYID(By Index)
BYNAME, BYID
GBFD111202
O&M of BTS
Interval Type 0~2047
0~2047
GBFD111202
O&M of BTS
String Type
1~64 characters
GBFD111202
O&M of BTS
GBFD111202
O&M of BTS
GBFD111202
O&M of BTS
Interval Type 0~249 0(0), 1(1), 2(2), 3(3), Enumeration 4(4), 5(5), 6(6), Type NULL(NULL) 0(0), 1(1), 2(2), 3(3), Enumeration 4(4), 5(5), 6(6), Type NULL(NULL)
None
None
1~64 characters
0~249
0, 1, 2, 3, 4, 5, 6, NULL
0, 1, 2, 3, 4, 5, 6, NULL
GBFD111202
O&M of BTS
Enumeration BYNAME(By Name), Type BYID(By Index)
BYNAME, BYID
GBFD111202
O&M of BTS
Interval Type 0~2047
0~2047
GBFD111202
O&M of BTS
String Type
1~64 characters
GBFD118601
Abis over IP
Enumeration Type HDLC, IP
HDLC, IP
GBFD111202
O&M of BTS
Interval Type 0~64
0~64
GBFD111202
O&M of BTS
Interval Type 0~64
0~64
GBFD111202
O&M of BTS
Interval Type 0~256
0~256
GBFD111202
O&M of BTS
Interval Type 0~256
0~256
GBFD111202
O&M of BTS
Interval Type 1~100
1~100
GBFD111202
O&M of BTS
Enumeration BYNAME(By Name), Type BYID(By Index)
BYNAME, BYID
GBFD111202
O&M of BTS
Interval Type 0~2047
0~2047
None
GBFD111202
O&M of BTS
String Type
GBFD111202
O&M of BTS
Interval Type 0~62
0~62
O&M of BTS
SUPPORT(Support SRAN), Enumeration NOT_SUPPORT(Not Type Support)
SUPPORT, NOT_SUPPORT
GBFD111202
None
1~64 characters
GBFD111202
O&M of BTS
BTS30(BTS30), BTS312(BTS312), BTS3001C(BTS3001C), BTS3001CP(BTS3001C P), BTS3002C(BTS3002C), BTS3012A(BTS3012A), BTS3006A(BTS3006A), BTS3012(BTS3012), BTS3006C(BTS3006C), BTS3002E(BTS3002E), BTS3012AE(BTS3012A E), BTS3012_II(BTS3012 II), DBS3900_GSM(DBS39 00 GSM), BTS3900_GSM(BTS39 00 GSM), BTS3900A_GSM(BTS3 900A GSM), DBS3036(DBS3036), BTS3036(BTS3036), BTS3036A(BTS3036A), BTS3900B_GSM(BTS3 900B GSM), BTS3900E_GSM(BTS3 900E GSM), BTS3900_GSM_6RFC( BTS3900 GSM 6RFC), BTS3900A_GSM_6RFC (BTS3900A GSM 6RFC), Enumeration BTS3036_6RFC(BTS30 Type 36 6RFC),
GBFD111202
O&M of BTS
String Type
GBFD111202
O&M of BTS
Enumeration BYNAME(By Name), Type BYID(By Index)
BYNAME, BYID
GBFD111202
O&M of BTS
Interval Type 0~2047
0~2047
None
BTS30, BTS312, BTS3001C, BTS3001CP, BTS3002C, BTS3012A, BTS3006A, BTS3012, BTS3006C, BTS3002E, BTS3012AE, BTS3012_II, DBS3900_GSM, BTS3900_GSM, BTS3900A_GSM, DBS3036, BTS3036, BTS3036A, BTS3900B_GSM, BTS3900E_GSM, BTS3900_GSM_6RFC, BTS3900A_GSM_6RFC, BTS3036_6RFC, BTS3036A_6RFC, APM30, TMC, BBC, APM100, APM200, PS4890, OMB, RFC-6, BTS3900, BTS3900L, BTS3900AL, BTS3900AS, BTS3900B, BTS3900E, VIRTUAL, BTS3012_SRAN, BTS3012AE_SRAN, BTS3012II_SRAN
1~200 characters
GBFD111202
O&M of BTS
String Type
GBFD111202
O&M of BTS
Interval Type 0~62
0~62
GBFD111202
O&M of BTS
Enumeration Type NO(NO), YES(YES)
NO, YES
GBFD111202
O&M of BTS
Interval Type 400~700
40.0~70.0 (step: 0.1)
GBFD111202
O&M of BTS
Interval Type 400~700
40.0~70.0 (step: 0.1)
GBFD111202
O&M of BTS
Interval Type 0~12
0~12
GBFD111202
O&M of BTS
Enumeration BYNAME(By Name), Type BYID(By Index)
BYNAME, BYID
GBFD111202
O&M of BTS
Interval Type 0~2047
0~2047
GBFD111202
O&M of BTS
String Type
1~64 characters
GBFD111202
O&M of BTS
Interval Type 0~62
None
None
1~64 characters
0~62
GBFD111202
O&M of BTS
Interval Type 0~254
0~254
GBFD111202
O&M of BTS
Interval Type 0~23
0~23
MRFD210301
Configuration Management
Enumeration BYNAME(By Name), Type BYID(By Index)
BYNAME, BYID
GBFD111202
O&M of BTS
Interval Type 0~2047
0~2047
GBFD111202
O&M of BTS
String Type
1~64 characters
MRFD210301
Configuration Management
Interval Type 1~7
None
1~7
MRFD210301
Configuration Management
Enumeration FULLTCH(FULLTCH), Type HALFTCH(HALFTCH)
FULLTCH, HALFTCH
GBFD510309
Group Call Reliability Enhancing
Interval Type 0~100000000
0~100000000
GBFD510309
Group Call Reliability Enhancing
PSMODE(Protocol Standard Mode), Enumeration VGCSMODE(VGCS Type Mode)
PSMODE, VGCSMODE
GBFD510309
Group Call Reliability Enhancing
Interval Type 0~100000000
0~100000000
GBFD510309
Group Call Reliability Enhancing
PSMODE(Protocol Standard Mode), Enumeration VGCSMODE(VGCS Type Mode)
PSMODE, VGCSMODE
GBFD510309
Group Call Reliability Enhancing
Enumeration Type FR(FR), EFR(EFR)
FR, EFR
MRFD210301
Configuration Management
Enumeration BYNAME(By Name), Type BYID(By Index)
BYNAME, BYID
GBFD111202
O&M of BTS
Interval Type 0~2047
0~2047
GBFD111202
O&M of BTS
String Type
None
1~64 characters
MRFD210501
BTS/NodeB Clock
INT_CLK(Internal Clock), TRCBSC_CLK(Trace BSC Clock), EXTSYN_CLK(External Sync clock), IP_TIME(IP Clock), IP_TRANSFER(Trace Transport Clock), TRCGPS_CLK(Trace GPS Clock), UM_CLK(Um Clock), PEER_CLK(Peer Clock), Enumeration SYNETH_CLK(SynEth Type Clock)
MRFD210501
BTS/NodeB Clock
Enumeration Type E1(E1), T1(T1), FE(FE) E1, T1, FE
MRFD210501
BTS/NodeB Clock
Interval Type 0~7
INT_CLK, TRCBSC_CLK, EXTSYN_CLK, IP_TIME, IP_TRANSFER, TRCGPS_CLK, UM_CLK, PEER_CLK, SYNETH_CLK
0~7
MRFD210501
BTS/NodeB Clock
Interval Type 0~62
0~62
MRFD210501
BTS/NodeB Clock
Interval Type 0~254
0~254
MRFD210501
BTS/NodeB Clock
Interval Type 0~23
0~23
GBFD111202
O&M of BTS
Enumeration BYNAME(By Name), Type BYID(By Index)
BYNAME, BYID
GBFD111202
O&M of BTS
Interval Type 0~2047
0~2047
GBFD111202
O&M of BTS
String Type
1~64 characters
GBFD111202
O&M of BTS
Interval Type 0~62
0~62
GBFD111202
O&M of BTS
Interval Type 0~254
0~254
GBFD111202
O&M of BTS
Interval Type 0~23
0~23
None
O&M of BTS
INCLK(Internal Clock), BSCCLK(Trace BSC Clock), EXCLK(External Synchro Clock), IPCLK(IP Clock), TRANSCLK(Trace Trans Clock), GPSCLK(Trace GPS Clock), UMCLK(Um INCLK, BSCCLK, EXCLK, IPCLK, Enumeration Clock), TRANSCLK, GPSCLK, UMCLK, Type PEERCLK(PEER Clock) PEERCLK
GBFD111202
O&M of BTS
ENABLE(Enable Trace Range Limit), Enumeration DISABLE(Disable Trace Type Range Limit) ENABLE, DISABLE
GBFD111202
O&M of BTS
Interval Type 0~4095
0~4095
GBFD111202
O&M of BTS
Enumeration BYNAME(By Name), Type BYID(By Index)
BYNAME, BYID
GBFD111202
O&M of BTS
Interval Type 0~2047
0~2047
GBFD111202
GBFD111202
O&M of BTS
String Type
GBFD111202
O&M of BTS
Interval Type 0~23
0~23
GBFD111202
O&M of BTS
Interval Type 0~62
0~62
GBFD111202
O&M of BTS
Interval Type 0~254
0~254
GBFD111202
O&M of BTS
Interval Type 0~23
0~23
GBFD111202
O&M of BTS
Enumeration BTS, BSC, DXX, Type OTHER
BTS, BSC, DXX, OTHER
None
1~64 characters
GBFD111202
O&M of BTS
Interval Type 0~11
0~11
GBFD111202
O&M of BTS
Interval Type 0~27
0~27
GBFD111202
O&M of BTS
Interval Type 0~335
0~335
GBFD111202
O&M of BTS
Enumeration BYNAME(By Name), Type BYID(By Index)
BYNAME, BYID
GBFD111202
O&M of BTS
Interval Type 0~2047
0~2047
GBFD111202
O&M of BTS
String Type
1~64 characters
None
GBFD111202
O&M of BTS
Interval Type 0~23
0~23
GBFD111202
O&M of BTS
Interval Type 0~62
0~62
GBFD111202
O&M of BTS
Interval Type 0~254
0~254
GBFD111202
O&M of BTS
Interval Type 0~23
0~23
GBFD111202
O&M of BTS
Interval Type 0~2047
0~2047
GBFD111202
O&M of BTS
Interval Type 0~15
0~15
MRFD210301
Configuration Management
Enumeration BYNAME(By Name), Type BYID(By Index)
BYNAME, BYID
GBFD111202
O&M of BTS
Interval Type 0~2047
0~2047
GBFD111202
O&M of BTS
String Type
1~64 characters
GBFD111202
O&M of BTS
OFF(Off), ON(On), Enumeration NOTSUPPORT(Not Type Support)
OFF, ON, NOTSUPPORT
GBFD111202
O&M of BTS
Enumeration BYNAME(By Name), Type BYID(By Index)
BYNAME, BYID
GBFD111202
O&M of BTS
Interval Type 0~2047
0~2047
GBFD111202
O&M of BTS
String Type
1~64 characters
None
None
GBFD111202
O&M of BTS
Interval Type 0~11, 255
0~11, 255
GBFD111202
O&M of BTS
Interval Type 0~27, 255
0~27, 255
GBFD111202
O&M of BTS
Enumeration BYNAME(By Name), Type BYID(By Index)
BYNAME, BYID
GBFD111202
O&M of BTS
Interval Type 0~2047
0~2047
GBFD111202
O&M of BTS
String Type
1~64 characters
GBFD111202
O&M of BTS
Interval Type 0~62
0~62
GBFD111202
O&M of BTS
Interval Type 0~254
0~254
GBFD111202
O&M of BTS
Interval Type 0~23
0~23
None
GBFD111202
O&M of BTS
Enumeration Type NO(NO), YES(YES)
NO, YES
GBFD111202 MRFD210601
O&M of BTS Connection with TMA (Tower Mounted Enumeration Amplifier) Type OFF(OFF), ON(ON)
OFF, ON
MRFD210304 MRFD210601
Faulty Management Connection with TMA (Tower MODE1(Mode1), Mounted Enumeration MODE2(Mode2), Amplifier) Type MODE3(Mode3)
MODE1, MODE2, MODE3
MRFD210304 MRFD210601
Faulty Management Connection with TMA (Tower Mounted Amplifier) Interval Type 0~2000
0~2000
MRFD210304 MRFD210601
Faulty Management Connection with TMA (Tower Mounted Amplifier) Interval Type 0~2000
0~2000
MRFD210304 MRFD210601
Faulty Management Connection with TMA (Tower Mounted Amplifier) Interval Type 0~2000
0~2000
GBFD111202 MRFD210601
O&M of BTS Connection with TMA (Tower Mounted Enumeration Amplifier) Type OFF(OFF), ON(ON)
OFF, ON
MRFD210304 MRFD210601
Faulty Management Connection with TMA (Tower MODE1(Mode1), Mounted Enumeration MODE2(Mode2), Amplifier) Type MODE3(Mode3)
MODE1, MODE2, MODE3
MRFD210304 MRFD210601
Faulty Management Connection with TMA (Tower Mounted Amplifier) Interval Type 0~2000
0~2000
MRFD210304 MRFD210601
Faulty Management Connection with TMA (Tower Mounted Amplifier) Interval Type 0~2000
0~2000
MRFD210304 MRFD210601
Faulty Management Connection with TMA (Tower Mounted Amplifier) Interval Type 0~2000
0~2000
GBFD111202 MRFD210601
O&M of BTS Connection with TMA (Tower Mounted Enumeration Amplifier) Type OFF(OFF), ON(ON)
OFF, ON
MRFD210304 MRFD210601
Faulty Management Connection with TMA (Tower MODE1(Mode1), Mounted Enumeration MODE2(Mode2), Amplifier) Type MODE3(Mode3)
MODE1, MODE2, MODE3
MRFD210304 MRFD210601
Faulty Management Connection with TMA (Tower Mounted Amplifier) Interval Type 0~2000
0~2000
MRFD210304 MRFD210601
Faulty Management Connection with TMA (Tower Mounted Amplifier) Interval Type 0~2000
0~2000
MRFD210304 MRFD210601
Faulty Management Connection with TMA (Tower Mounted Amplifier) Interval Type 0~2000
0~2000
GBFD111202 MRFD210601
O&M of BTS Connection with TMA (Tower Mounted Enumeration Amplifier) Type OFF(OFF), ON(ON)
OFF, ON
MRFD210304 MRFD210601
Faulty Management Connection with TMA (Tower MODE1(Mode1), Mounted Enumeration MODE2(Mode2), Amplifier) Type MODE3(Mode3)
MODE1, MODE2, MODE3
MRFD210304 MRFD210601
Faulty Management Connection with TMA (Tower Mounted Amplifier) Interval Type 0~2000
0~2000
MRFD210304 MRFD210601
Faulty Management Connection with TMA (Tower Mounted Amplifier) Interval Type 0~2000
0~2000
MRFD210304 MRFD210601
Faulty Management Connection with TMA (Tower Mounted Amplifier) Interval Type 0~2000
0~2000
GBFD111202 MRFD210601
O&M of BTS Connection with TMA (Tower Mounted Enumeration Amplifier) Type OFF(OFF), ON(ON)
OFF, ON
MRFD210304 MRFD210601
Faulty Management Connection with TMA (Tower MODE1(Mode1), Mounted Enumeration MODE2(Mode2), Amplifier) Type MODE3(Mode3)
MODE1, MODE2, MODE3
MRFD210304 MRFD210601
Faulty Management Connection with TMA (Tower Mounted Amplifier) Interval Type 0~2000
0~2000
MRFD210304 MRFD210601
Faulty Management Connection with TMA (Tower Mounted Amplifier) Interval Type 0~2000
0~2000
MRFD210304 MRFD210601
Faulty Management Connection with TMA (Tower Mounted Amplifier) Interval Type 0~2000
0~2000
GBFD111202 MRFD210601
O&M of BTS Connection with TMA (Tower Mounted Enumeration Amplifier) Type OFF(OFF), ON(ON)
OFF, ON
MRFD210304 MRFD210601
Faulty Management Connection with TMA (Tower MODE1(Mode1), Mounted Enumeration MODE2(Mode2), Amplifier) Type MODE3(Mode3)
MODE1, MODE2, MODE3
MRFD210304 MRFD210601
Faulty Management Connection with TMA (Tower Mounted Amplifier) Interval Type 0~2000
0~2000
MRFD210304 MRFD210601
Faulty Management Connection with TMA (Tower Mounted Amplifier) Interval Type 0~2000
0~2000
MRFD210304 MRFD210601
Faulty Management Connection with TMA (Tower Mounted Amplifier) Interval Type 0~2000
0~2000
GBFD111202
O&M of BTS
Interval Type 0~62
0~62
GBFD111202
O&M of BTS
Interval Type 0~254
0~254
GBFD111202
O&M of BTS
Interval Type 0~1
0~1
GBFD111202
O&M of BTS
Interval Type 1~30
1~30
GBFD111202
O&M of BTS
Enumeration BYNAME(By Name), Type BYID(By Index)
BYNAME, BYID
GBFD111202
O&M of BTS
Interval Type 0~2047
0~2047
GBFD111202
O&M of BTS
String Type
1~64 characters
GBFD111202
O&M of BTS
Interval Type 0~254
0~254
GBFD111202
O&M of BTS
Interval Type 0~23
0~23
None
GBFD111202
O&M of BTS
MRFD210304
Faulty Management
Enumeration Type NO(NO), YES(YES) NO, YES 14(1.4), 15(1.5), 16(1.6), 18(1.8), 20(2.0), 22(2.2), 24(2.4), 26(2.6), Enumeration 28(2.8), 30(3.0), 14, 15, 16, 18, 20, 22, 24, 26, 28, Type 33(3.3), 36(3.6), 88(8.8) 30, 33, 36, 88 18(1.8), 20(2.0),
MRFD210304
Faulty Management
22(2.2), 24(2.4), 26(2.6), 28(2.8), 30(3.0), 32(3.2), Enumeration 35(3.5), 38(3.8), 18, 20, 22, 24, 26, 28, 30, 32, 35, Type 41(4.1), 45(4.5), 88(8.8) 38, 41, 45, 88
MRFD210304
Faulty Management
Interval Type 1~30
1~30
GBFD111202
O&M of BTS
Enumeration BYNAME(By Name), Type BYID(By Index)
BYNAME, BYID
GBFD111202
O&M of BTS
Interval Type 0~2047
0~2047
GBFD111202
O&M of BTS
String Type
1~64 characters
GBFD111202
O&M of BTS
Interval Type 0~62
0~62
GBFD111202
O&M of BTS
Interval Type 0~254
0~254
None
GBFD111202
GBFD111202
GBFD112301 MRFD210304
GBFD112301 MRFD210304
GBFD112301 MRFD210304
O&M of BTS
Interval Type 0~23
0~23
O&M of BTS
Enumeration Type NO(NO), YES(YES)
NO, YES
Remote EAC Maintenance Faulty Management
Remote EAC Maintenance Faulty Management
Remote EAC Maintenance Faulty Management
Bit Field Type
48V_DISABLE(-48 Voltage Disabled), RES0(Preserved Parameter0), RES1(Preserved Parameter1), RES2(Preserved Parameter2), TS_DISABLE(Temperat ure Sensor Disabled), HS_DISABLE(Humidity Sensor Disabled), RES3(Preserved Parameter3), 48V_DISABLE, RES0, RES1, RES4(Preserved RES2, TS_DISABLE, Parameter4) HS_DISABLE, RES3, RES4
Bit Field Type
WS_DISABLE(WaterImmersed Sensor Disabled), SS_DISABLE(Smog Sensor Disabled), IS_DISABLE(Infrared Sensor Disabled), GS_DISABLE(Gating Sensor Disabled)
Bit Field Type
WILOW(Water Immersed{Low Level}), SMLOW(Smog{Low Level}), IMLOW(Infrared{Low Level}), GMLOW(Gate WILOW, SMLOW, IMLOW, Magnetism{Low Level}) GMLOW
WS_DISABLE, SS_DISABLE, IS_DISABLE, GS_DISABLE
GBFD111202
O&M of BTS
Interval Type 0~62, 255
0~62, 255
GBFD111202
O&M of BTS
Interval Type 0~255
0~255
GBFD111202
O&M of BTS
Interval Type 0~23, 255
0~23, 255
GBFD111202
O&M of BTS
Interval Type 0~62
0~62
GBFD111202
O&M of BTS
Interval Type 0~254
0~254
GBFD111202
O&M of BTS
Interval Type 0~1
0~1
GBFD111202
O&M of BTS
Interval Type 1~30
1~30
GBFD111202
O&M of BTS
Enumeration BYNAME(By Name), Type BYID(By Index)
BYNAME, BYID
GBFD111202
O&M of BTS
Interval Type 0~2047
0~2047
GBFD111202
O&M of BTS
String Type
GBFD111202
O&M of BTS
Interval Type 0~1
0~1
GBFD111202
O&M of BTS
Interval Type 0~62
0~62
GBFD111202
O&M of BTS
Interval Type 0~254
0~254
GBFD111202
O&M of BTS
Interval Type 0~23
0~23
GBFD118601
Abis over IP
IP Address Type
None
0.0.0.0~255.255.255.255
GBFD118601
Abis over IP
IP Address Type
None
0.0.0.0~255.255.255.255
GBFD111202
O&M of BTS
Enumeration DISABLE(Disable), Type ENABLE(Enable)
DISABLE, ENABLE
GBFD111202
O&M of BTS
Interval Type 0~1
0~1
GBFD111202
O&M of BTS
Enumeration BYNAME(By Name), Type BYID(By Index)
BYNAME, BYID
GBFD111202
O&M of BTS
Interval Type 0~2047
0~2047
GBFD111202
O&M of BTS
String Type
1~64 characters
None
None
1~64 characters
GBFD111202
O&M of BTS
Interval Type 0~254
0~254
GBFD111202
O&M of BTS
Interval Type 0~23
0~23
GBFD111202
O&M of BTS
Enumeration Type NO(NO), YES(YES)
NO, YES
GBFD111202
O&M of BTS
Interval Type 0~254
0~254
GBFD111202
O&M of BTS
Interval Type 0~23
0~23
GBFD111202
O&M of BTS
Enumeration A(A), B(B), Type NONE(NONE)
A, B, NONE
MRFD210304
Faulty Management
MRFD210304
Faulty Management
Enumeration Type NO(NO), YES(YES) NO, YES 14(1.4), 15(1.5), 16(1.6), 18(1.8), 20(2.0), 22(2.2), 24(2.4), 26(2.6), Enumeration 28(2.8), 30(3.0), 14, 15, 16, 18, 20, 22, 24, 26, 28, Type 33(3.3), 36(3.6), 88(8.8) 30, 33, 36, 88 18(1.8), 20(2.0),
MRFD210304
Faulty Management
22(2.2), 24(2.4), 26(2.6), 28(2.8), 30(3.0), 32(3.2), Enumeration 35(3.5), 38(3.8), 18, 20, 22, 24, 26, 28, 30, 32, 35, Type 41(4.1), 45(4.5), 88(8.8) 38, 41, 45, 88
MRFD210304
Faulty Management
Interval Type 1~30
1~30
GBFD111202
O&M of BTS
Enumeration BYNAME(By Name), Type BYID(By Index)
BYNAME, BYID
GBFD111202
O&M of BTS
Interval Type 0~2047
0~2047
GBFD111202
O&M of BTS
String Type
GBFD111202
O&M of BTS
Interval Type 0~254
0~254
GBFD111202
O&M of BTS
Interval Type 0~23
0~23
GBFD510401
BTS GPS Enumeration RGPS(RGPS), Synchronization Type GPS(GPS)
GBFD510401 MRFD210501
BTS GPS GPS(GPS), Synchronization GLONASS(Glonass), BTS/NodeB Enumeration GPSGlonass(GPSGlon Clock Type ass) GPS, GLONASS, GPSGlonass
GBFD510401 MRFD210501
BTS GPS Synchronization BTS/NodeB Clock Interval Type 0~1000
GBFD510401 MRFD210501
BTS GPS Synchronization SENDPOWER(Send BTS/NodeB Enumeration Power), NOPOWER(No Clock Type Power) SENDPOWER, NOPOWER
MRFD210304
Faulty Management
Interval Type 45~155
45~155
MRFD210304
Faulty Management
Interval Type 125~175
125~175
MRFD210304
Faulty Management
Interval Type 0~15
0~15
None
1~64 characters
RGPS, GPS
0~1000
GBFD111202
O&M of BTS
Enumeration BYNAME(By Name), Type BYID(By Index)
BYNAME, BYID
GBFD111202
O&M of BTS
Interval Type 0~2047
0~2047
GBFD111202
O&M of BTS
String Type
None
1~64 characters
GBFD118601
Abis over IP
IP Address Type
None
0.0.0.0~255.255.255.255
GBFD111202
O&M of BTS
Enumeration BYNAME(By Name), Type BYID(By Index)
BYNAME, BYID
GBFD111202
O&M of BTS
Interval Type 0~2047
0~2047
GBFD111202
O&M of BTS
String Type
1~64 characters
GBFD111202
O&M of BTS
Interval Type 0~62
0~62
GBFD111202
O&M of BTS
Interval Type 0~254
0~254
GBFD111202
O&M of BTS
Interval Type 0~23
0~23
None
GBFD111202
O&M of BTS
Enumeration Type NO(NO), YES(YES)
NO, YES
GBFD111202
O&M of BTS
Interval Type -99~99
-99~99
GBFD111202
O&M of BTS
Interval Type -99~99
-99~99
GBFD111202
O&M of BTS
Enumeration Type NO(NO), YES(YES)
NO, YES
GBFD111202
O&M of BTS
Interval Type -99~70
-99~70
MRFD210304
Faulty Management
Interval Type -99~70
-99~70
GBFD111202
O&M of BTS
Interval Type -99~70
-99~70
GBFD111202
O&M of BTS
Interval Type 0~30
0~30
GBFD111202
O&M of BTS
Interval Type 0~30
0~30
GBFD111202
O&M of BTS
Interval Type 0~30
0~30
MRFD210304
Faulty Management
Interval Type 0~30
0~30
GBFD111202
O&M of BTS
Enumeration Type NO(NO), YES(YES)
NO, YES
GBFD111202
O&M of BTS
Interval Type -990~400
-99.0~40.0 (step: 0.1)
GBFD111202
O&M of BTS
Interval Type -990~400
-99.0~40.0 (step: 0.1)
GBFD111202
O&M of BTS
Interval Type 0~62, 255
0~62, 255
GBFD111202
O&M of BTS
Interval Type 0~255
0~255
GBFD111202
O&M of BTS
Interval Type 0~23, 255
0~23, 255
GBFD111202
O&M of BTS
Interval Type 0~62
0~62
GBFD111202
O&M of BTS
Interval Type 0~254
0~254
GBFD111202
O&M of BTS
Interval Type 0~1
0~1
GBFD111202
O&M of BTS
Interval Type 1~30
1~30
MRFD210304
Faulty Management
Enumeration Type NO(NO), YES(YES)
NO, YES
WS_DISABLE(WaterImmersed Sensor Disabled), SS_DISABLE(Smog Sensor Disabled)
GBFD111202
O&M of BTS
Bit Field Type
GBFD111202
O&M of BTS
Enumeration BYNAME(By Name), Type BYID(By Index)
BYNAME, BYID
GBFD111202
O&M of BTS
Interval Type 0~2047
0~2047
WS_DISABLE, SS_DISABLE
GBFD111202
O&M of BTS
String Type
GBFD111202
O&M of BTS
Interval Type 0~254
0~254
GBFD111202
O&M of BTS
Interval Type 0~23
0~23
GBFD111202
O&M of BTS
Enumeration Type NO(NO), YES(YES)
NO, YES
GBFD111202
O&M of BTS
Enumeration Type NO(NO), YES(YES)
NO, YES
GBFD111202
O&M of BTS
Enumeration Type NO(NO), YES(YES)
NO, YES
GBFD111202
O&M of BTS
Enumeration Type NO(NO), YES(YES)
NO, YES
GBFD111202
O&M of BTS
Enumeration Type NO(NO), YES(YES)
NO, YES
None
1~64 characters
GBFD111202
O&M of BTS
Enumeration Type NO(NO), YES(YES)
NO, YES
GBFD111202
O&M of BTS
Enumeration Type NO(NO), YES(YES)
NO, YES
GBFD111202
O&M of BTS
Compound Type
hour, min
00:00~23:59
GBFD111202
O&M of BTS
Compound Type
hour, min
00:00~23:59
GBFD111202
O&M of BTS
Enumeration BYNAME(By Name), Type BYID(By Index)
BYNAME, BYID
GBFD111202
O&M of BTS
Interval Type 0~2047
0~2047
GBFD111202
O&M of BTS
String Type
1~64 characters
GBFD111202
O&M of BTS
Interval Type 0~254
0~254
GBFD111202
O&M of BTS
Interval Type 0~23
0~23
GBFD111202
O&M of BTS
Enumeration Type NO(NO), YES(YES)
NO, YES
None
GBFD111202
O&M of BTS
BTS3012(BTS3012), BTS3012AE(BTS3012A E), BTS3006C(BTS3006C), BTS3012_II(BTS3012 II), BTS3002E(BTS3002E), DBS3900_GSM(DBS39 00 GSM), BTS3900_GSM(BTS39 00 GSM), BTS3900A_GSM(BTS3 900A GSM), DBS3036(DBS3036), BTS3036(BTS3036), BTS3036A(BTS3036A), BTS3900_GSM_6RFC( BTS3900 GSM 6RFC), BTS3900A_GSM_6RFC (BTS3900A GSM 6RFC), BTS3036_6RFC(BTS30 36 6RFC), Enumeration BTS3036A_6RFC(BTS3 Type 036A 6RFC)
GBFD111202
O&M of BTS
Enumeration Type NO(NO), YES(YES)
NO, YES
GBFD111202
O&M of BTS
Enumeration Type NO(NO), YES(YES)
NO, YES
GBFD111202
O&M of BTS
Enumeration Type NO(NO), YES(YES)
NO, YES
GBFD111202
O&M of BTS
Enumeration Type NO(NO), YES(YES)
NO, YES
BTS3012, BTS3012AE, BTS3006C, BTS3012_II, BTS3002E, DBS3900_GSM, BTS3900_GSM, BTS3900A_GSM, DBS3036, BTS3036, BTS3036A, BTS3900_GSM_6RFC, BTS3900A_GSM_6RFC, BTS3036_6RFC, BTS3036A_6RFC
GBFD111202
O&M of BTS
Enumeration Type NO(NO), YES(YES)
NO, YES
GBFD111202
O&M of BTS
Enumeration Type NO(NO), YES(YES)
NO, YES
GBFD111202
O&M of BTS
Enumeration Type NO(NO), YES(YES)
NO, YES
GBFD111202
O&M of BTS
Enumeration Type NO(NO), YES(YES)
NO, YES
MRFD210304
Faulty Management
Enumeration Type NO(NO), YES(YES)
NO, YES
MRFD210304
Faulty Management
Bit Field Type
T1_DISABLE(Battery Temperature 1{Disabled}), ET_DISABLE(Envirome nt Humidity{Disabled}), ET1_DISABLE(Envirom ent Temperature 1{Disabled}), ET2_DISABLE(Envirom ent Temperature 2{Disabled}), T2_DISABLE(Battery T1_DISABLE, ET_DISABLE, Temperature ET1_DISABLE, ET2_DISABLE, 2{Disabled}) T2_DISABLE
WATER_IMMERSED( Water Immersed{Disabled}), SMOG(Smog{Disabled} ), GM_DISABLE(Gate WATER_IMMERSED, SMOG, Magnetism{Disabled}) GM_DISABLE
MRFD210304
Faulty Management
Bit Field Type
GBFD111202
O&M of BTS
Enumeration Type NO(NO), YES(YES)
O&M of BTS
NO_BAT(No Storage Battery), INSIDE_BAT(Inside Storage Battery), Enumeration OUTSIDE_BAT(Outside NO_BAT, INSIDE_BAT, Type Storage Battery) OUTSIDE_BAT
GBFD111202
O&M of BTS
5C(0.05C), 7C(0.07C), 10C(0.10C), 12C(0.12C), 15C(0.15C), 18C(0.18C), 20C(0.2C), Enumeration 22C(0.22C), 5C, 7C, 10C, 12C, 15C, 18C, Type 25C(0.25C) 20C, 22C, 25C
GBFD111202
O&M of BTS
Interval Type 30~1000
30~1000
GBFD111202 GBFD111601
O&M of BTS BTS Power Management
Enumeration Type NO(NO), YES(YES)
NO, YES
GBFD111202
NO, YES
GBFD111202 GBFD111601
O&M of BTS BTS Power Management
Interval Type 350~556
35.0~55.6 (step: 0.1)
GBFD111202
O&M of BTS
Interval Type 433~576
43.3~57.6 (step: 0.1)
GBFD111202
O&M of BTS
Interval Type 432~575
43.2~57.5 (step: 0.1)
GBFD111202
O&M of BTS
Enumeration Type NO(NO), YES(YES)
NO, YES
GBFD111202
O&M of BTS
Enumeration Type NO(NO), YES(YES)
NO, YES
GBFD111202
O&M of BTS
Interval Type 350~553
35.0~55.3 (step: 0.1)
GBFD111202
O&M of BTS
Enumeration Type NO(NO), YES(YES)
NO, YES
GBFD111202
O&M of BTS
Interval Type -400~0
-40.0~0.0 (step: 0.1)
GBFD111202
O&M of BTS
Interval Type 610~3000
61.0~300.0 (step: 0.1)
GBFD111202
O&M of BTS
Interval Type 600~2990
60.0~299.0 (step: 0.1)
MRFD210304
Faulty Management
Interval Type 580~600
58.0~60.0 (step: 0.1)
MRFD210304
Faulty Management
Interval Type 433~555
43.3~55.5 (step: 0.1)
GBFD111202
O&M of BTS
Enumeration Type NO(NO), YES(YES)
NO, YES
GBFD111202
O&M of BTS
Interval Type 0~1000
0.0~100.0 (step: 0.1)
GBFD111202
O&M of BTS
Interval Type -500~0
-50.0~0.0 (step: 0.1)
MRFD210304
Faulty Management
Interval Type 400~790
40.0~79.0 (step: 0.1)
MRFD210304
Faulty Management
Interval Type -190~50
-19.0~5.0 (step: 0.1)
GBFD111202
O&M of BTS
Interval Type 0~5000
0.0~500.0 (step: 0.1)
GBFD111202
O&M of BTS
Battery1Temp(Battery 1 Temperature), Enumeration Battery2Temp(Battery 2 Type Temperature) Battery1Temp, Battery2Temp
GBFD111202
O&M of BTS
Enumeration Type NO(NO), YES(YES)
NO, YES
MRFD210304
Faulty Management
Interval Type -490~1000
-49.0~100.0 (step: 0.1)
MRFD210304
Faulty Management
Interval Type -500~990
-50.0~99.0 (step: 0.1)
GBFD111202
O&M of BTS
Enumeration Type NO(NO), YES(YES)
NO, YES
MRFD210304
Faulty Management
Interval Type 0~1000
0.0~100.0 (step: 0.1)
MRFD210304
Faulty Management
Interval Type 0~1000
0.0~100.0 (step: 0.1)
GBFD111202
O&M of BTS
Enumeration Type NO(NO), YES(YES)
NO, YES
GBFD111202
O&M of BTS
Enumeration DISABLE(DISABLE), Type ENABLE(ENABLE)
DISABLE, ENABLE
GBFD111202
O&M of BTS
Interval Type 1~1000
100~100000 (step: 100)
GBFD111202
O&M of BTS
Interval Type 0~90
0~90
GBFD111202
O&M of BTS
Enumeration BYNAME(By Name), Type BYID(By Index)
BYNAME, BYID
GBFD111202
O&M of BTS
Interval Type 0~2047
0~2047
GBFD111202
O&M of BTS
String Type
1~64 characters
GBFD111202
O&M of BTS
Interval Type 0~254
None
0~254
GBFD111202
O&M of BTS
Interval Type 0~23
0~23
GBFD111202
O&M of BTS
Enumeration Type NO(NO), YES(YES)
NO, YES
GBFD111202
O&M of BTS
Enumeration Type HIGH(High), LOW(Low) HIGH, LOW
GBFD111202
O&M of BTS
Enumeration Type HIGH(High), LOW(Low) HIGH, LOW
GBFD111202
O&M of BTS
Enumeration Type HIGH(High), LOW(Low) HIGH, LOW
GBFD111202
O&M of BTS
Enumeration Type HIGH(High), LOW(Low) HIGH, LOW
GBFD111202
O&M of BTS
Enumeration BYNAME(By Name), Type BYID(By Index)
BYNAME, BYID
GBFD111202
O&M of BTS
Interval Type 0~2047
0~2047
GBFD111202
O&M of BTS
String Type
1~64 characters
GBFD111202
O&M of BTS
Enumeration YES(Configure), Type NO(Not Configure)
YES, NO
GBFD111202
O&M of BTS
Interval Type 0~62
0~62
None
GBFD111202
O&M of BTS
Interval Type 0~254
0~254
GBFD111202
O&M of BTS
Interval Type 0~23
0~23
GBFD111202
O&M of BTS
Enumeration BYNAME(By Name), Type BYID(By Index)
BYNAME, BYID
GBFD111202
O&M of BTS
String Type
1~64 characters
GBFD111202
O&M of BTS
Interval Type 0~2047
0~2047
GBFD111202
O&M of BTS
Interval Type 0~62
0~62
GBFD111202
O&M of BTS
Interval Type 0~254
0~254
GBFD111202
O&M of BTS
Interval Type 0~23
0~23
MRFD210304
Faulty Management
Interval Type 0~255
0~255
GBFD111202
O&M of BTS
Enumeration CLOSE(Close), Type OPEN(Open)
CLOSE, OPEN
GBFD111202
O&M of BTS
Interval Type 65033~65533
65033~65533
MRFD210304
Faulty Management
Enumeration BOOL(BOOL), Type VALUE(VALUE)
BOOL, VALUE
MRFD210304
Faulty Management
Enumeration LOW(LOW), Type HIGH(HIGH)
LOW, HIGH
None
MRFD210304
Faulty Management
Interval Type -99999~999999
-999.99~9999.99, step:0.01
MRFD210301
Configuration Management
Interval Type -99999~999999
-999.99~9999.99, step:0.01
MRFD210304
Faulty Management
Enumeration Type NO(No), YES(Yes)
NO, YES
GBFD111202
O&M of BTS
Enumeration VOLTAGE(Voltage), Type CURRENT(Current)
VOLTAGE, CURRENT
GBFD111202
O&M of BTS
Interval Type -99999~999999
-999.99~9999.99, step:0.01
GBFD111202
O&M of BTS
Interval Type -99999~999999
-999.99~9999.99, step:0.01
GBFD111202
O&M of BTS
Interval Type 0~999999
0~9999.99, step:0.01
GBFD111202
O&M of BTS
Interval Type 0~999999
0~9999.99, step:0.01
GBFD111202
O&M of BTS
Enumeration BYNAME(By Name), Type BYID(By Index)
BYNAME, BYID
GBFD111202
O&M of BTS
Interval Type 0~2047
0~2047
GBFD111202
O&M of BTS
String Type
None
1~64 characters
GBFD111202
O&M of BTS
String Type
None
1~64 characters
None
None
String Type
None
1~64 characters
GBFD111202
O&M of BTS
Enumeration BYNAME(By Name), Type BYID(By Index)
BYNAME, BYID
GBFD111202
O&M of BTS
Interval Type 0~2047
0~2047
GBFD111202
O&M of BTS
String Type
None
1~64 characters
GBFD118630 MRFD210301
Ethernet OAM Configuration Management
String Type
None
1~20 characters
GBFD118630 MRFD210301
Ethernet OAM Configuration Management
String Type
None
1~20 characters
GBFD118630 MRFD210301
Ethernet OAM Configuration Management
Interval Type 1~8191
1~8191
GBFD111202
O&M of BTS
Interval Type 0~62
0~62
GBFD111202
O&M of BTS
Interval Type 0~254
0~254
GBFD111202
O&M of BTS
Interval Type 0~23
0~23
GBFD111202
O&M of BTS
Interval Type 0~1
0~1
GBFD111202
O&M of BTS
Enumeration BYNAME(By Name), Type BYID(By Index)
BYNAME, BYID
GBFD111202
O&M of BTS
Interval Type 0~2047
0~2047
GBFD111202
O&M of BTS
String Type
None
1~64 characters
GBFD118630 MRFD210301
Ethernet OAM Configuration Management
String Type
None
1~20 characters
GBFD118630 MRFD210301
Ethernet OAM Configuration Management
String Type
None
1~20 characters
GBFD111202
O&M of BTS
Interval Type 0~62
0~62
GBFD111202
O&M of BTS
Interval Type 0~254
0~254
GBFD111202
O&M of BTS
Interval Type 0~23
0~23
GBFD118630 MRFD210301
Ethernet OAM Configuration Management
Interval Type 1~4094
1~4094
GBFD111202
O&M of BTS
Enumeration BYNAME(By Name), Type BYID(By Index)
BYNAME, BYID
GBFD111202
O&M of BTS
Interval Type 0~2047
0~2047
GBFD111202
O&M of BTS
String Type
1~64 characters
None
GBFD118630 MRFD210301
Ethernet OAM Configuration Management
String Type
GBFD118630 MRFD210301
Ethernet OAM Configuration Management
Interval Type 0~7
0~7
GBFD111202
O&M of BTS
Enumeration BYNAME(By Name), Type BYID(By Index)
BYNAME, BYID
GBFD111202
O&M of BTS
Interval Type 0~2047
0~2047
GBFD111202
O&M of BTS
String Type
1~64 characters
GBFD111202
O&M of BTS
Interval Type 0~1
0~1
GBFD111202
O&M of BTS
Interval Type 0~62
0~62
GBFD111202
O&M of BTS
Interval Type 0~254
0~254
GBFD111202
O&M of BTS
0~23
GBFD118601
Abis over IP
Interval Type 0~23 10M(10M), Enumeration 100M(100M), Type AUTO(Auto)
GBFD118601
Abis over IP
Enumeration FULL(FULL), Type HALF(HALF)
None
None
1~20 characters
10M, 100M, AUTO
FULL, HALF
GBFD118611
Abis IP over E1/T1
Interval Type 0~1500
0~1500
GBFD118601
Abis over IP
Enumeration CLOSE(Close), Type OPEN(Open)
CLOSE, OPEN
GBFD115501 GBFD115502 GBFD115701
AMR FR AMR HR TFO
Enumeration CLOSE(Close), Type OPEN(Open)
CLOSE, OPEN
GBFD118630
Ethernet OAM
Interval Type 0~100
0~100
GBFD118630
Ethernet OAM
Interval Type 0~100
0~100
GBFD118630
Ethernet OAM
Interval Type 0~100
0~100
GBFD118630
Ethernet OAM
Interval Type 0~100
0~100
GBFD111202
O&M of BTS
Enumeration BYNAME(By Name), Type BYID(By Index)
BYNAME, BYID
GBFD111202
O&M of BTS
Interval Type 0~2047
0~2047
GBFD111202
O&M of BTS
String Type
None
1~64 characters
GBFD118630 MRFD210301
Ethernet OAM Configuration Management
String Type
None
1~20 characters
GBFD118630 MRFD210301
Ethernet OAM Configuration Management
String Type
None
1~20 characters
GBFD118630 MRFD210301 GBFD118201
Ethernet OAM Configuration Management SoftSynchronized Network
GBFD111202
O&M of BTS
Enumeration BYIDX(By Index), Type BYNAME(By Name)
BYIDX, BYNAME
GBFD111202
O&M of BTS
Interval Type 0~2047
0~2047
O&M of BTS SoftSynchronized Network SoftSynchronized Network SoftSynchronized Network
String Type
None BYMANUAL(By Enumeration Manual), BYAUTO(By Type Auto)
1~64 characters
Interval Type -2715647~2715647
-2715647~2715647
Interval Type -10000~10000
-10000~10000
GBFD111202 GBFD118201 GBFD118201 GBFD118201
Interval Type 1~8191
1~8191
Interval Type 0~7
0~7
BYMANUAL, BYAUTO
MRFD210301
Configuration Management
Enumeration BYNAME(By Name), Type BYID(By Index)
BYNAME, BYID
GBFD111202
O&M of BTS
Interval Type 0~2047
0~2047
GBFD111202
O&M of BTS
String Type
1~64 characters
GBFD111202
O&M of BTS
Interval Type 0~100
0~100
GBFD111202
O&M of BTS
Interval Type 0~100
0~100
GBFD111202
O&M of BTS
Interval Type -20~80
-20~80
None
GBFD111202
O&M of BTS
Interval Type -20~80
-20~80
MRFD210301
Configuration Management
Enumeration BYNAME(By Name), Type BYID(By Index)
BYNAME, BYID
GBFD111202
O&M of BTS
Interval Type 0~2047
0~2047
GBFD111202
O&M of BTS
String Type
1~64 characters
GBFD510309
Group Call Reliability Enhancing
Enumeration Type NO(No), YES(Yes)
None
NO, YES
GBFD510309
Group Call Reliability Enhancing
Interval Type 60~600
60~600
GBFD510309
Group Call Reliability Enhancing
Interval Type 60~300
60~300
GBFD510309
Group Call Reliability Enhancing
Interval Type 10~255
10~255
GBFD510309
Group Call Reliability Enhancing
Interval Type 10~255
10~255
GBFD111202
O&M of BTS
Enumeration BYNAME(By Name), Type BYID(By Index)
BYNAME, BYID
GBFD111202
O&M of BTS
Interval Type 0~2047
0~2047
GBFD111202
O&M of BTS
String Type
GBFD117301
Flex Abis
Enumeration Type NO(NO), YES(YES)
NO, YES
GBFD117301
Flex Abis
Enumeration Type NO(NO), YES(YES)
NO, YES
GBFD117301
Flex Abis
Enumeration Type NO(NO), YES(YES)
NO, YES
GBFD117301
Flex Abis
Interval Type 0~100
0~100
None
1~64 characters
GBFD117301
Flex Abis
Interval Type 0~100
0~100
GBFD111202 GBFD117301
O&M of BTS Flex Abis
Enumeration Type NO(NO), YES(YES)
NO, YES
GBFD117301
Flex Abis
Interval Type 0~512
0~512
GBFD111202
O&M of BTS
Enumeration BYNAME(By Name), Type BYID(By Index)
BYNAME, BYID
GBFD111202
O&M of BTS
Interval Type 0~2047
0~2047
GBFD111202
O&M of BTS
String Type
1~64 characters
GBFD111202
O&M of BTS
Interval Type 0~62
0~62
GBFD111202
O&M of BTS
Interval Type 0~254
0~254
GBFD111202
O&M of BTS
Interval Type 0~23
0~23
None
GBFD111202
O&M of BTS
Enumeration Type NO(NO), YES(YES)
NO, YES
GBFD111202
O&M of BTS
Enumeration DISABLED(Disabled), Type ENABLED(Enabled)
DISABLED, ENABLED
MRFD210304
MRFD210304
Faulty Management
Faulty Management
Bit Field Type
ET_DISABLE0(EnvTem p0 Disabled), ET_DISABLE1(EnvTem p1 Disabled), SS_DISABLE(Smog Sensor Disabled), WS_DISABLE(WaterImmersed Sensor Disabled), GMDISABLE(GateMagn etism Disabled), ARRESTER1(LightnArr ester 1 Disabled), ARRESTER2(LightnArr ester 2 Disabled)
Bit Field Type
SMDISABLE(Smog{Low Level}), WIDISABLE(WaterImm ersed{LowLevel}), GMDISABLE(GateMagn etism{LowLevel}), ARRESTER1(Lightning Arrester1{LowLevel}), SMDISABLE, WIDISABLE, ARRESTER2(Lightning GMDISABLE, ARRESTER1, Arrester2{LowLevel}) ARRESTER2
ET_DISABLE0, ET_DISABLE1, SS_DISABLE, WS_DISABLE, GMDISABLE, ARRESTER1, ARRESTER2
GBFD111202
O&M of BTS
Interval Type 0~62
0~62
GBFD111202
O&M of BTS
Interval Type 0~254
0~254
GBFD111202
O&M of BTS
Interval Type 0~1
0~1
GBFD111202
O&M of BTS
Interval Type 1~30
1~30
GBFD111202
O&M of BTS
Enumeration INDOOR(Indoor), Type OUTDOOR(Outdoor)
INDOOR, OUTDOOR
GBFD111202
O&M of BTS
Enumeration BYNAME(By Name), Type BYID(By Index)
BYNAME, BYID
GBFD111202
O&M of BTS
Interval Type 0~2047
0~2047
GBFD111202
O&M of BTS
String Type
1~64 characters
GBFD111202
O&M of BTS
Enumeration FORBID(Forbid), Type RESTORE(Restore)
None
FORBID, RESTORE
GBFD111202
O&M of BTS
Interval Type 0~23
0~23
GBFD111202
O&M of BTS
Interval Type 0~62
0~62
GBFD111202
O&M of BTS
Interval Type 0~254
0~254
GBFD111202
O&M of BTS
Interval Type 0~23
0~23
GBFD111202
O&M of BTS
Interval Type 1~31
1~31
GBFD111202
O&M of BTS
Enumeration Type 0(0), 2(2), 4(4), 6(6)
0, 2, 4, 6
GBFD111202
O&M of BTS
Interval Type 1~31
1~31
GBFD111202
O&M of BTS
Enumeration Type 0(0), 2(2), 4(4), 6(6)
0, 2, 4, 6
GBFD111202
O&M of BTS
Enumeration BYNAME(By Name), Type BYID(By Index)
BYNAME, BYID
GBFD111202
O&M of BTS
Interval Type 0~2047
0~2047
GBFD111202
O&M of BTS
String Type
1~64 characters
None
GBFD111202
O&M of BTS
Enumeration Type NO(NO), YES(YES)
MRFD211801
GSM and UMTS Dynamic Power Compound Sharing Type
hour, min
00:00~23:59
MRFD211801
GSM and UMTS Dynamic Power Compound Sharing Type
hour, min
00:00~23:59
MRFD211801
GSM and UMTS Dynamic Power Compound Sharing Type
hour, min
00:00~23:59
MRFD211801
GSM and UMTS Dynamic Power Compound Sharing Type
hour, min
00:00~23:59
MRFD211801
GSM and UMTS Dynamic Power Compound Sharing Type
hour, min
00:00~23:59
MRFD211801
GSM and UMTS Dynamic Power Compound Sharing Type
hour, min
00:00~23:59
MRFD211801
GSM and UMTS Dynamic Power Compound Sharing Type
hour, min
00:00~23:59
MRFD211801
GSM and UMTS Dynamic Power Compound Sharing Type
hour, min
00:00~23:59
GBFD111202
O&M of BTS
Enumeration BYNAME(By Name), Type BYID(By Index)
NO, YES
BYNAME, BYID
GBFD111202
O&M of BTS
Interval Type 0~2047
0~2047
GBFD111202
O&M of BTS
String Type
1~64 characters
GBFD114101
GPRS
Interval Type 0~2
0~2
GBFD114101 GBFD117301
GPRS Flex Abis
Interval Type 0~512
0~512
GBFD111202
O&M of BTS
Enumeration BYNAME(By Name), Type BYID(By Index)
BYNAME, BYID
GBFD111202
O&M of BTS
Interval Type 0~2047
0~2047
GBFD111202
O&M of BTS
String Type
1~64 characters
GBFD118601
Abis over IP
None
None LOGICIP(Logic IP), Enumeration PORTIP(Port IP), Type PPP/MP(PPP/MP)
LOGICIP, PORTIP, PPP/MP
GBFD118601
Abis over IP
IP Address Type
None
0.0.0.0~255.255.255.255
Abis over IP
IP Address Type
None
0.0.0.0~255.255.255.255
GBFD113725
BSC Node Redundancy
SINGLEHOST(Single Host), PRIMHOST(Primary Host), Enumeration SLAVEHOST(Slave Type Host)
SINGLEHOST, PRIMHOST, SLAVEHOST
GBFD118601 GBFD113725
Abis over IP BSC Node Redundancy
Interval Type 0~2047
0~2047
GBFD118601 GBFD113725
Abis over IP BSC Node Redundancy
IP Address Type
None
0.0.0.0~255.255.255.255
GBFD118601 GBFD113725
Abis over IP BSC Node Redundancy
IP Address Type
None
0.0.0.0~255.255.255.255
GBFD118601
Abis over IP
IP Address Type
None
0.0.0.0~255.255.255.255
GBFD118601
Abis over IP
Interval Type 0~65534
0~65534
IP QOS
NULL(NULL), IPLGCPORT(IP Logic Port), Enumeration RSCGRP(Resource Type Group)
NULL, IPLGCPORT, RSCGRP
GBFD118601
GBFD118605
None
None
Interval Type 0~5, 8~27
0~5, 8~27
None
None
Interval Type 0~988, 1024~1535
FG2a/GOUa/UOIa(IP) board:0~119;FG2c board:0~489, 512~767;GOUc board:0~499, 512~767;POUc(IP) board:0~988, 1024~1535
GBFD118605
IP QOS
Interval Type 0~2047
0~2047
None
None
Enumeration Type OFF(OFF), ON(ON)
OFF, ON
GBFD118611
Abis IP over E1/T1
IP Address Type
0.0.0.0~255.255.255.255
GBFD111202
O&M of BTS
Enumeration BYNAME(By Name), Type BYID(By Index)
BYNAME, BYID
GBFD111202
O&M of BTS
Interval Type 0~2047
0~2047
GBFD111202
O&M of BTS
String Type
GBFD111202
O&M of BTS
GBFD118620
Clock over IP support 1588V2 Interval Type 0~255
0~255
GBFD118620
PTPOVERUDP(PTP over UDP Unicast), Clock over IP Enumeration PTPOVERMAC(PTP support 1588V2 Type over MAC Multicast)
PTPOVERUDP, PTPOVERMAC
GBFD118606
Clock over IP
None
None 1~64 characters HW_DEFINED(Huawei Enumeration User-defined), Type PTP(PTP Protocol) HW_DEFINED, PTP
CONSYN(Consecutive Synchronizing), Enumeration INTERSYN(Intermittent Type Synchronizing) CONSYN, INTERSYN
GBFD118606
Clock over IP
Interval Type 1~7
1~7
GBFD118606
Clock over IP
Interval Type 0~23
0~23
GBFD118606
Clock over IP
Interval Type 0~59
0~59
GBFD118606
Clock over IP
UNSUPPORT(Not Support Reducy), Enumeration SUPPORT(Support Type Reducy)
UNSUPPORT, SUPPORT
GBFD118606
Clock over IP
IP Address Type
None
0.0.0.0~255.255.255.255
GBFD118606
Clock over IP
IP Address Type
None
0.0.0.0~255.255.255.255
GBFD111202
O&M of BTS
Interval Type 0~62
0~62
GBFD111202
O&M of BTS
Interval Type 0~254
0~254
GBFD111202
O&M of BTS
Interval Type 0~23
0~23
GBFD118620
Clock over IP support 1588V2 Interval Type 0~1
0~1
GBFD118620
Clock over IP support 1588V2 String Type
1~17 characters
GBFD118620
Clock over IP support 1588V2 Interval Type 0~1
0~1
GBFD118620
Clock over IP support 1588V2 String Type
1~17 characters
None
None
GBFD111202
O&M of BTS
Enumeration BYNAME(By Name), Type BYID(By Index)
BYNAME, BYID
GBFD111202
O&M of BTS
Interval Type 0~2047
0~2047
GBFD111202
O&M of BTS
String Type
1~64 characters
GBFD111202
O&M of BTS
Interval Type 0~62
0~62
GBFD111202
O&M of BTS
Interval Type 0~254
0~254
GBFD111202
O&M of BTS
Interval Type 0~23
0~23
GBFD118611
Abis IP over E1/T1
Interval Type 0~1
0~1
GBFD111202
O&M of BTS
Interval Type 0~1
0~1
None
GBFD111202
O&M of BTS
Interval Type 64~100000
64~100000
GBFD111202
O&M of BTS
Interval Type 63~256
63000~256000 (step: 1000)
GBFD111202
O&M of BTS
Enumeration BYNAME(By Name), Type BYID(By Index)
BYNAME, BYID
GBFD111202
O&M of BTS
Interval Type 0~2047
0~2047
GBFD111202
O&M of BTS
String Type
1~64 characters
GBFD111202
O&M of BTS
Enumeration DISABLE(Disable), Type ENABLE(Enable)
GBFD118601
Abis over IP
GBFD118601
Abis over IP
None
DISABLE, ENABLE
IP_OVER_FE/GE(IP_O VER_FE/GE), Enumeration IP_OVER_E1(IP_OVER Type _E1) IP_OVER_FE/GE, IP_OVER_E1 LOGICIP(Logic IP), Enumeration PORTIP(Port IP), Type PPP/MP(PPP/MP) LOGICIP, PORTIP, PPP/MP
GBFD118601
Abis over IP
IP Address Type
None
0.0.0.0~255.255.255.255
GBFD118601
Abis over IP
IP Address Type
None
0.0.0.0~255.255.255.255
GBFD111202
O&M of BTS
Enumeration BYNAME(By Name), Type BYID(By Index)
BYNAME, BYID
GBFD111202
O&M of BTS
Interval Type 0~2047
0~2047
GBFD111202
O&M of BTS
String Type
1~64 characters
GBFD118601
Abis over IP
Interval Type 0~15
0~15
GBFD118601
Abis over IP
IP Address Type
None
0.0.0.0~255.255.255.255
GBFD118601
Abis over IP
IP Address Type
None
0.0.0.0~255.255.255.255
GBFD118601
Abis over IP
Interval Type 0~255
None
0~255
GBFD118601
Abis over IP
Enumeration NEXTHOP(Next Hop), Type OUTIF(Out Interface)
NEXTHOP, OUTIF
GBFD111202
O&M of BTS
Interval Type 0~62
0~62
GBFD111202
O&M of BTS
Interval Type 0~254
0~254
GBFD111202
O&M of BTS
Interval Type 0~23
0~23
GBFD118611
Abis IP over E1/T1
IP Address Type
0.0.0.0~255.255.255.255
GBFD118605
IP QOS
Enumeration Type PPP(PPP), MP(MP)
PPP, MP
GBFD111202
O&M of BTS
Interval Type 0~15
0~3071
GBFD111202
O&M of BTS
Enumeration DISABLE(Disable), Type ENABLE(Enable)
DISABLE, ENABLE
None
MRFD210301
Configuration Management
Enumeration BYNAME(By Name), Type BYID(By Index)
BYNAME, BYID
GBFD111202
O&M of BTS
Interval Type 0~2047
0~2047
GBFD111202
O&M of BTS
String Type
None
1~64 characters
GBFD118601
Abis over IP
IP Address Type
None
0.0.0.0~255.255.255.255
GBFD118601
Abis over IP
IP Address Type
None
0.0.0.0~255.255.255.255
GBFD118611
Abis IP over E1/T1
IP Address Type
None
0.0.0.0~255.255.255.255
GBFD118609 GBFD118609
IP Fault Detection Based on BFD Interval Type 0~62 IP Fault Detection Based on BFD Interval Type 0~254
0~62
0~254
GBFD118609
IP Fault Detection Based on BFD Interval Type 0~23
0~23
GBFD118609
IP Fault Detection Based on BFD Interval Type 1~2
1~2
GBFD111202
O&M of BTS
Interval Type 0~62
0~62
GBFD111202
O&M of BTS
Interval Type 0~254
0~254
GBFD111202
O&M of BTS
Interval Type 0~23
0~23
GBFD111202
O&M of BTS
Enumeration BYNAME(By Name), Type BYID(By Index)
BYNAME, BYID
GBFD111202
O&M of BTS
Interval Type 0~2047
0~2047
GBFD111202
O&M of BTS
String Type
1~64 characters
GBFD111202
O&M of BTS
Interval Type 0~62
0~62
GBFD111202
O&M of BTS
Interval Type 0~254
0~254
None
GBFD111202
O&M of BTS
Interval Type 0~23
0~23
GBFD118611
Abis IP over E1/T1
Interval Type 0~1
0~1
GBFD118601
Abis over IP
IP Address Type
None
0.0.0.0~255.255.255.255
GBFD118601
Abis over IP
IP Address Type
None
0.0.0.0~255.255.255.255
GBFD111202
O&M of BTS
Enumeration BYNAME(By Name), Type BYID(By Index)
BYNAME, BYID
GBFD111202
O&M of BTS
Interval Type 0~2047
0~2047
GBFD111202
O&M of BTS
String Type
1~64 characters
GBFD118401
Abis Transmission Optimization
Enumeration DISABLE(Disable), Type ENABLE(Enable)
DISABLE, ENABLE
O&M of BTS
Enumeration BYNAME(By Name), Type BYID(By Index)
BYNAME, BYID
GBFD111202
None
GBFD111202
O&M of BTS
Interval Type 0~2047
0~2047
GBFD111202
O&M of BTS
String Type
1~64 characters
GBFD118601
Abis over IP
Interval Type 0~96
0~96
GBFD118601
Abis over IP
Interval Type 0~96
0~96
GBFD118601
Abis over IP
Interval Type 0~96
0~96
GBFD111202
O&M of BTS
Enumeration BYNAME(By Name), Type BYID(By Index)
BYNAME, BYID
GBFD111202
O&M of BTS
Interval Type 0~2047
0~2047
GBFD111202
O&M of BTS
String Type
1~64 characters
GBFD111202
O&M of BTS
GBFD111202
O&M of BTS
None NO(Cancel Control Enumeration Flag), YES(Set Control Type Flag) NO(Effect Later), Enumeration YES(Effect Type Immediately)
GBFD111202
O&M of BTS
String Type
1~63 characters
None
None
YES, NO
YES, NO
GBFD111202
O&M of BTS
String Type
None
1~63 characters
GBFD111202
O&M of BTS
Enumeration BYNAME(By Name), Type BYID(By Index)
BYNAME, BYID
GBFD111202
O&M of BTS
Interval Type 0~2047
0~2047
GBFD111202
O&M of BTS
String Type
1~64 characters
GBFD510104
Multi-site Cell
Interval Type 0~35
0~35
GBFD510104
Multi-site Cell
Enumeration Type NO(NO), YES(YES)
NO, YES
GBFD510104
Multi-site Cell
Interval Type -121~-104
-121~-104
GBFD510104
Multi-site Cell
Interval Type -121~-104
-121~-104
GBFD510104
Multi-site Cell
Enumeration 0_1dB(0.1dB), Type 0_1W(0.1W)
0_1dB, 0_1W
None
GBFD510104
Multi-site Cell
Interval Type 10~2000
1.0~200.0 (step: 0.1)
GBFD510104
Multi-site Cell
Interval Type 300~530
30.0~53.0 (step: 0.1)
MRFD210301
Configuration Management
Enumeration BYNAME(By Name), Type BYID(By Index)
BYNAME, BYID
GBFD111202
O&M of BTS
Interval Type 0~2047
0~2047
GBFD111202
O&M of BTS
String Type
1~64 characters
GBFD111605
Active Backup Power Control
Enumeration Type NO(No), YES(Yes)
NO, YES
MRFD210301
Configuration Management
Enumeration BYNAME(By Name), Type BYID(By Index)
BYNAME, BYID
GBFD111202
O&M of BTS
Interval Type 0~2047
0~2047
None
GBFD111202
O&M of BTS
String Type
GBFD117702
BTS Local Switch
Enumeration Type NO(No), YES(Yes)
NO, YES
GBFD117702
BTS Local Switch
Interval Type 0~95
0~95
GBFD111202
O&M of BTS
Enumeration BYNAME(By Name), Type BYID(By Index)
BYNAME, BYID
GBFD111202
O&M of BTS
Interval Type 0~2047
0~2047
GBFD111202
O&M of BTS
String Type
1~64 characters
None
None
1~64 characters
GBFD114701
SemiPermanent Connection
Interval Type 0~127
0~127
GBFD114701
SemiPermanent Connection
Enumeration 8K(8K), 16K(16K), Type 32K(32K), 64K(64K)
8K, 16K, 32K, 64K
GBFD114701
SemiPermanent Connection
Interval Type 0~11
0~11
GBFD114701
SemiPermanent Connection
Interval Type 0~27
0~27
GBFD114701
SemiPermanent Connection
Interval Type 0~335
0~335
GBFD114701
SemiPermanent Connection
Interval Type 1~31
1~31
GBFD114701
SemiPermanent Connection
Interval Type 0~7
0~7
GBFD114701
SemiPermanent Connection
Interval Type 0~23
0~23
GBFD111202
O&M of BTS
Interval Type 0~62
0~62
GBFD111202
O&M of BTS
Interval Type 0~254
0~254
GBFD111202
O&M of BTS
Interval Type 0~23
0~23
GBFD111202
O&M of BTS
Interval Type 1~31
1~31
GBFD111202
O&M of BTS
Interval Type 0~7
0~7
GBFD111202
O&M of BTS
Enumeration BYNAME(By Name), Type BYID(By Index)
BYNAME, BYID
GBFD111202
O&M of BTS
Interval Type 0~2047
0~2047
GBFD111202
O&M of BTS
String Type
GBFD118611
Abis IP over E1/T1
Interval Type 0~3
0~3
GBFD111202
O&M of BTS
Interval Type 0~62
0~62
GBFD111202
O&M of BTS
Interval Type 0~254
0~254
GBFD111202
O&M of BTS
Interval Type 0~23
0~23
GBFD118611
Abis IP over E1/T1
IP Address Type
None
0.0.0.0~255.255.255.255
GBFD118611
Abis IP over E1/T1
IP Address Type
None
0.0.0.0~255.255.255.255
GBFD118611
Abis IP over E1/T1
IP Address Type
None
0.0.0.0~255.255.255.255
GBFD118611
Abis IP over E1/T1
GBFD118611
Abis IP over E1/T1
Enumeration DISABLE(Disable), Type ENABLE(Enable) DISABLE, ENABLE LONG(Long List Head), Enumeration SHORT(Short List Type Head) LONG, SHORT
None
1~64 characters
Abis IP over E1/T1
Interval Type 4, 8
4(Use two bytes to present MC priority number, 4 classes), 8(Use four bytes to present MC priority number, 8 classes)
GBFD118611
Abis IP over E1/T1
NO_V(No Validate), PAP_V(PAP Validate), Enumeration CHAP_V(CHAP Type Validate)
NO_V, PAP_V, CHAP_V
GBFD118611
Abis IP over E1/T1
Enumeration SERVER(Server), Type CLIENT(Client)
SERVER, CLIENT
GBFD118611
Abis IP over E1/T1
String Type
None
1~64 characters
GBFD118611
Abis IP over E1/T1
String Type
None
1~16 characters
GBFD118611
GBFD118611
Abis IP over E1/T1
Enumeration Type NO(No), YES(Yes)
NO, YES
GBFD118611
Abis IP over E1/T1
Enumeration Type NO(No), YES(Yes)
NO, YES
GBFD118611
Abis IP over E1/T1
Interval Type 0~100
0~100
GBFD118611
Abis IP over E1/T1
Interval Type 0~100
0~100
GBFD118630
Ethernet OAM
Interval Type 0~100
0~100
GBFD118630
Ethernet OAM
Interval Type 0~100
0~100
GBFD111202
O&M of BTS
Enumeration DISABLE(Disable), Type ENABLE(Enable)
DISABLE, ENABLE
GBFD111202
O&M of BTS
Enumeration BYNAME(By Name), Type BYID(By Index)
BYNAME, BYID
GBFD111202
O&M of BTS
Interval Type 0~2047
0~2047
GBFD111202
O&M of BTS
String Type
1~64 characters
GBFD118611
Abis IP over E1/T1
Interval Type 0~3
None
0~3
GBFD118611
Abis IP over E1/T1
Interval Type 0~15
0~15
GBFD111202
O&M of BTS
Interval Type 0~23
0~23
GBFD111202
O&M of BTS
Interval Type 0~62
0~62
GBFD111202
O&M of BTS
Interval Type 0~254
0~254
GBFD111202
O&M of BTS
Interval Type 0~23
0~23
TS1(Time_slot_1), TS2(Time_slot_2), TS3(Time_slot_3), TS4(Time_slot_4), TS5(Time_slot_5), TS6(Time_slot_6), TS7(Time_slot_7), TS8(Time_slot_8), TS9(Time_slot_9), TS10(Time_slot_10), TS11(Time_slot_11), TS12(Time_slot_12), TS13(Time_slot_13), TS14(Time_slot_14), TS15(Time_slot_15), TS16(Time_slot_16), TS17(Time_slot_17), TS18(Time_slot_18), TS19(Time_slot_19), TS20(Time_slot_20), TS21(Time_slot_21), TS22(Time_slot_22), TS23(Time_slot_23), TS24(Time_slot_24), TS25(Time_slot_25), TS26(Time_slot_26), TS27(Time_slot_27), TS28(Time_slot_28), TS29(Time_slot_29), TS30(Time_slot_30), TS31(Time_slot_31)
TS1, TS2, TS3, TS4, TS5, TS6, TS7, TS8, TS9, TS10, TS11, TS12, TS13, TS14, TS15, TS16, TS17, TS18, TS19, TS20, TS21, TS22, TS23, TS24, TS25, TS26, TS27, TS28, TS29, TS30, TS31
GBFD118611
Abis IP over E1/T1
Bit Field Type
GBFD118601
Abis over IP
Interval Type 128~1500
128~1500
GBFD118611
Abis IP over E1/T1
Interval Type 1~65535
1~65535
GBFD111202
O&M of BTS
Enumeration DISABLE(Disable), Type ENABLE(Enable)
DISABLE, ENABLE
GBFD111202
O&M of BTS
Enumeration BYNAME(By Name), Type BYID(By Index)
BYNAME, BYID
GBFD111202
O&M of BTS
Interval Type 0~2047
0~2047
GBFD111202
O&M of BTS
String Type
GBFD111202
O&M of BTS
Interval Type 0~254
0~254
GBFD111202
O&M of BTS
Interval Type 0~23
0~23
GBFD111202
O&M of BTS
Enumeration Type NO(NO), YES(YES)
NO, YES
GBFD111202
O&M of BTS
Enumeration DISABLED(Disabled), Type ENABLED(Enabled)
DISABLED, ENABLED
MRFD210304
Faulty Management
BTS(BTS), CELL(CELL), LOC(LOC), Enumeration BOARD(BOARD), Type PORT(PORT)
BTS, CELL, LOC, BOARD, PORT
GBFD111202
O&M of BTS
Enumeration BYNAME(By Name), Type BYID(By Index)
BYNAME, BYID
None
1~64 characters
GBFD111202
O&M of BTS
String Type
GBFD111202
O&M of BTS
Interval Type 0~2047
0~2047
MRFD210301
Configuration Management
Interval Type 0~2047
0~2047
GBFD510104
Multi-site Cell
Interval Type 0~35
0~35
GBFD111202
O&M of BTS
Interval Type 0~62
0~62
GBFD111202
O&M of BTS
Interval Type 0~254
0~254
GBFD111202
O&M of BTS
Interval Type 0~23
0~23
None
1~64 characters
MRFD210304
Faulty Management
Interval Type 0~255
0~255
MRFD210304
Faulty Management
ALL(all), Enumeration ONEBYONE(one by Type one)
ALL, ONEBYONE
MRFD210304
Faulty Management
String Type
1~1024 characters
MRFD210301
Configuration Management
Enumeration BYNAME(By Name), Type BYID(By Index)
BYNAME, BYID
GBFD111202
O&M of BTS
Interval Type 0~2047
0~2047
GBFD111202
O&M of BTS
String Type
1~64 characters
GBFD113728
OML Backup
Enumeration Type NO(No), YES(Yes)
NO, YES
GBFD113728
OML Backup
Interval Type 30~300
30~300
None
None
GBFD113728
OML Backup
Interval Type 30~300
30~300
GBFD111202
O&M of BTS
Enumeration BYNAME(By Name), Type BYID(By Index)
BYNAME, BYID
GBFD111202
O&M of BTS
Interval Type 0~2047
0~2047
GBFD111202
O&M of BTS
String Type
1~64 characters
GBFD111202
O&M of BTS
Enumeration Type OFF(OFF), ON(ON)
None
OFF, ON
GBFD111202
O&M of BTS
String Type
None
1~64 characters
GBFD111202
O&M of BTS
Enumeration BYNAME(By Name), Type BYID(By Index)
BYNAME, BYID
GBFD111202
O&M of BTS
Interval Type 0~2047
0~2047
GBFD111202
O&M of BTS
String Type
1~64 characters
GBFD111202
O&M of BTS
Interval Type 0~23
None
0~23
GBFD111202
O&M of BTS
Interval Type 0~62
0~62
GBFD111202
O&M of BTS
Interval Type 0~254
0~254
GBFD111202
O&M of BTS
Interval Type 0~23
0~23
GBFD111203
O&M of BSC
Interval Type 1~31
1~31
GBFD111203
O&M of BSC
Enumeration Type 0(0), 2(2), 4(4), 6(6)
0, 2, 4, 6
MRFD210305
Security Management
Interval Type 0~2047, 65535
0~2047, 65535
GBFD111202
O&M of BTS
Enumeration BYNAME(By Name), Type BYID(By Index)
BYNAME, BYID
GBFD111202
O&M of BTS
Interval Type 0~2047
0~2047
GBFD111202
O&M of BTS
String Type
1~64 characters
GBFD117002 GBFD118201
IBCA (Interference Based Channel Allocation) SoftSynchronized Network
AISS(Air Interface Software Sync), Enumeration GPS(GPS Type Synchronization)
None
AISS, GPS
GBFD111608
PSU Smart Control
Enumeration Type NO(NO), YES(YES)
NO, YES
GBFD118601
Abis over IP
Enumeration CLOSE(CLOSE), Type OPEN(OPEN)
CLOSE, OPEN
GBFD111612
Multi-Carrier Intelligent Voltage Regulation
Enumeration Type NO(NO), YES(YES)
NO, YES
GBFD111612
Multi-Carrier Intelligent Voltage Regulation
Interval Type 1~15
1~15
Enumeration Type NO(NO), YES(YES)
NO, YES
Enumeration Type NO(NO), YES(YES)
NO, YES
GBFD111612 GBFD117803
Multi-Carrier Intelligent Voltage Regulation Abis Transmission Backup
Multi-Carrier Intelligent Voltage Regulation
Interval Type 1~255
GBFD118601
Abis over IP
DEFAULT(Default Sequence), CUSTOMIZDE(Customi Enumeration zed Sequence), DEFAULT, CUSTOMIZDE, Type DISABLE(DISABLE) DISABLE
GBFD118601
Abis over IP
Enumeration Type 1(1), 2(2)
Abis over IP
TDME1_O(TDM E1 0 Port), TDME1_1(TDM E1 1 Port), FE_E(FE Electric Port), FE_O(FE Enumeration Optical Port), IPOE(IP TDME1_O, TDME1_1, FE_E, Type over E1) FE_O, IPOE
GBFD118601
Abis over IP
TDME1_O(TDM E1 0 Port), TDME1_1(TDM E1 1 Port), FE_E(FE Electric Port), FE_O(FE Enumeration Optical Port), IPOE(IP TDME1_O, TDME1_1, FE_E, Type over E1) FE_O, IPOE
GBFD119505
PDCH Dynamic Adjustment with Enumeration 16K(16K), 32K(32K), Two Thresholds Type 48K(48K), 64K(64K)
GBFD111612
GBFD118601
20~5100, step: 20
1, 2
16K, 32K, 48K, 64K
GBFD111005
Enhanced Channel Assignment Algorithm
NOPRI(No Priority), Enumeration CSPTPS(CS Prior to Type PS)
NOPRI, CSPTPS
GBFD111005
Enhanced Channel Assignment Algorithm
Interval Type 0~30
0~3, (step: 0.1)
None
None
Enumeration Type NO(NO), YES(YES)
NO, YES
GBFD114201
EGPRS
Enumeration CLOSE(CLOSE), Type OPEN(OPEN)
CLOSE, OPEN
GBFD114201
EGPRS
IDLETSALLOC_0(Any idle timeslots under the same site), IDLETSALLOC_1(Idle timeslots on same E1 primary link preferred), IDLETSALLOC_2(Idle timeslots on same E1 primary link only), IDLETSALLOC_3(Idle Enumeration timeslots on same 64K Type primary link only)
IDLETSALLOC_0, IDLETSALLOC_1, IDLETSALLOC_2, IDLETSALLOC_3
GBFD111608
PSU Smart Control
Enumeration Type NO(NO), YES(YES)
NO, YES
GBFD114201
EGPRS
Interval Type 0~36
0~36
MRFD210301
Configuration Management
Enumeration BYNAME(By Name), Type BYID(By Index)
BYNAME, BYID
GBFD111202
O&M of BTS
Interval Type 0~2047
0~2047
GBFD111202
O&M of BTS
String Type
1~64 characters
GBFD111202
O&M of BTS
Enumeration INACTIVE(Inactive), Type ACTIVE(Active)
INACTIVE, ACTIVE
GBFD111202
O&M of BTS
Enumeration INACTIVE(Inactive), Type ACTIVE(Active)
INACTIVE, ACTIVE
GBFD111202
O&M of BTS
Enumeration INACTIVE(Inactive), Type ACTIVE(Active)
INACTIVE, ACTIVE
GBFD111202
O&M of BTS
Enumeration INACTIVE(Inactive), Type ACTIVE(Active)
INACTIVE, ACTIVE
GBFD111202
O&M of BTS
Enumeration INACTIVE(Inactive), Type ACTIVE(Active)
INACTIVE, ACTIVE
None
GBFD111202
O&M of BTS
Enumeration INACTIVE(Inactive), Type ACTIVE(Active)
GBFD111202
O&M of BTS
Enumeration BYBTSTYPE(By BTS Type Type), BYBTS(By BTS) BYBTSTYPE, BYBTS
GBFD111202
O&M of BTS
BTS3012(BTS3012), BTS3006C(BTS3006C), BTS3002E(BTS3002E), BTS3012AE(BTS3012A E), BTS3012_II(BTS3012_I I), DBS3900_GSM(DBS39 00 GSM), BTS3900_GSM(BTS39 00 GSM), BTS3900A_GSM(BTS3 900A GSM), DBS3036(DBS3036), BTS3036(BTS3036), BTS3036A(BTS3036A), BTS3900L_GSM(BTS3 900L GSM), BTS3900B_GSM(BTS3 900B GSM), Enumeration BTS3900E_GSM(BTS3 Type 900E GSM)
BTS3012, BTS3006C, BTS3002E, BTS3012AE, BTS3012_II, DBS3900_GSM, BTS3900_GSM, BTS3900A_GSM, DBS3036, BTS3036, BTS3036A, BTS3900L_GSM, BTS3900B_GSM, BTS3900E_GSM
GBFD111202
O&M of BTS
Enumeration BYNAME(By Name), Type BYID(By Index)
BYNAME, BYID
GBFD111202
O&M of BTS
Interval Type 0~2047
0~2047
GBFD111202
O&M of BTS
String Type
1~2048 characters
GBFD111202
O&M of BTS
Enumeration BYNAME(By Name), Type BYID(By Index)
BYNAME, BYID
GBFD111202
O&M of BTS
Interval Type 0~2047
0~2047
None
INACTIVE, ACTIVE
GBFD111202
O&M of BTS
String Type
GBFD118601
Abis over IP
Enumeration Type OFF(Off), ON(On)
OFF, ON
GBFD111202
O&M of BTS
Enumeration BYNAME(By Name), Type BYID(By Index)
BYNAME, BYID
GBFD111202
O&M of BTS
Interval Type 0~2047
0~2047
GBFD111202
O&M of BTS
String Type
1~64 characters
GBFD111202
O&M of BTS
Enumeration Type NO(NO), YES(YES)
NO, YES
GBFD111202
O&M of BTS
Enumeration Type NO(NO), YES(YES)
NO, YES
None
None
1~64 characters
GBFD111202
O&M of BTS
Enumeration BYNAME(By Name), Type BYID(By Index)
BYNAME, BYID
GBFD111202
O&M of BTS
Interval Type 0~2047
0~2047
GBFD111202
O&M of BTS
String Type
1~64 characters
GBFD111202
O&M of BTS
Interval Type 0~254
0~254
GBFD111202
O&M of BTS
Interval Type 0~23
0~23
GBFD111202
O&M of BTS
Enumeration Type NO(NO), YES(YES)
NO, YES
GBFD111202
O&M of BTS
POWER_48_24(48/24 Power Module), Enumeration POWER_240_24(240/2 POWER_48_24, Type 4 Power Module) POWER_240_24
GBFD111202
O&M of BTS
Interval Type 240~289
24.0~28.9 (step: 0.1)
GBFD111202
O&M of BTS
Interval Type 240~289
24.0~28.9 (step: 0.1)
None
GBFD111202
O&M of BTS
GBFD111202
O&M of BTS
Interval Type 1~1000 1C(0.01C), 2C(0.02C), 3C(0.03C), 4C(0.04C), 5C(0.05C), 6C(0.06C), 7C(0.07C), 8C(0.08C), 9C(0.09C), 10C(0.10C), 11C(0.11C), 12C(0.12C), 13C(0.13C), 14C(0.14C), 15C(0.15C), 16C(0.16C), 17C(0.17C), 18C(0.18C), 19C(0.19C), 20C(0.20C), 21C(0.21C), 22C(0.22C), 23C(0.23C), 24C(0.24C), 25C(0.25C), 26C(0.26C), 27C(0.27C), 28C(0.28C), 29C(0.29C), 30C(0.30C), 31C(0.31C), 32C(0.32C), 33C(0.33C), 34C(0.34C), 35C(0.35C), 36C(0.36C), 37C(0.37C), 38C(0.38C), Enumeration 39C(0.39C), Type 40C(0.40C),
1~1000
GBFD111202
O&M of BTS
Interval Type 0~1000
0~1000
GBFD111202
O&M of BTS
Interval Type 0~1000
0~1000
GBFD111202
O&M of BTS
Enumeration BYNAME(By Name), Type BYID(By Index)
BYNAME, BYID
1C, 2C, 3C, 4C, 5C, 6C, 7C, 8C, 9C, 10C, 11C, 12C, 13C, 14C, 15C, 16C, 17C, 18C, 19C, 20C, 21C, 22C, 23C, 24C, 25C, 26C, 27C, 28C, 29C, 30C, 31C, 32C, 33C, 34C, 35C, 36C, 37C, 38C, 39C, 40C, 41C, 42C, 43C, 44C, 45C, 46C, 47C, 48C, 49C, 50C, 51C, 52C, 53C, 54C, 55C, 56C, 57C, 58C, 59C, 60C, 61C, 62C, 63C, 64C, 65C, 66C, 67C, 68C, 69C, 70C, 71C, 72C, 73C, 74C, 75C, 76C, 77C, 78C, 79C, 80C, 81C, 82C, 83C, 84C, 85C, 86C, 87C, 88C, 89C, 90C, 91C, 92C, 93C, 94C, 95C, 96C, 97C, 98C, 99C
GBFD111202
O&M of BTS
Interval Type 0~2047
0~2047
GBFD111202
O&M of BTS
String Type
1~64 characters
GBFD111202
O&M of BTS
Interval Type 0~62
0~62
GBFD111202
O&M of BTS
Interval Type 0~254
0~254
GBFD111202
O&M of BTS
Interval Type 0~23
0~23
GBFD111202
O&M of BTS
Enumeration BYNAME(By Name), Type BYID(By Index)
BYNAME, BYID
GBFD111202
O&M of BTS
Interval Type 0~2047
0~2047
GBFD111202
O&M of BTS
String Type
1~64 characters
GBFD111202
O&M of BTS
Interval Type 0~62
0~62
GBFD111202
O&M of BTS
Enumeration Type NO(NO), YES(YES)
NO, YES
None
None
O&M of BTS
220VAC(220V AC), Enumeration N48VDC(-48V DC), Type P24VDC(+24V DC)
220VAC, N48VDC, P24VDC
GBFD111202
O&M of BTS
Enumeration BYNAME(By Name), Type BYID(By Index)
BYNAME, BYID
GBFD111202
O&M of BTS
Interval Type 0~2047
0~2047
GBFD111202
O&M of BTS
String Type
1~64 characters
GBFD118611
Abis IP over E1/T1
Interval Type 0~15
0~15
GBFD111202
O&M of BTS
Interval Type 0~23
0~23
GBFD111202
O&M of BTS
Interval Type 0~62
0~62
GBFD111202
O&M of BTS
Interval Type 0~254
0~254
GBFD111202
None
GBFD111202
O&M of BTS
Interval Type 0~23
0~23
GBFD118611
Abis IP over E1/T1
Bit Field Type
TS1(Time_slot_1), TS2(Time_slot_2), TS3(Time_slot_3), TS4(Time_slot_4), TS5(Time_slot_5), TS6(Time_slot_6), TS7(Time_slot_7), TS8(Time_slot_8), TS9(Time_slot_9), TS10(Time_slot_10), TS11(Time_slot_11), TS12(Time_slot_12), TS13(Time_slot_13), TS14(Time_slot_14), TS15(Time_slot_15), TS16(Time_slot_16), TS17(Time_slot_17), TS18(Time_slot_18), TS19(Time_slot_19), TS20(Time_slot_20), TS21(Time_slot_21), TS22(Time_slot_22), TS23(Time_slot_23), TS24(Time_slot_24), TS25(Time_slot_25), TS26(Time_slot_26), TS27(Time_slot_27), TS28(Time_slot_28), TS29(Time_slot_29), TS30(Time_slot_30), TS31(Time_slot_31)
GBFD118611
Abis IP over E1/T1
IP Address Type
None
0.0.0.0~255.255.255.255
GBFD118611
Abis IP over E1/T1
IP Address Type
None
0.0.0.0~255.255.255.255
TS1, TS2, TS3, TS4, TS5, TS6, TS7, TS8, TS9, TS10, TS11, TS12, TS13, TS14, TS15, TS16, TS17, TS18, TS19, TS20, TS21, TS22, TS23, TS24, TS25, TS26, TS27, TS28, TS29, TS30, TS31
GBFD118611
Abis IP over E1/T1
IP Address Type
GBFD118611
Abis IP over E1/T1
Enumeration Type NO(No), YES(Yes)
NO, YES
GBFD118611
Abis IP over E1/T1
Enumeration Type NO(No), YES(Yes)
NO, YES
GBFD118601
Abis over IP
Interval Type 128~1500
128~1500
GBFD118611
Abis IP over E1/T1
NO_V(No Validate), PAP_V(PAP Validate), Enumeration CHAP_V(CHAP Type Validate)
NO_V, PAP_V, CHAP_V
GBFD118611
Abis IP over E1/T1
Enumeration SERVER(Server), Type CLIENT(Client)
SERVER, CLIENT
GBFD118611
Abis IP over E1/T1
String Type
1~64 characters
None
None
0.0.0.0~255.255.255.255
GBFD118611
Abis IP over E1/T1
String Type
GBFD118611
Abis IP over E1/T1
Interval Type 1~65535
1~65535
GBFD118611
Abis IP over E1/T1
Interval Type 0~100
0~100
GBFD118611
Abis IP over E1/T1
Interval Type 0~100
0~100
GBFD118630
Ethernet OAM
Interval Type 0~100
0~100
GBFD118630
Ethernet OAM
Interval Type 0~100
0~100
GBFD111202
O&M of BTS
Enumeration DISABLE(Disable), Type ENABLE(Enable)
DISABLE, ENABLE
GBFD111202
O&M of BTS
Enumeration BYNAME(By Name), Type BYID(By Index)
BYNAME, BYID
GBFD111202
O&M of BTS
Interval Type 0~2047
0~2047
GBFD111202
O&M of BTS
String Type
1~64 characters
None
None
1~16 characters
GBFD111202
O&M of BTS
Enumeration Type NO(NO), YES(YES)
GBFD111202 GBFD117804
O&M of BTS Intelligent Shutdown of TRX Due to PSU Failure
NOT_CONFIG(NOT CONFIGURED), Enumeration CONFIG(CONFIGURE Type D) NOT_CONFIG, CONFIG
GBFD111202 GBFD117804
O&M of BTS Intelligent Shutdown of TRX Due to PSU Failure
GBFD111202
O&M of BTS
GSM_PRIOR(GSM Traffic Prior), Enumeration UMTS_PRIOR(UMTS Type Traffic Prior) CLASS0(Class0), Enumeration CLASS1(Class1), Type CLASS2(Class2)
GBFD111202
O&M of BTS
Enumeration BYNAME(By Name), Type BYID(By Index)
BYNAME, BYID
GBFD111202
O&M of BTS
Interval Type 0~2047
0~2047
GBFD111202
O&M of BTS
String Type
1~64 characters
GBFD111202
O&M of BTS
Interval Type 0~62
0~62
GBFD111202
O&M of BTS
Interval Type 0~254
0~254
GBFD111202
O&M of BTS
Interval Type 0~23
0~23
None
NO, YES
GSM_PRIOR, UMTS_PRIOR
CLASS0, CLASS1, CLASS2
GBFD118601
Abis over IP
Interval Type 1~60
1~60
GBFD118601
Abis over IP
Interval Type 1~60
1~60
GBFD118601
Abis over IP
Interval Type 1~60
1~60
GBFD111202
O&M of BTS
Enumeration BYNAME(By Name), Type BYID(By Index)
BYNAME, BYID
GBFD111202
O&M of BTS
Interval Type 0~2047
0~2047
GBFD111202
O&M of BTS
String Type
1~64 characters
GBFD111202
O&M of BTS
Interval Type 0~8
0~8
GBFD111202
O&M of BTS
String Type
None
1~80 characters
GBFD111202
O&M of BTS
Enumeration BYNAME(By Name), Type BYID(By Index)
BYNAME, BYID
GBFD111202
O&M of BTS
Interval Type 0~2047
0~2047
GBFD111202
O&M of BTS
String Type
1~64 characters
None
None
MRFD210602
Remote Electrical Tilt
Interval Type 0~35
0~35
MRFD210602
Remote Electrical Tilt
String Type
1~64 characters
MRFD210602
Remote Electrical Tilt
Interval Type 0~62
0~62
MRFD210602
Remote Electrical Tilt
Interval Type 0~254
0~254
MRFD210602
Remote Electrical Tilt
Interval Type 0~23
0~23
MRFD210602
Remote Electrical Tilt
GBFD111202
O&M of BTS
Interval Type 0~5 0~5 SINGLE_RET(Single Enumeration Ret), MULTI_RET(Multi Type Ret) SINGLE_RET, MULTI_RET
GBFD111202
O&M of BTS
Interval Type 1~8
1~8
GBFD111202
O&M of BTS
Enumeration SINGLE(Single), Type DUAL(Dual)
SINGLE, DUAL
GBFD111202
O&M of BTS
REGULAR(Regular), Enumeration DAISY_CHAIN(Daisy Type Chain)
REGULAR, DAISY_CHAIN
GBFD111202
O&M of BTS
String Type
None
1~2 characters
MRFD210602
Remote Electrical Tilt
String Type
None
1~17 characters
MRFD210602
Remote Electrical Tilt
Interval Type 1~8
None
1~8
GBFD111202
O&M of BTS
Enumeration BYNAME(By Name), Type BYID(By Index)
BYNAME, BYID
GBFD111202
O&M of BTS
Interval Type 0~2047
0~2047
GBFD111202
O&M of BTS
String Type
1~64 characters
MRFD210602
Remote Electrical Tilt
Interval Type 0~35
MRFD210602
Remote Electrical Tilt
SITE(SITE), CELL(CELL), Enumeration DEVICENO(DEVICENO Type ) SITE, CELL, DEVICENO
MRFD210602
Remote Electrical Tilt
Enumeration BYNAME(By Name), Type BYID(By Index)
BYNAME, BYID
GBFD111202
O&M of BTS
String Type
1~64 characters
GBFD111202
O&M of BTS
Interval Type 0~2047
0~2047
MRFD210602
Remote Electrical Tilt
Enumeration BYNAME(By Name), Type BYID(By Index)
BYNAME, BYID
None
None
0~35
MRFD210301
Configuration Management
String Type
MRFD210301
Configuration Management
Interval Type 0~2047
0~2047
MRFD210602 MRFD210602
Remote Electrical Tilt Remote Electrical Tilt
Interval Type 0~35
0~35
Interval Type -100~300
-10~30(step: 0.1)
GBFD111202
O&M of BTS
Enumeration BYNAME(By Name), Type BYID(By Index)
BYNAME, BYID
GBFD111202
O&M of BTS
Interval Type 0~2047
0~2047
GBFD111202
O&M of BTS
String Type
1~64 characters
MRFD210602
Remote Electrical Tilt
Interval Type 0~35
0~35
MRFD210602
Remote Electrical Tilt
Interval Type 1~8
1~8
MRFD210602
Remote Electrical Tilt
Interval Type 0~3599
0~359.9(step: 0.1)
MRFD210602
Remote Electrical Tilt
String Type
1~15 characters
None
None
None
1~64 characters
MRFD210602
Remote Electrical Tilt
String Type
GBFD111202
O&M of BTS
UNUSED(Unused), Band800(800MHz), Band850(850MHz), Band900(900MHz), Band1500(1500MHz), Band1800(1800MHz), Band1900(1900MHz), Enumeration Band2100(2100MHz), Type Band2600(2600MHz)
UNUSED, Band800, Band850, Band900, Band1500, Band1800, Band1900, Band2100, Band2600
MRFD210602
Remote Electrical Tilt
Interval Type 0~359
0~359
MRFD210602
Remote Electrical Tilt
Interval Type 0~255
0~25.5(step: 0.1)
GBFD111202
O&M of BTS
UNUSED(Unused), Band800(800MHz), Band850(850MHz), Band900(900MHz), Band1500(1500MHz), Band1800(1800MHz), Band1900(1900MHz), Enumeration Band2100(2100MHz), Type Band2600(2600MHz)
UNUSED, Band800, Band850, Band900, Band1500, Band1800, Band1900, Band2100, Band2600
MRFD210602
Remote Electrical Tilt
Interval Type 0~359
0~359
MRFD210602
Remote Electrical Tilt
Interval Type 0~255
0~25.5(step: 0.1)
GBFD111202
O&M of BTS
UNUSED(Unused), Band800(800MHz), Band850(850MHz), Band900(900MHz), Band1500(1500MHz), Band1800(1800MHz), Band1900(1900MHz), Enumeration Band2100(2100MHz), Type Band2600(2600MHz)
UNUSED, Band800, Band850, Band900, Band1500, Band1800, Band1900, Band2100, Band2600
MRFD210602
Remote Electrical Tilt
Interval Type 0~359
0~359
MRFD210602
Remote Electrical Tilt
Interval Type 0~255
0~25.5(step: 0.1)
None
1~32 characters
GBFD111202
O&M of BTS
UNUSED(Unused), Band800(800MHz), Band850(850MHz), Band900(900MHz), Band1500(1500MHz), Band1800(1800MHz), Band1900(1900MHz), Enumeration Band2100(2100MHz), Type Band2600(2600MHz)
MRFD210602
Remote Electrical Tilt
Interval Type 0~359
0~359
MRFD210602
Remote Electrical Tilt
Interval Type 0~255
0~25.5(step: 0.1)
MRFD210602
Remote Electrical Tilt
String Type
1~6 characters
MRFD210602
Remote Electrical Tilt
Interval Type -100~300
-10~30(step: 0.1)
MRFD210602
Remote Electrical Tilt
String Type
None
1~5 characters
MRFD210602
Remote Electrical Tilt
String Type
None
1~32 characters
MRFD210602
Remote Electrical Tilt
String Type
None
1~17 characters
GBFD111202
O&M of BTS
Enumeration BYNAME(By Name), Type BYID(By Index)
BYNAME, BYID
GBFD111202
O&M of BTS
Interval Type 0~2047
0~2047
GBFD111202
O&M of BTS
String Type
1~64 characters
None
None
UNUSED, Band800, Band850, Band900, Band1500, Band1800, Band1900, Band2100, Band2600
MRFD210602
Remote Electrical Tilt
Interval Type 0~35
0~35
MRFD210602
Remote Electrical Tilt
Interval Type 1~8
1~8
MRFD210602
Remote Electrical Tilt
Interval Type 0~62
0~62
MRFD210602
Remote Electrical Tilt
Interval Type 0~255
0~255
MRFD210602
Remote Electrical Tilt
Interval Type 0~23
0~23
MRFD210602
Remote Electrical Tilt
Interval Type 0~5
0~5
MRFD210602
Remote Electrical Tilt
Interval Type 0~62
0~62
MRFD210602
Remote Electrical Tilt
Interval Type 0~255
0~255
MRFD210602
Remote Electrical Tilt
Interval Type 0~23
0~23
MRFD210602 MRFD210602
Remote Electrical Tilt Remote Electrical Tilt
Interval Type 0~5
0~5
Interval Type -100~300, 32767
-10~30, 32767 (step: 0.1)
MRFD210602
Remote Electrical Tilt
Interval Type 0~10
0~1(step: 0.1)
MRFD210301
Configuration Management
Enumeration BYNAME(By Name), Type BYID(By Index)
BYNAME, BYID
MRFD210301
Configuration Management
Interval Type 0~2047, 65535
0~2047, 65535
MRFD210301
Configuration Management
String Type
None
1~64 characters
GBFD111202
O&M of BTS
Enumeration BYNAME(By Name), Type BYID(By Index)
BYNAME, BYID
GBFD111202
O&M of BTS
Interval Type 0~2047
0~2047
GBFD111202
O&M of BTS
String Type
1~64 characters
GBFD111202
O&M of BTS
Enumeration DEVICENO(DEVICENO Type ), CELL(CELL) DEVICENO, CELL
MRFD210602
Remote Electrical Tilt
Interval Type 0~35
0~35
MRFD210301
Configuration Management
Enumeration BYNAME(By Name), Type BYID(By Index)
BYNAME, BYID
MRFD210301
Configuration Management
Interval Type 0~2047, 65535
0~2047, 65535
MRFD210301 MRFD210602
Configuration Management Remote Electrical Tilt
String Type
1~64 characters
None
None
Interval Type -100~300, 32767
-10~30, 32767 (step: 0.1)
GBFD111202
O&M of BTS
Enumeration BYNAME(By Name), Type BYID(By Index)
BYNAME, BYID
GBFD111202
O&M of BTS
Interval Type 0~2047
0~2047
GBFD111202
O&M of BTS
String Type
1~64 characters
GBFD117802
Fast Ring Enumeration Network Switch Type NO(No), YES(Yes)
NO, YES
GBFD117801
Ring Topology
Interval Type 60~300
60~300
GBFD117801
Ring Topology
Interval Type 60~300
60~300
GBFD117802
Fast Ring Network Switch Interval Type 0~255
None
0~255
GBFD117802
Fast Ring Network Switch Interval Type 10~255
10~255
GBFD117802
Fast Ring Network Switch Interval Type 0~255
0~255
GBFD117801
Ring Topology
60~2400 (step: 10)
Interval Type 6~240
GBFD117802
Fast Ring Network Switch Interval Type 1~10
1~10
GBFD117801
Ring Topology
1~3
Interval Type 1~3
GBFD111202
O&M of BTS
Enumeration BYNAME(By Name), Type BYID(By Index)
BYNAME, BYID
GBFD111202
O&M of BTS
Interval Type 0~2047
0~2047
GBFD111202
O&M of BTS
String Type
1~64 characters
GBFD510104
Multi-site Cell
Interval Type 0~35
0~35
GBFD111202
O&M of BTS
Interval Type 0~62
0~62
GBFD111202
O&M of BTS
Interval Type 0~254
0~254
GBFD111202
O&M of BTS
Interval Type 0~23
0~23
GBFD111202
O&M of BTS
Enumeration BYNAME(By Name), Type BYID(By Index)
BYNAME, BYID
None
GBFD111202
O&M of BTS
Interval Type 0~2047
GBFD111202
O&M of BTS
String Type
GBFD111202
O&M of BTS
None 1~64 characters RXUNAME(RXUName), Enumeration RXUPOS(RXUPOS), Type SRNSN(SRNSN) RXUNAME, RXUPOS, SRNSN
GBFD111202
O&M of BTS
Interval Type 0~249
0~249
GBFD111202
O&M of BTS
Interval Type 1~6
1~6
GBFD111202
O&M of BTS
String Type
1~64 characters
GBFD111202
O&M of BTS
Interval Type 0~62
0~62
GBFD111202
O&M of BTS
Interval Type 0~254
0~254
GBFD111202
O&M of BTS
Interval Type 0~23
0~23
O&M of BTS
DRRU(DRRU), DRFU(DRFU), MRRU(MRRU), MRFU(MRFU), GRFU(GRFU), Enumeration GRRU(GRRU), DRRU, DRFU, MRRU, MRFU, Type BTS3900E(BTS3900E) GRRU, GRFU, BTS3900E
GBFD111202
None
0~2047
GBFD111202
GBFD111202
O&M of BTS
SGL_ANTENNA(Single Feeder[1TX + 1RX]), SGLDOUBLE_ANTENN A(Single Feeder[1TX + 2RX]), DOUBLE_ANTENNA(D ouble Feeder[2TX + 2RX]), DOUBLEFOUR_ANTE NNA(Double Feeder[2TX + 4RX]), DOUBLESINGLE_ANT ENNA(Double Feeder[1TX + 1RX]), DOUBLEDOUBLE_ANT Enumeration ENNA(Double Type Feeder[1TX + 2RX])
SGL_ANTENNA, SGLDOUBLE_ANTENNA, DOUBLE_ANTENNA, DOUBLEFOUR_ANTENNA, DOUBLESINGLE_ANTENNA, DOUBLEDOUBLE_ANTENNA
O&M of BTS
SGL_ANTENNA(Single Feeder[1TX + 1RX]), SGLDOUBLE_ANTENN A(Single Feeder[1TX + 2RX]), DOUBLE_ANTENNA(D ouble Feeder[2TX + 2RX]), DOUBLEFOUR_ANTE NNA(Double Feeder[2TX + 4RX]), DOUBLESINGLE_ANT ENNA(Double Feeder[1TX + 1RX]), DOUBLEDOUBLE_ANT Enumeration ENNA(Double Type Feeder[1TX + 2RX])
SGL_ANTENNA, SGLDOUBLE_ANTENNA, DOUBLE_ANTENNA, DOUBLEFOUR_ANTENNA, DOUBLESINGLE_ANTENNA, DOUBLEDOUBLE_ANTENNA
O&M of BTS
SGL_ANTENNA(Single Feeder[1TX + 1RX]), SGLDOUBLE_ANTENN A(Single Feeder[1TX + 2RX]), DOUBLE_ANTENNA(D ouble Feeder[2TX + 2RX]), DOUBLEFOUR_ANTE NNA(Double Feeder[2TX + 4RX]), DOUBLESINGLE_ANT ENNA(Double Feeder[1TX + 1RX]), DOUBLEDOUBLE_ANT Enumeration ENNA(Double Type Feeder[1TX + 2RX])
SGL_ANTENNA, SGLDOUBLE_ANTENNA, DOUBLE_ANTENNA, DOUBLEFOUR_ANTENNA, DOUBLESINGLE_ANTENNA, DOUBLEDOUBLE_ANTENNA
O&M of BTS
SGL_ANTENNA(Single Feeder[1TX + 1RX]), SGLDOUBLE_ANTENN A(Single Feeder[1TX + 2RX]), DOUBLE_ANTENNA(D ouble Feeder[2TX + 2RX]), DOUBLEFOUR_ANTE NNA(Double Feeder[2TX + 4RX]), DOUBLESINGLE_ANT ENNA(Double Feeder[1TX + 1RX]), DOUBLEDOUBLE_ANT Enumeration ENNA(Double Type Feeder[1TX + 2RX])
SGL_ANTENNA, SGLDOUBLE_ANTENNA, DOUBLE_ANTENNA, DOUBLEFOUR_ANTENNA, DOUBLESINGLE_ANTENNA, DOUBLEDOUBLE_ANTENNA
GBFD111202
O&M of BTS
SGL_ANTENNA(Single Feeder[1TX + 1RX]), DOUBLESINGLE_ANT ENNA(Double Feeder[1TX + 1RX]), DOUBLEDOUBLE_ANT SGL_ANTENNA, Enumeration ENNA(Double DOUBLESINGLE_ANTENNA, Type Feeder[1TX + 2RX]) DOUBLEDOUBLE_ANTENNA
GBFD115902
Transmit Diversity
Enumeration Type NO(No), YES(Yes)
GBFD111202
GBFD111202
NO, YES
GBFD111202
O&M of BTS
Interval Type 0~62
0~62
GBFD111202
O&M of BTS
Interval Type 0~254
0~254
GBFD111202
O&M of BTS
GBFD111202
O&M of BTS
Interval Type 0~23 0~23 14(1.4), 15(1.5), 16(1.6), 18(1.8), 20(2.0), 22(2.2), 24(2.4), 26(2.6), Enumeration 28(2.8), 30(3.0), 14, 15, 16, 18, 20, 22, 24, 26, 28, Type 33(3.3), 20(2.0), 36(3.6), 88(8.8) 30, 33, 36, 88 18(1.8),
GBFD111202
O&M of BTS
22(2.2), 24(2.4), 26(2.6), 28(2.8), 30(3.0), 32(3.2), Enumeration 35(3.5), 38(3.8), 18, 20, 22, 24, 26, 28, 30, 32, 35, Type 41(4.1), 45(4.5), 88(8.8) 38, 41, 45, 88
GBFD111202
O&M of BTS
Interval Type 0~40
0.0~4.0 (step: 0.1)
GBFD111202
O&M of BTS
Interval Type 40~80
4.0~8.0 (step: 0.1)
GBFD111202 MRFD210601
O&M of BTS Connection with TMA (Tower Mounted Enumeration Amplifier) Type NO(NO), YES(YES)
NO, YES
GBFD111202 MRFD210601
O&M of BTS Connection with TMA (Tower Mounted Amplifier) Interval Type 0~15
0~15
GBFD111202
O&M of BTS
GBFD111202 MRFD210601
O&M of BTS Connection with TMA (Tower Mounted Enumeration Amplifier) Type NO(NO), YES(YES)
NO, YES
GBFD111202 MRFD210601
O&M of BTS Connection with TMA (Tower Mounted Amplifier) Interval Type 0~15
0~15
GBFD111202
O&M of BTS
Interval Type 4~30
4~30
GBFD111202
O&M of BTS
Interval Type -125~125
-125~125
GBFD111202
O&M of BTS
GSM_AND_UMTS(GS M AND UMTS), UMTS(UMTS), GSM(GSM), Enumeration GSM_AND_LTE(GSM Type AND LTE), LTE(LTE)
GSM_AND_UMTS, UMTS, GSM, GSM_AND_LTE, LTE
GBFD118701
RAN Sharing
Enumeration Type NO(NO), YES(YES)
NO, YES
Interval Type 4~30
4~30
GBFD111202 MRFD210601
O&M of BTS Connection with TMA (Tower Mounted Enumeration Amplifier) Type OFF(OFF), ON(ON)
OFF, ON
GBFD111202 MRFD210601
UER_SELF_DEFINE1( User Self Defined Type 1), UER_SELF_DEFINE2( User Self Defined Type 2), UER_SELF_DEFINE3( User Self Defined Type 3), TMA12DB_ONLY_NON _AISG(For 12 dB nonAISG TMA), TMA24DB_ONLY_NON _AISG(For 24 dB nonAISG TMA), RET_ONLY_COAXIAL( For RET only (coaxial)), TMA12DB_AISG(For 12 O&M of BTS dB TMA and RET or 12 Connection with dB TMA (AISG)), TMA (Tower TMA24DB_AISG(For 24 Mounted Enumeration dB TMA and RET or 24 Amplifier) Type dB TMA (AISG))
UER_SELF_DEFINE1, TMA12DB_ONLY_NON_AISG, TMA24DB_ONLY_NON_AISG, RET_ONLY_COAXIAL, TMA12DB_AISG, TMA24DB_AISG, UER_SELF_DEFINE2, UER_SELF_DEFINE3
MRFD210304 MRFD210601
Faulty Management Connection with TMA (Tower Mounted Amplifier) Interval Type 10~3500
10~3500
MRFD210304 MRFD210601
Faulty Management Connection with TMA (Tower Mounted Amplifier) Interval Type 10~3500
10~3500
MRFD210304 MRFD210601
Faulty Management Connection with TMA (Tower Mounted Amplifier) Interval Type 10~3500
10~3500
MRFD210304 MRFD210601
Faulty Management Connection with TMA (Tower Mounted Amplifier) Interval Type 10~3500
10~3500
MRFD210304 MRFD210601
Faulty Management Connection with TMA (Tower Mounted Amplifier) Interval Type 10~3500
10~3500
MRFD210304 MRFD210601
Faulty Management Connection with TMA (Tower Mounted Amplifier) Interval Type 10~3500
10~3500
MRFD210304 MRFD210601
Faulty Management Connection with TMA (Tower Mounted Amplifier) Interval Type 100~10000
100~10000
MRFD210304 MRFD210601
Faulty Management Connection with TMA (Tower Mounted Amplifier) Interval Type 100~10000
100~10000
GBFD111202 MRFD210601
O&M of BTS Connection with TMA (Tower Mounted Enumeration Amplifier) Type OFF(OFF), ON(ON)
OFF, ON
GBFD111202 MRFD210601
UER_SELF_DEFINE1( User Self Defined Type 1), UER_SELF_DEFINE2( User Self Defined Type 2), UER_SELF_DEFINE3( User Self Defined Type 3), TMA12DB_ONLY_NON _AISG(For 12 dB nonAISG TMA), TMA24DB_ONLY_NON _AISG(For 24 dB nonAISG TMA), RET_ONLY_COAXIAL( For RET only (coaxial)), TMA12DB_AISG(For 12 O&M of BTS dB TMA and RET or 12 Connection with dB TMA (AISG)), TMA (Tower TMA24DB_AISG(For 24 Mounted Enumeration dB TMA and RET or 24 Amplifier) Type dB TMA (AISG))
UER_SELF_DEFINE1, TMA12DB_ONLY_NON_AISG, TMA24DB_ONLY_NON_AISG, RET_ONLY_COAXIAL, TMA12DB_AISG, TMA24DB_AISG, UER_SELF_DEFINE2, UER_SELF_DEFINE3
MRFD210304 MRFD210601
Faulty Management Connection with TMA (Tower Mounted Amplifier) Interval Type 10~3500
10~3500
MRFD210304 MRFD210601
Faulty Management Connection with TMA (Tower Mounted Amplifier) Interval Type 10~3500
10~3500
MRFD210304 MRFD210601
Faulty Management Connection with TMA (Tower Mounted Amplifier) Interval Type 10~3500
10~3500
MRFD210304 MRFD210601
Faulty Management Connection with TMA (Tower Mounted Amplifier) Interval Type 10~3500
10~3500
MRFD210304 MRFD210601
Faulty Management Connection with TMA (Tower Mounted Amplifier) Interval Type 10~3500
10~3500
MRFD210304 MRFD210601
Faulty Management Connection with TMA (Tower Mounted Amplifier) Interval Type 10~3500
10~3500
MRFD210304 MRFD210601
Faulty Management Connection with TMA (Tower Mounted Amplifier) Interval Type 100~10000
100~10000
MRFD210304 MRFD210601
Faulty Management Connection with TMA (Tower Mounted Amplifier) Interval Type 100~10000
100~10000
GBFD111202
O&M of BTS
OFF(OFF), POWERSHARING(Pow er Sharing Between Boards), RF_FH(RF Enumeration Frequency Hopping Type Between Boards) OFF, POWERSHARING, RF_FH
GBFD111202
O&M of BTS
Interval Type 0~62
0~62
GBFD111202
O&M of BTS
Interval Type 0~255
0~255
GBFD111202
O&M of BTS
Interval Type 0~23
0~23
GBFD111202
O&M of BTS
Enumeration Type OFF(OFF), ON(ON)
GBFD111202
O&M of BTS
UER_SELF_DEFINE(U ser Self Defined), RET_ONLY_MULTICO Enumeration RE(For RET only (multi- UER_SELF_DEFINE, Type wire cable mode)) RET_ONLY_MULTICORE
MRFD210304
Faulty Management
Interval Type 10~3500
10~3500
MRFD210304
Faulty Management
Interval Type 10~3500
10~3500
MRFD210304
Faulty Management
Interval Type 10~3500
10~3500
MRFD210304
Faulty Management
Interval Type 10~3500
10~3500
GBFD118701
RAN Sharing
Interval Type 0~10000
0~100 (step: 0.01)
GBFD118701
RAN Sharing
Interval Type 0~10000
0~100 (step: 0.01)
GBFD118701
RAN Sharing
Interval Type 0~10000
0~100 (step: 0.01)
GBFD118701
RAN Sharing
Interval Type 0~10000
0~100 (step: 0.01)
GBFD118701
RAN Sharing
Interval Type 0~10000
0~100 (step: 0.01)
OFF, ON
GBFD118701
RAN Sharing
Interval Type 0~10000
0~100 (step: 0.01)
GBFD118701
RAN Sharing
Interval Type 0~10000
0~100 (step: 0.01)
GBFD118701
RAN Sharing
Interval Type 0~10000
0~100 (step: 0.01)
MRFD211801
GSM and UMTS Dynamic Power Enumeration Sharing Type NO(NO), YES(YES)
NO, YES
MRFD211801
GSM and UMTS Dynamic Power Sharing Interval Type 1~255
1~255
MRFD211801
GSM and UMTS Dynamic Power Sharing Interval Type 0~100
0~100
MRFD211801
GSM and UMTS Dynamic Power Sharing Interval Type 0~255
0~255
MRFD211801
GSM and UMTS Dynamic Power Sharing Interval Type 0~255
0~255
MRFD211801
GSM and UMTS Dynamic Power Sharing Interval Type 0~100
0~100
MRFD211801
GSM and UMTS Dynamic Power Sharing Interval Type 0~255
0~255
MRFD211801
GSM and UMTS Dynamic Power Sharing Interval Type 0~255
0~255
MRFD211801
GSM and UMTS Dynamic Power Sharing Interval Type 0~255
0~255
MRFD211801
GSM and UMTS Dynamic Power Sharing Interval Type 0~255
0~255
MRFD211801
GSM and UMTS Dynamic Power Sharing Interval Type 0~15
0~15
MRFD211801
GBFD111202
GSM and UMTS Dynamic Power Sharing Interval Type 0~15
PORT0_CDEF(Port0 Customer Definition Switch{Enabled}), PORT1_CDEF(Port1 Customer Definition Switch{Enabled}) OFF(OFF),
0~15
O&M of BTS
Bit Field Type
GBFD111202
O&M of BTS
INTERPAPS(Inter-PA Power Sharing), INTERPARFFH(InterEnumeration PA RF Frequency Type Hopping)
OFF, INTERPAPS, INTERPARFFH
GBFD111202
O&M of BTS
Enumeration BYNAME(By Name), Type BYID(By Index)
BYNAME, BYID
GBFD111202
O&M of BTS
Interval Type 0~2047
0~2047
GBFD111202
O&M of BTS
String Type
1~64 characters
None
PORT0_CDEF, PORT1_CDEF
O&M of BTS
DRRU(DRRU), DRFU(DRFU), MRRU(MRRU), XRRU(XRRU), MRFU(MRFU), GRFU(GRFU), GRRU(GRRU), DRRU, DRFU, MRRU, XRRU, Enumeration XRFU(XRFU), MRFU, GRFU, GRRU, XRFU, Type BTS3900E(BTS3900E) BTS3900E
GBFD111202
O&M of BTS
RRU3008_V1(RRU300 8 V1 SPEC), RRU3008_V2(RRU300 8 V2 SPEC), RRU3029(RRU3029 SPEC), RRU3908_V1(RRU390 8 V1 SPEC), RRU3908_V2(RRU390 8 V2 SPEC), RRU3929(RRU3929 SPEC), RRU3920_V1(RRU392 0 V1 SPEC), RRU3928(RRU3928 SPEC), GRFU_V1(GRFU V1 SPEC), GRFU_V2(GRFU V2 SPEC), GRFU_V3(GRFU V3 SPEC), GRFUe(GRFUe SPEC), MRFU_V1(MRFU V1 SPEC), MRFU_V2(MRFU V2 SPEC), MRFU_V3(MRFU V3 SPEC), MRFUe(MRFUe SPEC), MRFUd(MRFUd SPEC), Enumeration BTS3900E_V1(BTS390 Type 0E V1 SPEC), NA(NA)
RRU3008_V1, RRU3008_V2, RRU3029, RRU3908_V1, RRU3908_V2, RRU3929, RRU3920_V1, RRU3928, GRFU_V1, GRFU_V2, GRFU_V3, GRFUe, MRFU_V1, MRFU_V2, MRFU_V3, MRFUe, MRFUd, BTS3900E_V1, NA
GBFD111202
O&M of BTS
Interval Type 0~62
0~62
GBFD111202
GBFD111202
O&M of BTS
Interval Type 0~254
0~254
GBFD111202
O&M of BTS
Interval Type 0~23
0~23
GBFD111202
O&M of BTS
String Type
1~64 characters
GBFD111202
O&M of BTS
Interval Type 0~249
0~249
GBFD111202
O&M of BTS
Interval Type 1~6
1~6
GBFD111202
O&M of BTS
Enumeration Type NO(NO), YES(YES)
YES, NO
GBFD111202
O&M of BTS
Interval Type 0~1000
0~100000 (step: 100)
None
GBFD111202
O&M of BTS
Interval Type 0~1000
0~100000 (step: 100)
GBFD111202
O&M of BTS
CLASS0(Class0), Enumeration CLASS1(Class1), Type CLASS2(Class2)
CLASS0, CLASS1, CLASS2
GBFD111202
O&M of BTS
Interval Type 0~8
0~8
GBFD111202
O&M of BTS
RXUNAME(RXUName), Enumeration RXUPOS(RXUPOS), Type SRNSN(SRNSN) RXUNAME, RXUPOS, SRNSN
GBFD111202
O&M of BTS
String Type
None
1~64 characters
GBFD111202
O&M of BTS
Enumeration BYNAME(By Name), Type BYID(By Index)
BYNAME, BYID
GBFD111202
O&M of BTS
Interval Type 0~2047
0~2047
GBFD111202
O&M of BTS
String Type
GBFD111202
O&M of BTS
None 1~64 characters RXUNAME(RXUName), Enumeration RXUPOS(RXUPOS), Type SRNSN(SRNSN) RXUNAME, RXUPOS, SRNSN
GBFD111202
O&M of BTS
Interval Type 0~249
0~249
GBFD111202
O&M of BTS
Interval Type 1~6
1~6
GBFD111202
O&M of BTS
String Type
1~64 characters
GBFD111202
O&M of BTS
Interval Type 0~62
0~62
GBFD111202
O&M of BTS
Interval Type 0~254
0~254
GBFD111202
O&M of BTS
Interval Type 0~23
0~23
GBFD111202
O&M of BTS
Interval Type 0~249
0~249
GBFD111202
O&M of BTS
Interval Type 1~6
1~6
GBFD111202
O&M of BTS
Enumeration BYNAME(By Name), Type BYID(By Index)
BYNAME, BYID
GBFD111202
O&M of BTS
Interval Type 0~2047
0~2047
None
GBFD111202
O&M of BTS
String Type
GBFD111202
O&M of BTS
Interval Type 0~249
0~249
GBFD111202
O&M of BTS
Enumeration CHAIN(Chain), Type RING(Ring)
CHAIN, RING
GBFD111202
O&M of BTS
Interval Type 0~62
0~62
GBFD111202
O&M of BTS
Interval Type 0~254
0~254
GBFD111202
O&M of BTS
Interval Type 0~23
0~23
GBFD111202
O&M of BTS
Interval Type 0~5
0~5
GBFD111202
O&M of BTS
Interval Type 0~62
0~62
None
1~64 characters
GBFD111202
O&M of BTS
Interval Type 0~254
0~254
GBFD111202
O&M of BTS
Interval Type 0~23
0~23
GBFD111202
O&M of BTS
Interval Type 0~5
0~5
GBFD111202
O&M of BTS
CHAINTORING(ChainT oRing), Enumeration COMBINECHAINS(Co CHAINTORING, Type mbineChains) COMBINECHAINS
GBFD111202
O&M of BTS
Interval Type 0~249
0~249
GBFD111202
O&M of BTS
Interval Type 0~249
0~249
GBFD111202
O&M of BTS
Interval Type 0~6
0~6
GBFD111202
O&M of BTS
Enumeration BYNAME(By Name), Type BYID(By Index)
BYNAME, BYID
GBFD111202
O&M of BTS
Interval Type 0~2047
0~2047
GBFD111202
O&M of BTS
String Type
GBFD111202
O&M of BTS
Interval Type 0~62
0~62
GBFD111202
O&M of BTS
Interval Type 0~254
0~254
GBFD111202
O&M of BTS
Interval Type 0~23
0~23
GBFD111202
O&M of BTS
Interval Type 0~5
0~5
GBFD111202
O&M of BTS
Interval Type 3~5
3~5
GBFD111202
O&M of BTS
Enumeration BYNAME(By Name), Type BYID(By Index)
BYNAME, BYID
GBFD111202
O&M of BTS
Interval Type 0~2047
0~2047
None
1~64 characters
GBFD111202
O&M of BTS
String Type
GBFD118701
RAN Sharing
Enumeration Type NO(NO), YES(YES)
NO, YES
MRFD210301
Configuration Management
Enumeration BYNAME(By Name), Type BYID(By Index)
BYNAME, BYID
GBFD111202
O&M of BTS
Interval Type 0~2047
0~2047
GBFD111202
O&M of BTS
String Type
None
1~64 characters
GBFD111202
O&M of BTS
String Type
None
1~32 characters
GBFD111202
O&M of BTS
Enumeration BYNAME(By Name), Type BYID(By Index)
BYNAME, BYID
GBFD111202
O&M of BTS
Interval Type 0~2047
0~2047
GBFD111202
O&M of BTS
String Type
None
1~4096 characters
GBFD111202
O&M of BTS
String Type
None
1~50 characters
GBFD111202
O&M of BTS
String Type
None
1~50 characters
MRFD210301
Configuration Management
Enumeration BYNAME(By Name), Type BYID(By Index)
BYNAME, BYID
None
1~64 characters
GBFD111202
O&M of BTS
Interval Type 0~2047
0~2047
GBFD111202
O&M of BTS
String Type
1~64 characters
GBFD111202
O&M of BTS
Enumeration Type NO(No), YES(Yes)
NO, YES
GBFD111202
O&M of BTS
Interval Type 0~255
0~255
GBFD111202
O&M of BTS
Interval Type 0~255
0~255
GBFD111202
O&M of BTS
Enumeration BYNAME(By Name), Type BYID(By Index)
BYNAME, BYID
GBFD111202
O&M of BTS
Interval Type 0~2047
0~2047
GBFD111202
O&M of BTS
String Type
1~64 characters
MRFD210602
Remote Electrical Tilt
Interval Type 0~35
0~35
MRFD210602
Remote Electrical Tilt
String Type
1~64 characters
None
None
None
GBFD111202
O&M of BTS
SINGLE_PORT_POWE R(Single Port Power), DOUBLE_PORTS_PO Enumeration WER(Double Ports SINGLE_PORT_POWER, Type Power) DOUBLE_PORTS_POWER
MRFD210602
Remote Electrical Tilt
Interval Type 0~62
0~62
MRFD210602
Remote Electrical Tilt
Interval Type 0~254
0~254
MRFD210602
Remote Electrical Tilt
Interval Type 0~23
0~23
MRFD210602
Remote Electrical Tilt
Interval Type 1~2
1~2
GBFD111202
O&M of BTS
Enumeration BYNAME(By Name), Type BYID(By Index)
BYNAME, BYID
GBFD111202
O&M of BTS
Interval Type 0~2047
0~2047
GBFD111202
O&M of BTS
String Type
1~64 characters
MRFD210602
Remote Electrical Tilt
Interval Type 0~35
0~35
MRFD210602
Remote Electrical Tilt
Interval Type 1~2
1~2
MRFD210602
Remote Electrical Tilt
Interval Type 0~3599
0~359.9(step: 0.1)
None
MRFD210602
Remote Electrical Tilt
String Type
GBFD111202
O&M of BTS
UNUSED(Unused), Band800(800MHz), Band850(850MHz), Band900(900MHz), Band1500(1500MHz), Band1800(1800MHz), Band1900(1900MHz), Enumeration Band2100(2100MHz), Type Band2600(2600MHz)
UNUSED, Band800, Band850, Band900, Band1500, Band1800, Band1900, Band2100, Band2600
MRFD210602
Remote Electrical Tilt
Interval Type 0~359
0~359
MRFD210602
Remote Electrical Tilt
Interval Type 0~255
0~25.5(step: 0.1)
GBFD111202
O&M of BTS
UNUSED(Unused), Band800(800MHz), Band850(850MHz), Band900(900MHz), Band1500(1500MHz), Band1800(1800MHz), Band1900(1900MHz), Enumeration Band2100(2100MHz), Type Band2600(2600MHz)
UNUSED, Band800, Band850, Band900, Band1500, Band1800, Band1900, Band2100, Band2600
MRFD210602
Remote Electrical Tilt
Interval Type 0~359
0~359
MRFD210602
Remote Electrical Tilt
Interval Type 0~255
0~25.5(step: 0.1)
GBFD111202
O&M of BTS
UNUSED(Unused), Band800(800MHz), Band850(850MHz), Band900(900MHz), Band1500(1500MHz), Band1800(1800MHz), Band1900(1900MHz), Enumeration Band2100(2100MHz), Type Band2600(2600MHz)
UNUSED, Band800, Band850, Band900, Band1500, Band1800, Band1900, Band2100, Band2600
MRFD210602
Remote Electrical Tilt
Interval Type 0~359
0~359
MRFD210602
Remote Electrical Tilt
Interval Type 0~255
0~25.5(step: 0.1)
None
1~32 characters
GBFD111202
O&M of BTS
UNUSED(Unused), Band800(800MHz), Band850(850MHz), Band900(900MHz), Band1500(1500MHz), Band1800(1800MHz), Band1900(1900MHz), Enumeration Band2100(2100MHz), Type Band2600(2600MHz)
MRFD210602
Remote Electrical Tilt
Interval Type 0~359
0~359
MRFD210602
Remote Electrical Tilt
Interval Type 0~255
0~25.5(step: 0.1)
MRFD210602
Remote Electrical Tilt
String Type
1~6 characters
MRFD210602
Remote Electrical Tilt
Interval Type -100~300
-10~30(step: 0.1)
MRFD210602
Remote Electrical Tilt
String Type
None
1~5 characters
MRFD210602
Remote Electrical Tilt
String Type
None
1~32 characters
MRFD210602
Remote Electrical Tilt
String Type
None
1~17 characters
MRFD210602
Remote Electrical Tilt
String Type
None
1~15 characters
MRFD210602
Remote Electrical Tilt
Interval Type 0~255
0~63(step: 0.25)
GBFD111202
O&M of BTS
UNSUPPORT(Unsuppo rt), SUPPORT_BYPASS(S upport Bypass), SUPPORT_VSWR(Sup port VSWR), Enumeration VSWR/BYPASS(Suppor Type t VSWR and Bypass)
UNSUPPORT, SUPPORT_BYPASS, SUPPORT_VSWR, VSWR/BYPASS
MRFD210602
Remote Electrical Tilt
Interval Type 0~65535
0~6553500 (step: 100)
None
UNUSED, Band800, Band850, Band900, Band1500, Band1800, Band1900, Band2100, Band2600
MRFD210602
Remote Electrical Tilt
Interval Type 0~65535
0~6553500 (step: 100)
MRFD210602
Remote Electrical Tilt
Interval Type 0~65535
0~6553500 (step: 100)
MRFD210602
Remote Electrical Tilt
Interval Type 0~65535
0~6553500 (step: 100)
GBFD111202
O&M of BTS
Enumeration BYNAME(By Name), Type BYID(By Index)
BYNAME, BYID
GBFD111202
O&M of BTS
Interval Type 0~2047
0~2047
GBFD111202
O&M of BTS
String Type
1~64 characters
GBFD111202
O&M of BTS
Interval Type 0~62
0~62
GBFD111202
O&M of BTS
Interval Type 0~254
0~254
GBFD111202
O&M of BTS
Interval Type 0~23
0~23
GBFD111202
O&M of BTS
Interval Type 0~5
0~5
GBFD111202
O&M of BTS
Enumeration ENABLED(Enabled), Type DISABLED(Disabled)
ENABLED, DISABLED
GBFD111202
O&M of BTS
Enumeration BYNAME(By Name), Type BYID(By Index)
BYNAME, BYID
GBFD111202
O&M of BTS
Interval Type 0~2047
0~2047
None
GBFD111202
O&M of BTS
String Type
MRFD210602
Remote Electrical Tilt
Interval Type 0~35
0~35
MRFD210602
Remote Electrical Tilt
Interval Type 1~2
1~2
MRFD210602
Remote Electrical Tilt
Interval Type 0~62
0~62
MRFD210602
Remote Electrical Tilt
Interval Type 0~254
0~254
MRFD210602
Remote Electrical Tilt
Interval Type 0~23
0~23
MRFD210602
Remote Electrical Tilt
0~1
GBFD111202 MRFD210602
O&M of BTS Remote Electrical Tilt
Interval Type 0~1 NORMAL(Normal), Enumeration BYPASS(Bypass), Type UNKNOWN(Unknown) Interval Type 0~255
0~63(step: 0.25)
GBFD111202
O&M of BTS
Enumeration BYNAME(By Name), Type BYID(By Index)
BYNAME, BYID
None
1~64 characters
NORMAL, BYPASS, UNKNOWN
GBFD111202
O&M of BTS
Interval Type 0~2047
0~2047
GBFD111202
O&M of BTS
String Type
1~64 characters
GBFD111202
O&M of BTS
Interval Type 0~62
0~62
GBFD111202
O&M of BTS
Interval Type 0~254
0~254
GBFD111202
O&M of BTS
Interval Type 0~23
0~23
None
None
Interval Type 16~23
16~23
None
None
None
Interval Type 0~62
0~62
None
None
Interval Type 0~254
0~254
None
None
Interval Type 0~23
0~23
None
None
TOPEXTOUTPORT(TO P Extended Out Port), Enumeration TOPEXTINPORT(TOP TOPEXTOUTPORT, Type Extended In Port) TOPEXTINPORT
None
None
Interval Type 0~7
0~7
TS1(Timeslot 1), TS2(Timeslot 2), TS3(Timeslot 3), TS4(Timeslot 4), TS5(Timeslot 5), TS6(Timeslot 6), TS7(Timeslot 7), TS8(Timeslot 8), TS9(Timeslot 9), TS10(Timeslot 10), TS11(Timeslot 11), TS12(Timeslot 12), TS13(Timeslot 13), TS14(Timeslot 14), TS15(Timeslot 15), TS16(Timeslot 16), TS17(Timeslot 17), TS18(Timeslot 18), TS19(Timeslot 19), TS20(Timeslot 20), TS21(Timeslot 21), TS22(Timeslot 22), TS23(Timeslot 23), TS24(Timeslot 24), TS25(Timeslot 25), TS26(Timeslot 26), TS27(Timeslot 27), TS28(Timeslot 28), TS29(Timeslot 29), TS30(Timeslot 30), TS31(Timeslot 31)
TS1, TS2, TS3, TS4, TS5, TS6, TS7, TS8, TS9, TS10, TS11, TS12, TS13, TS14, TS15, TS16, TS17, TS18, TS19, TS20, TS21, TS22, TS23, TS24, TS25, TS26, TS27, TS28, TS29, TS30, TS31
GBFD111202
O&M of BTS
Bit Field Type
MRFD210301
Configuration Management
Enumeration BYNAME(By Name), Type BYID(By Index)
BYNAME, BYID
GBFD111202
O&M of BTS
Interval Type 0~2047
0~2047
GBFD111202
O&M of BTS
String Type
1~64 characters
None
GBFD113901
Satellite Transmission over Abis Interface
TER_TRANS(Terrestrial Transmission), SAT_TRANS(Satellite Transmission), TER_AND_SAT_TRAN Enumeration S(Terrestrial and TER_TRANS, SAT_TRANS, Type Satellite) TER_AND_SAT_TRANS
GBFD111202
O&M of BTS
Enumeration BYNAME(By Name), Type BYID(By Index)
BYNAME, BYID
GBFD111202
O&M of BTS
Interval Type 0~2047
0~2047
GBFD111202
O&M of BTS
String Type
1~64 characters
GBFD111202
O&M of BTS
Interval Type 0~512
0~512
GBFD111202
O&M of BTS
Interval Type 0~23
0~23
None
GBFD111202
O&M of BTS
Interval Type 0~62
0~62
GBFD111202
O&M of BTS
Interval Type 0~254
0~254
GBFD111202
O&M of BTS
Interval Type 0~23
0~23
TS1(Time_slot_1), TS2(Time_slot_2), TS3(Time_slot_3), TS4(Time_slot_4), TS5(Time_slot_5), TS6(Time_slot_6), TS7(Time_slot_7), TS8(Time_slot_8), TS9(Time_slot_9), TS10(Time_slot_10), TS11(Time_slot_11), TS12(Time_slot_12), TS13(Time_slot_13), TS14(Time_slot_14), TS15(Time_slot_15), TS16(Time_slot_16), TS17(Time_slot_17), TS18(Time_slot_18), TS19(Time_slot_19), TS20(Time_slot_20), TS21(Time_slot_21), TS22(Time_slot_22), TS23(Time_slot_23), TS24(Time_slot_24), TS25(Time_slot_25), TS26(Time_slot_26), TS27(Time_slot_27), TS28(Time_slot_28), TS29(Time_slot_29), TS30(Time_slot_30), TS31(Time_slot_31)
TS1, TS2, TS3, TS4, TS5, TS6, TS7, TS8, TS9, TS10, TS11, TS12, TS13, TS14, TS15, TS16, TS17, TS18, TS19, TS20, TS21, TS22, TS23, TS24, TS25, TS26, TS27, TS28, TS29, TS30, TS31
GBFD111202
O&M of BTS
Bit Field Type
GBFD111202
O&M of BTS
Interval Type 0~23
0~23
GBFD111202
O&M of BTS
Interval Type 0~62
0~62
GBFD111202
O&M of BTS
Interval Type 0~254
0~254
GBFD111202
O&M of BTS
Interval Type 0~23
0~23
TS1(Time_slot_1), TS2(Time_slot_2), TS3(Time_slot_3), TS4(Time_slot_4), TS5(Time_slot_5), TS6(Time_slot_6), TS7(Time_slot_7), TS8(Time_slot_8), TS9(Time_slot_9), TS10(Time_slot_10), TS11(Time_slot_11), TS12(Time_slot_12), TS13(Time_slot_13), TS14(Time_slot_14), TS15(Time_slot_15), TS16(Time_slot_16), TS17(Time_slot_17), TS18(Time_slot_18), TS19(Time_slot_19), TS20(Time_slot_20), TS21(Time_slot_21), TS22(Time_slot_22), TS23(Time_slot_23), TS24(Time_slot_24), TS25(Time_slot_25), TS26(Time_slot_26), TS27(Time_slot_27), TS28(Time_slot_28), TS29(Time_slot_29), TS30(Time_slot_30), TS31(Time_slot_31)
TS1, TS2, TS3, TS4, TS5, TS6, TS7, TS8, TS9, TS10, TS11, TS12, TS13, TS14, TS15, TS16, TS17, TS18, TS19, TS20, TS21, TS22, TS23, TS24, TS25, TS26, TS27, TS28, TS29, TS30, TS31
GBFD111202
O&M of BTS
Bit Field Type
GBFD111202
O&M of BTS
Enumeration BYNAME(By Name), Type BYID(By Index)
BYNAME, BYID
GBFD111202
O&M of BTS
Interval Type 0~2047
0~2047
GBFD111202
O&M of BTS
String Type
GBFD118401
Abis Transmission Optimization
Interval Type 1~250
1~250
GBFD111202
O&M of BTS
Enumeration BYNAME(By Name), Type BYID(By Index)
BYNAME, BYID
GBFD111202
O&M of BTS
Interval Type 0~2047
0~2047
GBFD111202
O&M of BTS
String Type
1~64 characters
None
None
1~64 characters
GBFD111202
O&M of BTS
TRX(TRX_DEFAULT), TRX_GPRS(TRX_GPR S), DRU(TRX_30), PTRX(PTRX), ETRX(ETRX), RTRX(RTRX), DTRX(DTRX), RETR(RETR), DETR(DETR), EETR(EETR), PETR(PETR), MTR(MTR), Enumeration TRU(TRU/DTRU), Type QTRU(QTRU)
GBFD111202
O&M of BTS
Interval Type 0~254
0~254
GBFD111202
O&M of BTS
Interval Type 0~23
0~23
GBFD111202
O&M of BTS
TRX(TRX_DEFAULT), TRX_GPRS(TRX_GPR S), PTRX(PTRX), ETRX(ETRX), RTRX(RTRX), DTRX(DTRX), RETR(RETR), DETR(DETR), EETR(EETR), TRX, TRX_GPRS, PTRX, ETRX, Enumeration PETR(PETR), RTRX, DTRX, RETR, DETR, Type MTR(MTR) EETR, PETR, MTR
GBFD111202
O&M of BTS
Enumeration BYNAME(By Name), Type BYID(By Index)
BYNAME, BYID
GBFD111202
O&M of BTS
Interval Type 0~2047
0~2047
TRX, TRX_GPRS, DRU, PTRX, ETRX, RTRX, DTRX, RETR, DETR, EETR, PETR, MTR, TRU, QTRU
GBFD111202
O&M of BTS
String Type
GBFD111202
O&M of BTS
Interval Type 0~62
0~62
GBFD111202
O&M of BTS
Interval Type 0~254
0~254
GBFD111202
O&M of BTS
Interval Type 0~23
0~23
GBFD111202
O&M of BTS
Enumeration Type NO(NO), YES(YES)
NO, YES
GBFD510401 MRFD210501
BTS GPS GPS(GPS), Synchronization GLONASS(Glonass), BTS/NodeB Enumeration GPSGlonass(GPSGlon Clock Type ass) GPS, GLONASS, GPSGlonass
GBFD510401 MRFD210501
BTS GPS Synchronization BTS/NodeB Clock Interval Type 0~1000
GBFD510401 MRFD210501
BTS GPS Synchronization SENDPOWER(Send BTS/NodeB Enumeration Power), NOPOWER(No Clock Type Power) SENDPOWER, NOPOWER
MRFD210301
Configuration Management
None
Enumeration BYNAME(By Name), Type BYID(By Index)
1~64 characters
0~1000
BYNAME, BYID
GBFD111202
O&M of BTS
Interval Type 0~2047
0~2047
GBFD111202
O&M of BTS
String Type
1~64 characters
GBFD118601
Abis over IP
OML(OML), RSL(RSL), EML(EML), ESL(ESL), CSVOICE(CS Voice), CSDATA(CS Data), PSHIGHPRI(PS High PRI), PSLOWPRI(PS Low PRI), OML, RSL, EML, ESL, CSVOICE, Enumeration OTHERDATA(Other CSDATA, PSHIGHPRI, Type Data) PSLOWPRI, OTHERDATA
GBFD118605
IP QOS
Interval Type 0~63
0~63
GBFD118601
Abis over IP
Enumeration Type NO(NO), YES(Yes)
NO, YES
GBFD118630 MRFD210301
Ethernet OAM Configuration Management
Interval Type 1~4094
1~4094
GBFD118601
Abis over IP
Interval Type 0~7
0~7
GBFD111202
O&M of BTS
Enumeration DISABLE(Disable), Type ENABLE(Enable)
DISABLE, ENABLE
None
GBFD118605
IP QOS
Interval Type 0~63
0~63
GBFD118601
Abis over IP
Interval Type 2~4094
2~4094
GBFD111202
O&M of BTS
Enumeration BYNAME(By Name), Type BYID(By Index)
BYNAME, BYID
GBFD111202
O&M of BTS
Interval Type 0~2047
0~2047
GBFD111202
O&M of BTS
String Type
1~64 characters
GBFD118630 MRFD210301
Ethernet OAM Configuration Management
Interval Type 0~3
GBFD118601
Abis over IP
USERDATA(USERDAT A), TCP(TCP), SCTP(SCTP), Enumeration OTHERDATA(OTHERD USERDATA, TCP, SCTP, Type ATA) OTHERDATA
GBFD118605
IP QOS
Interval Type 0~63
None
0~3
0~63
GBFD118630 MRFD210301
Ethernet OAM Configuration Management
Interval Type 1~4094
1~4094
GBFD118601
Abis over IP
Interval Type 0~7
0~7
GBFD111202
O&M of BTS
Enumeration DISABLE(Disable), Type ENABLE(Enable)
DISABLE, ENABLE
GBFD111202
O&M of BTS
Enumeration BYNAME(By Name), Type BYID(By Index)
BYNAME, BYID
GBFD111202
O&M of BTS
Interval Type 0~2047
0~2047
GBFD111202
O&M of BTS
String Type
None
1~64 characters
GBFD118601
Abis over IP
IP Address Type
None
0.0.0.0~255.255.255.255
GBFD118601
Abis over IP
SINGLEVLAN(SINGLE VLAN), Enumeration VLANCLASS(VLANCLA Type SSN) SINGLEVLAN, VLANCLASS
GBFD118630 MRFD210301
Ethernet OAM Configuration Management
Interval Type 1~4094
1~4094
GBFD118601
Abis over IP
Interval Type 0~7
0~7
GBFD118630 MRFD210301
Ethernet OAM Configuration Management
Interval Type 0~3
0~3
GBFD111202
O&M of BTS
Enumeration DISABLE(Disable), Type ENABLE(Enable)
DISABLE, ENABLE
GBFD111202
O&M of BTS
Enumeration BYNAME(By Name), Type BYID(By Index)
BYNAME, BYID
GBFD111202
O&M of BTS
Interval Type 0~2047
0~2047
GBFD111202
O&M of BTS
String Type
1~64 characters
GBFD111202
O&M of BTS
Enumeration Type NO(NO), YES(YES)
NO, YES
MRFD210301
Configuration Management
Interval Type 1~3
1~3
MRFD210301
Configuration Management
Enumeration Type NO(NO), YES(YES)
NO, YES
GBFD111203 MRFD210305
O&M of BSC Security Management
String Type
0~128 characters
None
None
GBFD111203 MRFD210305
O&M of BSC Security Management
String Type
None
1~32 characters
MRFD210301
Configuration Management
Enumeration BYNAME(By Name), Type BYID(By Index)
BYNAME, BYID
MRFD210301
Configuration Management
Interval Type 0~2047
0~2047
MRFD210301
Configuration Management
String Type
1~64 characters
GBFD111202
O&M of BTS
Interval Type 0~2047
0~2047
GBFD111202
O&M of BTS
String Type
None
1~64 characters
MRFD210305
Security Management
String Type
None
0~200 characters
MRFD210305
Security Management
String Type
None
0~200 characters
MRFD210305
Security Management
String Type
None
0~200 characters
MRFD210305
Security Management
Enumeration DISABLE(Disabled), Type ENABLE(Enabled)
None
DISABLE, ENABLE
MRFD210305
Security Management
Password Type
MRFD210305
Security Management
Enumeration DISABLE(Disable), Type ENABLE(Enable)
DISABLE, ENABLE
MRFD210305
Security Management
String Type
0~200 characters
MRFD210305
Security Management
Enumeration DISABLE(Disabled), Type ENABLE(Enabled)
DISABLE, ENABLE
MRFD210305
Security Management
String Type
0~200 characters
MRFD210301
Configuration Management
Interval Type 0~11
0~11
MRFD210301
Configuration Management
Interval Type 0~11
0~11
MRFD210301
Configuration Management
Interval Type 0~11
0~11
None
None
Interval Type 0~5, 8~27
0~5, 8~27
GBFD118630
Ethernet OAM
Interval Type 0~7
0~7
GBFD118630
Ethernet OAM
Interval Type 2~4094
2~4094
None
None
None
0~64 characters
GBFD118630
Ethernet OAM
Interval Type 0~499
0~499
GBFD118630
Ethernet OAM
String Type
1~20 characters
GBFD118630
Ethernet OAM
Enumeration Type 10, 100, 1000
10, 100, 1000
MRFD210301
Configuration Management
Interval Type 0~11
0~11
None
None
Interval Type 0~5, 8~27
0~5, 8~27
GBFD118630
Ethernet OAM
Interval Type 0~7
0~7
GBFD118630
Ethernet OAM
Interval Type 0~7
0~7
GBFD118630
Ethernet OAM
String Type
1~20 characters
MRFD210301
Configuration Management
Interval Type 0~11
0~11
GBFD118630
Ethernet OAM
Interval Type 0~499
0~499
None
None
GBFD118630
Ethernet OAM
LocalMep(LocalMep), Enumeration RemoteMep(RemoteMe LocalMep, Type p) RemoteMep
GBFD118630
Ethernet OAM
Interval Type 1~1000
1~1000
GBFD118630
Ethernet OAM
Enumeration Type ETHER, TRUNK
ETHER, TRUNK
None
None
Interval Type 0~5, 8~27
0~5, 8~27
None
None
Interval Type 0~11
0~7(FG2a), 0~1(GOUa), 0~11(FG2c), 0~3(GOUc)
GBFD118630
Ethernet OAM
Interval Type 0~11
0~11
MRFD210502
Enumeration BSC/RNC Clock Type MPS, EPS, TCS
MPS, EPS, TCS
MRFD210301
Configuration Management
Interval Type 1~11
1~11
MRFD210301
Configuration Management
Interval Type 0~27
0~27
MRFD210502
Enumeration PEUa, EIUa, OIUa, BSC/RNC Clock Type POUc
PEUa, EIUa, OIUa, POUc
MRFD210502
BSC/RNC Clock Interval Type 0~31
0~31
MRFD210502
Enumeration BSC/RNC Clock Type NO(NO), YES(YES)
NO, YES
MRFD210502
BSC/RNC Clock Interval Type 0~31
0~31
MRFD210502
BSC/RNC Clock Interval Type 0~31
0~31
MRFD210502
Enumeration BSC/RNC Clock Type NO(NO), YES(YES)
NO, YES
MRFD210502
BSC/RNC Clock Interval Type 0~31
0~31
MRFD210502
Enumeration BSC/RNC Clock Type NO(NO), YES(YES)
NO, YES
MRFD210502
Enumeration BSC/RNC Clock Type OFF(OFF), ON(ON)
OFF, ON
MRFD210502
Enumeration BSC/RNC Clock Type OFF(OFF), ON(ON)
OFF, ON
MRFD210502
Enumeration BSC/RNC Clock Type OFF(OFF), ON(ON)
OFF, ON
MRFD210502
Enumeration BSC/RNC Clock Type OFF(OFF), ON(ON)
OFF, ON
MRFD210502
MANUAL(Manual Handover), AUTO(Auto Enumeration Handover), FREE(FreeBSC/RNC Clock Type run) MANUAL, AUTO, FREE
MRFD210502
BSC/RNC Clock Interval Type 1~4
1~4
MRFD210502
BSC/RNC Clock Interval Type 1~4
1~4
MRFD210502
BITS1-2MHZ(2MHZ Building Integrated Timing Supply system 1), BITS2-2MHZ(2MHZ Building Integrated Timing Supply system 2), BITS12MBPS(2MBPS Building Integrated Timing Supply system 1), BITS22MBPS(2MBPS Building Integrated Timing Supply system 2), 8KHZ(8KHZ), GPS(Globe Positioning System), LINE1_8KHZ(8KHZ line1), LINE2_8KHZ(8KHZ line2), BITS11.5MBPS(1.5MBPS Building Integrated Timing Supply system 1), BITS21.5MBPS(1.5MBPS Building Integrated Enumeration Timing Supply system BSC/RNC Clock Type 2)
BITS1-2MHZ, BITS2-2MHZ, BITS1-2MBPS, BITS2-2MBPS, GPS, 8KHZ, LINE1_8KHZ, LINE2_8KHZ, BITS1-1.5MBPS, BITS2-1.5MBPS
MRFD210502
Enumeration BSC/RNC Clock Type GCUa, GCGa
GCUa, GCGa
MRFD210301
Configuration Management
Enumeration Type ON(ON), OFF(OFF)
ON, OFF
GBFD111203 MRFD210305
O&M of BSC Security Management
ALL(ALL Type), Enumeration ONLY_SSL(Only SSL Type Connection)
ALL, ONLY_SSL
MRFD210301
Configuration Management
Interval Type 0~11
0~11
None
None
Interval Type 0~5, 8~27
0~5, 8~27
None
None
Enumeration Type POUc, OIUa
POUc, OIUa
None
ALL(Select all E1/T1 ports), PORT(Select all E1/T1 ports of one channelized optical Enumeration port), SINGLE(Select Type one E1/T1 port) ALL, PORT, SINGLE
None
None
None
Interval Type 0~3
0~3
None
None
Interval Type 0~83
0~83
None
None
Enumeration Type OFF(OFF), ON(ON)
OFF, ON
None
Enumeration NULL, 1BYTE, 16BYTE, Type 64BYTE NULL, 1BYTE, 16BYTE, 64BYTE
None
None
Hexadecimal(Hex decimal), Enumeration Character_String(Chara Type cter String) Hexadecimal, Character_String
None
None
String Type
None
0~64 characters
None
None
String Type
None
0~64 characters
None
None
None
Enumeration ZERO(zero), Type SPACE(space)
MRFD210301
Configuration Management
Enumeration SCU, GCU, MPU, GCP, SCU, GCU, MPU, GCP, DPU, Type DPU, INT, TNU INT, TNU
MRFD210304
Faulty Management
Interval Type 20~99
20~99
MRFD210304
Faulty Management
Interval Type 30~100
30~100
MRFD210304
Faulty Management
Interval Type 20~99
20~99
MRFD210304
Faulty Management
Interval Type 30~100
30~100
MRFD210304
Faulty Management
Interval Type 20~99
20~99
MRFD210304
Faulty Management
Interval Type 30~100
30~100
GBFD118601
Abis over IP
Interval Type 0~15
0~15
ZERO, SPACE
GBFD118601
Abis over IP
Interval Type 0~15
0~15
GBFD118601
Abis over IP
Interval Type 0~15
0~15
GBFD118601
Abis over IP
Interval Type 0~15
0~15
GBFD118601
Abis over IP
Interval Type 0~15
0~15
GBFD118601
Abis over IP
Interval Type 0~15
0~15
GBFD118601
Abis over IP
Interval Type 0~15
0~15
GBFD118601
Abis over IP
Interval Type 0~15
0~15
GBFD118601
Abis over IP
Interval Type 0~15
0~15
GBFD118601
Abis over IP
Interval Type 0~15
0~15
GBFD118601
Abis over IP
Interval Type 0~15
0~15
MRFD210301
Configuration Management
String Type
1~128 characters
MRFD210301
Configuration Management
Interval Type 0~11
None
0~11
None
None
Interval Type 0~5, 8~27
0~5, 8~27
None
None
Enumeration LOGIC_IP(Logical IP Type Address)
LOGIC_IP
GBFD118611 GBFD118622 MRFD211502
Abis IP over E1/T1 A IP over E1/T1 IP-Based GSM and UMTS CoTransmission on IP Address MBSC Side Type
GBFD111202
O&M of BTS
Interval Type 0~63
0~63
GBFD111202
O&M of BTS
IP Address Type
0.0.0.0~255.255.255.255
MRFD210301
Configuration Management
Interval Type 0~11
0~11
MRFD210301
Configuration Management
Interval Type 0~27
0~27
MRFD210301
Configuration Management
Enumeration Type DPUa, DPUc
DPUa, DPUc
None
None
Interval Type 0~63
0~63
None
None
0.0.0.0~255.255.255.255
None
None
Interval Type 0~7
0~7
MRFD210301
Configuration Management
Interval Type 0~11
0~11
MRFD210301
Configuration Management
Interval Type 0~27
0~27
GBFD110001
GBSS12.0 System Improvement
Interval Type 0~12
0~12
GBFD111203
O&M of BSC
Interval Type 0~2047
0~2047
GBFD111203
O&M of BSC
Interval Type 1~16
1~16
GBFD111203
O&M of BSC
Interval Type 0~2047
0~2047
GBFD111203
O&M of BSC
Interval Type 0~15
0~15
GBFD111202
O&M of BTS
Interval Type 0~11
0~11
GBFD111202
O&M of BTS
Interval Type 0~27
0~27
MRFD210206
Tree Topology
Interval Type 0~335
0~335
GBFD111203
O&M of BSC
Interval Type 0~2047
0~2047
GBFD111203
O&M of BSC
Interval Type 0~15
0~15
GBFD111203
O&M of BSC
Interval Type 0~31
0~31
GBFD111203
O&M of BSC
Interval Type 0~15
0~15
GBFD111203
O&M of BSC
Interval Type 0~31
0~31
MRFD210301
Configuration Management
Interval Type 0~11
0~11
None
None
Interval Type 0~5, 8~27
0~5, 8~27
None
None
Enumeration PEUa, POUc, EIUa, Type OIUa
PEUa, POUc, EIUa, OIUa
None
ALL(Select all ports), Enumeration SINGLE(Select one Type port)
ALL, SINGLE
None
None
None
Interval Type 0~335
0~31(PEUa/EIUa), 0~62(E1 of OIUa), 0~83(T1 of OIUa), 0~251(E1 of POUc), 0~335(T1 of POUc)
None
None
Enumeration Type NO(NO), YES(YES)
NO, YES
None
None
None
None
E1_UNBA(E1 Unbalance), E1_BA(E1 Enumeration Balance), T1(T1), Type E1(E1) E1_UNBA, E1_BA, T1, E1
None
E1_DOUBLE_FRAME( E1_DOUBLE_FRAME), E1_CRC4_MULTI_FRA ME(E1_CRC4_MULTI_ FRAME), T1_SUPER_FRAME(T1 _SUPER_FRAME), T1_EXTENDED_SUPE Enumeration R_FRAME(T1_EXTEN Type DED_SUPER_FRAME)
E1_DOUBLE_FRAME, E1_CRC4_MULTI_FRAME, T1_SUPER_FRAME, T1_EXTENDED_SUPER_FRAM E
None
E1_DOUBLE_FRAME( E1_DOUBLE_FRAME), E1_CRC4_MULTI_FRA ME(E1_CRC4_MULTI_ FRAME), T1_SUPER_FRAME(T1 _SUPER_FRAME), T1_EXTENDED_SUPE Enumeration R_FRAME(T1_EXTEN Type DED_SUPER_FRAME)
E1_DOUBLE_FRAME, E1_CRC4_MULTI_FRAME, T1_SUPER_FRAME, T1_EXTENDED_SUPER_FRAM E
None
None
None
E1_DOUBLE_FRAME( E1_DOUBLE_FRAME), E1_CRC4_MULTI_FRA ME(E1_CRC4_MULTI_ FRAME), T1_SUPER_FRAME(T1 _SUPER_FRAME), T1_EXTENDED_SUPE Enumeration R_FRAME(T1_EXTEN Type DED_SUPER_FRAME)
E1_DOUBLE_FRAME, E1_CRC4_MULTI_FRAME, T1_SUPER_FRAME, T1_EXTENDED_SUPER_FRAM E
None
B8ZS(B8ZS), HDB3(HDB3), Enumeration AMI(AMI), Type AMI_ZCS(AMI_ZCS)
B8ZS, HDB3, AMI, AMI_ZCS
None
None
Enumeration Type OFF(OFF), ON(ON)
None
None
String Type
MRFD210301
Configuration Management
Interval Type 0~11
0~11
None
None
Interval Type 0~5, 8~27
0~5, 8~27
None
OFF, ON
0~32 characters
None
None
None
Enumeration PEUa, POUc, EIUa, Type OIUa
PEUa, POUc, EIUa, OIUa
None
Interval Type 0~335
0~31(PEUa/EIUa), 0~62(E1 of OIUa), 0~83(T1 of OIUa), 0~251(E1 of POUc), 0~335(T1 of POUc)
None
NO_LOOP(No loop), REMOTE_LOOP(Remo te loop), LINE_REM_LOOP(Line remote loop), LOCAL_LOOP(Local loop), PAYLOAD_LOOP(paylo ad loop), SIN_CHN_LOC(single channel local loop), Enumeration SIN_CHN_REM(single Type channel remote loop)
NO_LOOP, REMOTE_LOOP, LINE_REMOTE_LOOP, LOCAL_LOOP, PAYLOAD_LOOP, SIN_CHN_LOC, CIN_CHN_REM
None
None
None
TS1(Time_slot_1), TS2(Time_slot_2), TS3(Time_slot_3), TS4(Time_slot_4), TS5(Time_slot_5), TS6(Time_slot_6), TS7(Time_slot_7), TS8(Time_slot_8), TS9(Time_slot_9), TS10(Time_slot_10), TS11(Time_slot_11), TS12(Time_slot_12), TS13(Time_slot_13), TS14(Time_slot_14), TS15(Time_slot_15), TS16(Time_slot_16), TS17(Time_slot_17), TS18(Time_slot_18), TS19(Time_slot_19), TS20(Time_slot_20), TS21(Time_slot_21), TS22(Time_slot_22), TS23(Time_slot_23), TS24(Time_slot_24), TS25(Time_slot_25), TS26(Time_slot_26), TS27(Time_slot_27), TS28(Time_slot_28), TS29(Time_slot_29), Enumeration TS30(Time_slot_30), Type TS31(Time_slot_31)
TS1, TS2, TS3, TS4, TS5, TS6, TS7, TS8, TS9, TS10, TS11, TS12, TS13, TS14, TS15, TS16, TS17, TS18, TS19, TS20, TS21, TS22, TS23, TS24, TS25, TS26, TS27, TS28, TS29, TS30, TS31
TS1(Time_slot_1), TS2(Time_slot_2), TS3(Time_slot_3), TS4(Time_slot_4), TS5(Time_slot_5), TS6(Time_slot_6), TS7(Time_slot_7), TS8(Time_slot_8), TS9(Time_slot_9), TS10(Time_slot_10), TS11(Time_slot_11), TS12(Time_slot_12), TS13(Time_slot_13), TS14(Time_slot_14), TS15(Time_slot_15), TS16(Time_slot_16), TS17(Time_slot_17), TS18(Time_slot_18), TS19(Time_slot_19), TS20(Time_slot_20), TS21(Time_slot_21), TS22(Time_slot_22), TS23(Time_slot_23), TS24(Time_slot_24), TS25(Time_slot_25), TS26(Time_slot_26), TS27(Time_slot_27), TS28(Time_slot_28), TS29(Time_slot_29), TS30(Time_slot_30), TS31(Time_slot_31)
TS1, TS2, TS3, TS4, TS5, TS6, TS7, TS8, TS9, TS10, TS11, TS12, TS13, TS14, TS15, TS16, TS17, TS18, TS19, TS20, TS21, TS22, TS23, TS24, TS25, TS26, TS27, TS28, TS29, TS30, TS31
None
None
Bit Field Type
None
None
Interval Type 0~255
0~255
None
None
Interval Type 1~65535
1~65535
None
None
IP Address Type
None
0.0.0.0~255.255.255.255
None
None
IP Address Type
None
0.0.0.0~255.255.255.255
O&M of BTS
IP Address Type
None
0.0.0.0~255.255.255.255
GBFD111202
GBFD111202
O&M of BTS
IP Address Type
MRFD210301
Configuration Management
Interval Type 0~11
0~11
MRFD210304
Faulty Management
Enumeration CLOSE(Close), Type OPEN(Open)
CLOSE, OPEN
MRFD210304
Faulty Management
Enumeration CLOSE(Close), Type OPEN(Open)
CLOSE, OPEN
MRFD210304
Faulty Management
Enumeration CLOSE(Close), Type OPEN(Open)
CLOSE, OPEN
MRFD210304
Faulty Management
Enumeration CLOSE(Close), Type OPEN(Open)
CLOSE, OPEN
MRFD210304
Faulty Management
Enumeration CLOSE(Close), Type OPEN(Open)
CLOSE, OPEN
MRFD210304
Faulty Management
Enumeration CLOSE(Close), Type OPEN(Open)
CLOSE, OPEN
MRFD210304
Faulty Management
Enumeration CLOSE(Close), Type OPEN(Open)
CLOSE, OPEN
MRFD210304
Faulty Management
Enumeration CLOSE(Close), Type OPEN(Open)
CLOSE, OPEN
MRFD210304
Faulty Management
Enumeration VOLTAGE(Voltage), Type CURRENT(Current)
VOLTAGE, CURRENT
MRFD210304
Faulty Management
Enumeration VOLTAGE(Voltage), Type CURRENT(Current)
VOLTAGE, CURRENT
MRFD210304
Faulty Management
Enumeration VOLTAGE(Voltage), Type CURRENT(Current)
VOLTAGE, CURRENT
MRFD210304
Faulty Management
Enumeration VOLTAGE(Voltage), Type CURRENT(Current)
VOLTAGE, CURRENT
MRFD210304
Faulty Management
String Type
None
1~9 characters
MRFD210304
Faulty Management
String Type
None
1~9 characters
None
0.0.0.0~255.255.255.255
MRFD210304
Faulty Management
String Type
None
1~9 characters
MRFD210304
Faulty Management
String Type
None
1~9 characters
MRFD210304
Faulty Management
String Type
None
1~9 characters
MRFD210304
Faulty Management
String Type
None
1~9 characters
MRFD210304
Faulty Management
String Type
None
1~9 characters
MRFD210304
Faulty Management
String Type
None
1~9 characters
MRFD210304
Faulty Management
String Type
None
1~9 characters
MRFD210304
Faulty Management
String Type
None
1~9 characters
MRFD210304
Faulty Management
String Type
None
1~9 characters
MRFD210304
Faulty Management
String Type
None
1~9 characters
MRFD210304
Faulty Management
String Type
None
1~9 characters
MRFD210304
Faulty Management
String Type
None
1~9 characters
MRFD210304
Faulty Management
String Type
None
1~9 characters
MRFD210304
Faulty Management
String Type
None
1~9 characters
MRFD210304
Faulty Management
String Type
None
1~9 characters
MRFD210304
Faulty Management
String Type
None
1~9 characters
MRFD210304
Faulty Management
String Type
None
1~9 characters
MRFD210304
Faulty Management
String Type
None
1~9 characters
MRFD210304
Faulty Management
String Type
None
1~9 characters
MRFD210304
Faulty Management
String Type
None
1~9 characters
MRFD210304
Faulty Management
String Type
None
1~9 characters
MRFD210304
Faulty Management
String Type
MRFD210304
Faulty Management
Enumeration CLOSE(Close), Type OPEN(Open)
CLOSE, OPEN
MRFD210304
Faulty Management
Enumeration CLOSE(Close), Type OPEN(Open)
CLOSE, OPEN
MRFD210304
Faulty Management
Enumeration CLOSE(Close), Type OPEN(Open)
CLOSE, OPEN
MRFD210304
Faulty Management
Enumeration CLOSE(Close), Type OPEN(Open)
CLOSE, OPEN
MRFD210304
Faulty Management
Enumeration CLOSE(Close), Type OPEN(Open)
CLOSE, OPEN
MRFD210304
Faulty Management
Enumeration CLOSE(Close), Type OPEN(Open)
CLOSE, OPEN
MRFD210304
Faulty Management
String Type
1~100 characters
Faulty Management
Critical(Critical), Major(Major), Enumeration Minor(Minor), Type Warning(Warning)
MRFD210304
None
None
1~9 characters
Critical, Major, Minor, Warning
MRFD210304
Faulty Management
power(Power System), env(Environment System), sig(Signaling System), trunk(Trunk System), hardware(Hardware System), software(Software System), run(Running System), comm(Communication System), service(QoS), handle(Processing Error), integrity(Integrity), ope(Operational), physical(Physical), Enumeration sec(Security), Type time(Time domain)
MRFD210301
Configuration Management
Interval Type 0~11
0~11
None
None
Interval Type 0~5, 8~27
0~5, 8~27
power, env, sig, trunk, hardware, software, run, comm, service, handle, integrity, ope, physical, sec, time
None
None
Interval Type 0~11
0~7(FG2a), 0~1(GOUa), 0~11(FG2c), 0~3(GOUc)
None
None
Interval Type 0~5
0~5
MRFD211502
IP-Based GSM and UMTS CoTransmission on IP Address MBSC Side Type
None
0.0.0.0~255.255.255.255
None
None
IP Address Type
None
0.0.0.0~255.255.255.255
None
None
IP Address Type
MRFD210301
Configuration Management
Interval Type 0~11
0~11
None
None
Interval Type 0~5, 8~27
0~5, 8~27
None
None
Enumeration FG2a, GOUa, FG2c, Type GOUc
FG2a, GOUa, FG2c, GOUc
None
None
Enumeration Type FE, GE
FE, GE
None
None
Interval Type 0~11
0~7(FG2a), 0~1(GOUa), 0~11(FG2c), 0~3(GOUc)
GBFD118609
IP Fault Detection Based Enumeration on BFD Type ENABLE, DISABLE
None
0.0.0.0~255.255.255.255
ENABLE, DISABLE
Enumeration 1000M(1000M), Type AUTO(AUTO)
None
None
GBFD118611 GBFD118622
Abis IP over E1/T1 A IP over E1/T1 Interval Type 256~1650
None
None
GBFD118611 GBFD118622
Abis IP over E1/T1 A IP over E1/T1 Interval Type 0~100
None
None
GBFD118611 GBFD118622
Abis IP over E1/T1 A IP over E1/T1 Interval Type 0~1999
Enumeration Type OFF(OFF), ON(ON)
Enumeration Type OFF(OFF), ON(ON)
1000M, AUTO
256~1650
OFF, ON
0~100
OFF, ON
0~1999
None
Enumeration Type OFF(OFF), ON(ON)
None
None
O1E3_R5E4(OCCUR:1 E-3, RECOVERY:5E-4), O5E4_R1E4(OCCUR:5 E-4, RECOVERY:1E-4), O1E4_R5E5(OCCUR:1 E-4, RECOVERY:5E-5), O5E5_R1E5(OCCUR:5 E-5, RECOVERY:1E-5), O1E5_R5E6(OCCUR:1 E-5, RECOVERY:5E-6), O1E3_R5E4, O5E4_R1E4, Enumeration O5E6_R1E6(OCCUR:5 O1E4_R5E5, O5E5_R1E5, Type E-6, RECOVERY:1E-6) O1E5_R5E6, O5E6_R1E6
None
None
Interval Type 200~2000
200~2000
None
None
Interval Type 200~2000
200~2000
None
OFF, ON
None
None
Enumeration V7(Draft V7), Type V8(Standard Version)
V7, V8
MRFD210301
Configuration Management
Interval Type 0~11
0~11
None
None
0, 2, 4, 8, 10, 12, 14, 16, 0, 2, 4, 8, 10, 12, 14, 16, 18, 20, Interval Type 18, 20, 22, 24, 26 22, 24, 26
None
None
Interval Type 0~11
0~7(FG2a), 0~1(GOUa), 0~11(FG2c), 0~3(GOUc)
None
None
Interval Type 0~11
0~11
None
None
Interval Type 0~5, 8~27
0~5, 8~27
MRFD210103
Link aggregation Interval Type 0~11
MRFD210103
STATIC_LACP, Enumeration MANUAL_AGGREGATI STATIC_LACP, Link aggregation Type ON MANUAL_AGGREGATION
0~7(FG2a), 0~1(GOUa), 0~11(FG2c), 0~3(GOUc)
GBFD111202 MRFD210103
O&M of BTS Link aggregation Interval Type 0~100
0~100
MRFD210103
Enumeration Link aggregation Type OFF(OFF), ON(ON)
OFF, ON
MRFD210103
Link aggregation Interval Type 0~1999
0~1999
None
None
Enumeration V7(Draft V7), Type V8(Standard Version)
V7, V8
None
None
Interval Type 0~11
0~11
None
None
Interval Type 0~5, 8~27
0~5, 8~27
MRFD210103
Link aggregation Interval Type 0~11
0~7(FG2a), 0~1(GOUa), 0~11(FG2c), 0~3(GOUc)
MRFD210103
Link aggregation Interval Type 0~5
0~5
MRFD210103
IP Address Link aggregation Type
0.0.0.0~255.255.255.255
None
GBFD118609 MRFD210103
IP Fault Detection Based on BFD IP Address Link aggregation Type
None
None
Interval Type 0~11
0~11
None
None
Interval Type 0~5, 8~27
0~5, 8~27
MRFD210103
Link aggregation Interval Type 0~11
0~7(FG2a), 0~1(GOUa), 0~11(FG2c), 0~3(GOUc)
MRFD210103
Link aggregation Interval Type 0~5, 8~27
0~5, 8~27
MRFD210103
Link aggregation Interval Type 0~11
0~7(FG2a), 0~1(GOUa), 0~11(FG2c), 0~3(GOUc)
MRFD210301
Configuration Management
0~15
GBFD118621
Connection Inter BSC over IP String Type
GBFD118602
A over IP
Interval Type 1~16777215
1~16777215
MRFD210301
Configuration Management
Enumeration BYNAME(By Name), Type BYID(By Index)
BYNAME, BYID
GBFD111202
O&M of BTS
Enumeration BYIDX(By Index), Type BYNAME(By Name)
BYIDX, BYNAME
MRFD210301
Configuration Management
Interval Type 0~2047
0~2047
None
Interval Type 0~15
None
0.0.0.0~255.255.255.255
1~64 characters
MRFD210301 GBFD111804
Configuration Management A Interface Protocol Process
MRFD210301 MRFD210301
String Type
None
1~64 characters
Interval Type 1~16777215
1~16777215
Configuration Management
Interval Type 2048~12287
2048~12287
Configuration Management
String Type
1~64 characters
MRFD210301
Configuration Management
NORMAL_FAN(Normal Fan), Enumeration IND_FAN(Independent Type Fan) NORMAL_FAN, IND_FAN
MRFD210301
Configuration Management
Interval Type 0~11
MRFD210301
Configuration Management
HW_AUTO_TEMPERA TURE_CONTROL(Auto Temperature Control), SPECIFY_RATE(Specif y Rate), HW_AUTO_TEMPERATURE_C Enumeration SOFTWARE_CONTRO ONTROL, SPECIFY_RATE, Type L(Software Control) SOFTWARE_CONTROL
MRFD210301
Configuration Management
Interval Type 55~100
MRFD210301
Configuration Management
Enumeration SCU, GCU, XPU, DPU, Type INT, TNU SCU, GCU, XPU, DPU, INT, TNU
GBFD111705
GSM Flow Control
Interval Type 2~2000
2~2000
GBFD111705
GSM Flow Control
Interval Type 1~1000
1~1000
GBFD111705
GSM Flow Control
Interval Type 30~100
30~100
GBFD111705
GSM Flow Control
Interval Type 30~100
30~100
None
0~11
55~100
GBFD111705
GSM Flow Control
Interval Type 30~100
30~100
GBFD111705
GSM Flow Control
Interval Type 30~100
30~100
GBFD111705
GSM Flow Control
Interval Type 30~100
30~100
GBFD111705
GSM Flow Control
Interval Type 30~100
30~100
GBFD111705
GSM Flow Control
Interval Type 30~100
30~100
GBFD111705
GSM Flow Control
Interval Type 30~100
30~100
GBFD111705
GSM Flow Control
Interval Type 30~100
30~100
GBFD111705
GSM Flow Control
Interval Type 30~100
30~100
GBFD111705
GSM Flow Control
Interval Type 30~100
30~100
GBFD111705
GSM Flow Control
Interval Type 30~100
30~100
GBFD111705
GSM Flow Control
Interval Type 30~100
30~100
GBFD111705
GSM Flow Control
Interval Type 30~100
30~100
GBFD111705
GSM Flow Control
Interval Type 30~100
30~100
MRFD210301
Configuration Management
Enumeration SCU, GCU, XPU, DPU, Type INT, TNU SCU, GCU, XPU, DPU, INT, TNU
GBFD111705
GSM Flow Control
Interval Type 2~2000
2~2000
GBFD111705
GSM Flow Control
Interval Type 30~100
30~100
GBFD111705
GSM Flow Control
Interval Type 30~100
30~100
GBFD111705
GSM Flow Control
Interval Type 30~100
30~100
GBFD111705
GSM Flow Control
Interval Type 30~100
30~100
GBFD111705
GSM Flow Control
Interval Type 30~100
30~100
GBFD111705
GSM Flow Control
Interval Type 30~100
30~100
GBFD111705
GSM Flow Control
Interval Type 30~100
30~100
GBFD111705
GSM Flow Control
Interval Type 30~100
30~100
GBFD111705
GSM Flow Control
Interval Type 30~100
30~100
MRFD210301
Configuration Management
Enumeration SCU, GCU, XPU, DPU, Type INT, TNU SCU, GCU, XPU, DPU, INT, TNU
GBFD111705
GSM Flow Control
Enumeration Type ON, OFF
ON, OFF
GBFD111705
GSM Flow Control
Enumeration Type ON, OFF
ON, OFF
GBFD111705
GSM Flow Control
Enumeration Type ON, OFF
ON, OFF
GBFD111705
GSM Flow Control
Enumeration Type ON, OFF
ON, OFF
GBFD111705
GSM Flow Control
Enumeration Type ON, OFF
ON, OFF
MRFD210301
Configuration Management
Enumeration CELL(Cell), TRX(TRX), Type CHN(Channel) CELL, TRX, CHN
MRFD210301
Configuration Management
Enumeration BYNAME(By name), Type BYID(By index)
BYNAME, BYID
MRFD210301
Configuration Management
Interval Type 0~2047
0~2047
MRFD210301
Configuration Management
String Type
1~64 characters
MRFD210301
Configuration Management
Interval Type 0~4095
0~4095
MRFD210301
Configuration Management
Interval Type 0~7
0~7
GBFD111203
O&M of BSC
FREE(Free), INCELL(Intra-cell), OUTCELL(Outgoing cell), OUTST(Outgoing site), OUTBSC(Outgoing BSC), OUTSYS(Outgoing FREE, INCELL, OUTCELL, Enumeration system), OUTST, OUTBSC, OUTSYS, Type SPCELL(Specified cell) SPCELL
GBFD111203
O&M of BSC
Enumeration BYCELLNAME(By cell Type name), BYCGI(By CGI) BYCELLNAME, BYCGI
GBFD111203
O&M of BSC
String Type
None
1~64 characters
MRFD210301
Configuration Management
String Type
None
3 digits
MRFD210301
Configuration Management
String Type
None
2~3 digits
MRFD210301
Configuration Management
Interval Type 1~65533, 65535
None
1~65533, 65535
MRFD210301
Configuration Management
Interval Type 0~65535
0~65535
None
None
Interval Type 1024~65535
1024~65535
None
None
Interval Type 1024~65535
1024~65535
GBFD111203 MRFD210305
O&M of BSC Security Management
Password Type
None
1~32 characters
GBFD111203 MRFD210305
O&M of BSC Security Management
Password Type
None
1~32 characters
GBFD111203
O&M of BSC
AUTO(Auto), PLAINTEXT(Plain Text), Enumeration ENCRYPTED(SSL Type Encrypte)
AUTO, PLAINTEXT, ENCRYPTED
GBFD111203
O&M of BSC
Enumeration YES(Support), NO(Not Type Support)
YES, NO
GBFD111203
O&M of BSC
Interval Type 21~65535
21~65535
None
None
Interval Type 1024~65535
1024~65535
None
None
Interval Type 1024~65535
1024~65535
O&M of BSC
AUTO(Automatic), PLAINTEXT(Plain Text), Enumeration ENCRYPTED(SSL Type Encrypted)
AUTO, PLAINTEXT, ENCRYPTED
GBFD111203
GBFD111203 MRFD210305
O&M of BSC Security Management
DEFAULTPORT(Defaul t 21 Port), Enumeration CUSTOMPORT(Custo Type m Port) DEFAULTPORT, CUSTOMPORT
GBFD111203
O&M of BSC
Interval Type 1024~65535
1024~65535
GBFD111203
O&M of BSC
1024~65535
MRFD210301
Configuration Management
Interval Type 1024~65535 BYNAME(By name), Enumeration BYID(By index), Type BYCGI(By CGI)
GBFD110601 GBFD510501
HUAWEI I Handover HUAWEI II Handover
Interval Type 0~2047
0~2047
MRFD210301
Configuration Management
String Type
1~64 characters
MRFD210301
Configuration Management
Interval Type 0~12287
0~12287
MRFD210301
Configuration Management
String Type
None
1~64 characters
MRFD210301
Configuration Management
String Type
None
1~3 characters
MRFD210301
Configuration Management
String Type
None
1~3 characters
MRFD210301
Configuration Management
Interval Type 1~65533, 65535
1~65533, 65535
MRFD210301
Configuration Management
Interval Type 0~65535
0~65535
MRFD210301
Configuration Management
String Type
None
1~3 characters
MRFD210301
Configuration Management
String Type
None
1~3 characters
None
BYNAME, BYID, BYCGI
MRFD210301
Configuration Management
Interval Type 1~65533, 65535
1~65533, 65535
MRFD210301
Configuration Management
Interval Type 0~65535
0~65535
GBFD117002
IBCA (Interference Based Channel Allocation)
HANDOVERNCELL(Ha ndover Neighboring Cell), IBCANCELL(IBCA Neighboring Cell), HANDOVERANDIBCAN HANDOVERNCELL, Enumeration CELL(Handover and IBCANCELL, Type IBCA Neighboring Cell) HANDOVERANDIBCANCELL
GBFD110601 GBFD510501
HUAWEI I Handover HUAWEI II Handover
HOALGORITHM1(Hand over algorithm I), Enumeration HOALGORITHM2(Hand HOALGORITHM1, Type over algorithm II) HOALGORITHM2
GBFD110601 GBFD510501
HUAWEI I Handover HUAWEI II Handover
Interval Type 0~127
0~127
GBFD110601 GBFD510501
HUAWEI I Handover HUAWEI II Handover
Interval Type 0~63
0~63
GBFD110601
HUAWEI I Handover
Interval Type 0~127
0~127
GBFD110601 GBFD510501
HUAWEI I Handover HUAWEI II Handover
Interval Type 0~127
0~127
GBFD510103
Chain Cell Handover
Enumeration Type NO(No), YES(Yes)
NO, YES
GBFD110601 GBFD510501
HUAWEI I Handover HUAWEI II Handover
Interval Type 0~127
0~127
GBFD110601 GBFD510501
HUAWEI I Handover HUAWEI II Handover
Interval Type 0~128
0~128
GBFD510103
Chain Cell Handover
QUICK_HO_NCELL_TY PE_A(QUICK_HO_NCE LL_TYPE_A), QUICK_HO_NCELL_TY Enumeration PE_B(QUICK_HO_NCE QUICK_HO_NCELL_TYPE_A, Type LL_TYPE_B) QUICK_HO_NCELL_TYPE_B
GBFD510501
HUAWEI II Handover
Interval Type 1~32
0.5~16, step:0.5
GBFD510501
HUAWEI II Handover
Interval Type 1~32
0.5~16, step:0.5
GBFD110601 GBFD510501
HUAWEI I Handover HUAWEI II Handover
Interval Type 1~32
0.5~16, step:0.5
GBFD110601 GBFD510501
HUAWEI I Handover HUAWEI II Handover
Interval Type 1~32
0.5~16, step:0.5
GBFD110601
HUAWEI I Handover
Interval Type 1~32
0.5~16, step:0.5
GBFD110601
HUAWEI I Handover
Interval Type 1~32
0.5~16, step:0.5
GBFD510501
HUAWEI II Handover
Interval Type 1~32
0.5~16, step:0.5
GBFD510501
HUAWEI II Handover
Interval Type 1~32
0.5~16, step:0.5
GBFD510102
Fast Move Handover
Interval Type 1~32
0.5~16, step:0.5
GBFD510102
Fast Move Handover
Interval Type 1~32
0.5~16, step:0.5
GBFD510501
HUAWEI II Handover
Interval Type 1~16
0.5~8, step:0.5
GBFD510501
HUAWEI II Handover
Interval Type 1~16
0.5~8, step:0.5
GBFD510501
HUAWEI II Handover
Interval Type 1~16
0.5~8, step:0.5
GBFD510501
HUAWEI II Handover
Interval Type 1~16
0.5~8, step:0.5
GBFD510501
HUAWEI II Handover
Interval Type 1~16
0.5~0.8, step:0.5
GBFD510501
HUAWEI II Handover
Interval Type 1~16
0.5~8, step:0.5
GBFD510501
HUAWEI II Handover
Interval Type 1~8
0.5~4, step:0.5
GBFD510501
HUAWEI II Handover
Interval Type 1~8
0.5~4, step:0.5
GBFD117002
IBCA (Interference Based Channel Allocation)
Enumeration Type NO(No), YES(Yes)
NO, YES
GBFD117002
IBCA (Interference Based Channel Allocation)
Interval Type 0~63
0~63
GBFD110601
HUAWEI I Handover
Interval Type 0~127
-64dB~63dB
GBFD511301
Cell Reselection Between GSM and LTE Interval Type 0~7, 255
0~7, 255
MRFD210301
Configuration Management
Enumeration BYNAME(By Name), Type BYID(By Index)
BYNAME, BYID
MRFD210301
Configuration Management
Enumeration BYNAME(By Name), Type BYID(By Index)
BYNAME, BYID
MRFD210301
Configuration Management
Interval Type 0~2047
0~2047
MRFD210301
Configuration Management
String Type
1~64 characters
MRFD210301
Configuration Management
Interval Type 5048~8047
5048~8047
MRFD210301
Configuration Management
String Type
1~64 characters
GBFD114301 GBFD114302
GSM/WCDMA Interoperability GSM/TDSCDMA Interoperability
Interval Type 0~63
None
None
0~63
GBFD114301
GSM/WCDMA Interoperability
Interval Type 0~49
0~49
GBFD110601 GBFD510501
HUAWEI I Handover HUAWEI II Handover
Interval Type 1~32
0.5~16, step:0.5
GBFD110601 GBFD510501
HUAWEI I Handover HUAWEI II Handover
Interval Type 1~32
0.5~16, step:0.5
GBFD110601 GBFD510501
HUAWEI I Handover HUAWEI II Handover
Interval Type 1~32
0.5~16, step:0.5
GBFD110601 GBFD510501
HUAWEI I Handover HUAWEI II Handover
Interval Type 1~32
0.5~16, step:0.5
GBFD511301
Cell Reselection Between GSM and LTE Interval Type 0~7, 255
0~7, 255
GBFD113725
BSC Node Redundancy
Interval Type 0~65534
0~65534
GBFD113725
BSC Node Redundancy
String Type
1~20 characters
GBFD113725
BSC Node Redundancy
Interval Type 1~60
1~60
GBFD113725
BSC Node Redundancy
Interval Type 1~600
1~600
None
GBFD113725
BSC Node Redundancy
Interval Type 1~600
1~600
GBFD113725
BSC Node Redundancy
Interval Type 1~60
1~60
GBFD113725
BSC Node Redundancy
NONE(None), Enumeration AINTFBLOCK(AInterf Type Block)
NONE, AINTFBLOCK
GBFD113725
BSC Node Redundancy
Interval Type 0~65534
0~65534
GBFD113725
BSC Node Redundancy
Interval Type 0~65534
0~65534
GBFD113601
Short Message Service Cell Broadcast (TS23)
Interval Type 0~3
0~3
OPINDEX0(OPINDEX 0), OPINDEX1(OPINDEX 1), OPINDEX2(OPINDEX 2), OPINDEX3(OPINDEX 3), OPINDEX4(OPINDEX 4), OPINDEX5(OPINDEX 5), OPINDEX6(OPINDEX 6), OPINDEX7(OPINDEX 7), OPINDEX8(OPINDEX 8), OPINDEX9(OPINDEX 9), OPINDEX10(OPINDEX 10), OPINDEX11(OPINDEX 11), OPINDEX12(OPINDEX 12), OPINDEX13(OPINDEX 13), OPINDEX14(OPINDEX 14), OPINDEX15(OPINDEX 15)
OPINDEX0, OPINDEX1, OPINDEX2, OPINDEX3, OPINDEX4, OPINDEX5, OPINDEX6, OPINDEX7, OPINDEX8, OPINDEX9, OPINDEX10, OPINDEX11, OPINDEX12, OPINDEX13, OPINDEX14, OPINDEX15
GBFD118701
RAN Sharing
Bit Field Type
MRFD210301
Configuration Management
Interval Type 0~11
0~11
MRFD210301
Configuration Management
Interval Type 0~27
0~27
MRFD210301
Configuration Management
Interval Type 0~7
0~7
GBFD113601
Short Message Service Cell Broadcast (TS23)
IP Address Type
GBFD113601
Short Message Service Cell Broadcast (TS23)
Interval Type 0~65535
0~65535
GBFD113601
Short Message Service Cell Broadcast (TS23)
IP Address Type
None
0.0.0.0~255.255.255.255
GBFD113601
Short Message Service Cell Broadcast (TS23)
IP Address Type
None
0.0.0.0~255.255.255.255
GBFD113601
Short Message Service Cell Broadcast (TS23)
IP Address Type
None
0.0.0.0~255.255.255.255
GBFD113601
Short Message Service Cell Broadcast (TS23)
Interval Type 0~65535
0~65535
GBFD113601
Short Message Service Cell Broadcast (TS23)
Enumeration Type YES(Yes), NO(No)
YES, NO
None
0.0.0.0~255.255.255.255
GBFD113601
Short Message Service Cell Broadcast (TS23)
Interval Type 0~63
0~63
MRFD210301
Configuration Management
Enumeration BYNAME(By Name), Type BYID(By Index)
BYNAME, BYID
MRFD210301
Configuration Management
Interval Type 0~2047
0~2047
MRFD210301
Configuration Management
String Type
None
1~64 characters
MRFD210301
Configuration Management
String Type
None
1~64 characters
GBFD110101
GSM900_DCS1800(GS M900_DCS1800), GSM850_1800(GSM85 0_1800), Enumeration GSM850_1900(GSM85 GSM900_DCS1800, Frequency Band Type 0_1900) GSM850_1800, GSM850_1900
MRFD210301
Configuration Management
String Type
None
3 digits
MRFD210301
Configuration Management
String Type
None
2~3 digits
MRFD210301
Configuration Management
Interval Type 1~65533, 65535
1~65533, 65535
MRFD210301
Configuration Management
Interval Type 0~65535
0~65535
MRFD210301
Configuration Management
Interval Type 0~7
0~7
MRFD210301
Configuration Management
Interval Type 0~7
0~7
Extended Cell
Normal_cell(Normal cell), Enumeration DualTS_ExtCell(Double Type Timeslot Extension Cell) Normal_cell, DualTst_ExtCell
GBFD114001
GBFD113201 GBFD114402
Normal_cell(Normal Cell), Concentric_cell(Concen Concentric Cell tric Cell), Enhanced Dual- Enumeration EDB_cell(Enhanced Normal_cell, Concentric_cell, Band Network Type Double Frequency Cell) EDB_cell
GBFD113201
Concentric Cell
GBFD114402
Enhanced Dual- Enumeration Inner(Inner), Band Network Type Extra(Extra)
Inner, Extra
GBFD114402
Enhanced Dual- Enumeration BYNAME(By Name), Band Network Type BYID(By Index)
BYNAME, BYID
Enumeration Type OFF(Off), ON(On)
OFF, ON
GBFD114402
Enhanced DualBand Network Interval Type 0~2047
0~2047
GBFD114402
Enhanced DualBand Network String Type
1~64 characters
GBFD114501
Co-BCCH Cell
Enumeration Inner(Inner), Type Extra(Extra)
Inner, Extra
GBFD117001
Flex MAIO
Enumeration Type OFF(Off), ON(On)
OFF, ON
GBFD117001
Flex MAIO
Enumeration Type OFF(Off), ON(On)
OFF, ON
None
GBFD111705
GSM Flow Control
Interval Type 0~7
0~7
GBFD111705
GSM Flow Control
Interval Type 0~7
0~7
GBFD111705
GSM Flow Control
Interval Type 0~7
0~7
GBFD111705
GSM Flow Control
Interval Type 0~7
0~7
MRFD210301
Configuration Management
Interval Type 1~4
1~4
MRFD210301
Configuration Management
Interval Type 0~12
0~12
MRFD210301
Configuration Management
Interval Type 0~12
0~12
GBFD118701
RAN Sharing
String Type
0~255 characters
GBFD111705
GSM Flow Control
Enumeration Type NO(No), YES(Yes)
NO, YES
GBFD118702
MOCN Shared Cell
Enumeration Type NO(No), YES(Yes)
NO, YES
GBFD114401
Multi-band Sharing One BSC
NO(No), Enumeration DCS1800(DCS1800), Type PCS1900(PCS1900)
NO, DCS1800, PCS1900
GBFD110101
GSM900, DCS1800, GSM900_DCS1800, GSM850, PCS1900, GSM850_1800, Enumeration GSM850_1900, Frequency Band Type TGSM810
None
GSM900, DCS1800, GSM900_DCS1800, GSM850, PCS1900, GSM850_1800, GSM850_1900, TGSM810
MRFD210301
Configuration Management
Interval Type 0~7
0~7
MRFD210301
Configuration Management
String Type
None
1~64 characters
MRFD210301
Configuration Management
Enumeration BYNAME(By Name), Type BYID(By Index)
BYNAME, BYID
MRFD210301
Configuration Management
Interval Type 0~2047
0~2047
MRFD210301
Configuration Management
String Type
1~64 characters
MRFD210301
Configuration Management
Enumeration AUTO(Auto), Type MANU(Manu)
AUTO, MANU
MRFD210301
Configuration Management
Interval Type 1~64
1~64
MRFD210301
Configuration Management
Enumeration TRUE(Support), Type FALSE(Not Support)
TRUE, FALSE
MRFD210301
Configuration Management
Interval Type 0~1023
0~1023
MRFD210301
Configuration Management
Enumeration BYNAME(By Name), Type BYID(By Index)
BYNAME, BYID
MRFD210301
Configuration Management
Interval Type 0~2047
0~2047
None
MRFD210301
Configuration Management
String Type
GBFD111202
O&M of BTS
LOCK(Lock), UNLOCK(Unlock), Enumeration SHUTDOWN(Shutdown Type ) Lock, Unlock, Shutdown
MRFD210301
Configuration Management
Enumeration BYNAME(By Name), Type BYID(By Index)
BYNAME, BYID
MRFD210301
Configuration Management
Interval Type 0~2047
0~2047
MRFD210301
Configuration Management
String Type
1~64 characters
GBFD110601 GBFD510501
HUAWEI I Handover HUAWEI II Handover
Interval Type 0~70
None
None
1~64 characters
0~70
GBFD110601 GBFD510501
HUAWEI I Handover HUAWEI II Handover
Interval Type 0~70
0~70
GBFD110601 GBFD510501
HUAWEI I Handover HUAWEI II Handover
Interval Type 0~70
0~70
GBFD110601 GBFD510501
HUAWEI I Handover HUAWEI II Handover
Interval Type 0~70
0~70
GBFD110601 GBFD510501
HUAWEI I Handover HUAWEI II Handover
Interval Type 0~70
0~70
GBFD110601 GBFD510501
HUAWEI I Handover HUAWEI II Handover
Interval Type 0~70
0~70
GBFD110601 GBFD510501
HUAWEI I Handover HUAWEI II Handover
Interval Type 0~70
0~70
GBFD110601 GBFD510501
HUAWEI I Handover HUAWEI II Handover
Interval Type 0~70
0~70
GBFD110601 GBFD510501
HUAWEI I Handover HUAWEI II Handover
Interval Type 0~70
0~70
GBFD110601 GBFD510501
HUAWEI I Handover HUAWEI II Handover
Interval Type 0~70
0~70
GBFD110601 GBFD510501
HUAWEI I Handover HUAWEI II Handover
Interval Type 0~70
0~70
GBFD110601 GBFD510501
HUAWEI I Handover HUAWEI II Handover
Interval Type 0~70
0~70
GBFD115501 GBFD510501 GBFD110601
AMR FR HUAWEI II Handover HUAWEI I Handover
Interval Type 0~70
0~70
GBFD115501 GBFD510501 GBFD110601
AMR FR HUAWEI II Handover HUAWEI I Handover
Interval Type 0~70
0~70
GBFD115501 GBFD510501 GBFD110601
AMR FR HUAWEI II Handover HUAWEI I Handover
Interval Type 0~70
0~70
GBFD115502 GBFD510501 GBFD110601
AMR HR HUAWEI II Handover HUAWEI I Handover
Interval Type 0~70
0~70
GBFD115502 GBFD510501 GBFD110601
AMR HR HUAWEI II Handover HUAWEI I Handover
Interval Type 0~70
0~70
MRFD210301
Configuration Management
Enumeration BYNAME(By Name), Type BYID(By Index)
BYNAME, BYID
MRFD210301
Configuration Management
Interval Type 0~2047
0~2047
MRFD210301
Configuration Management
String Type
1~64 characters
GBFD110601 GBFD510501
HUAWEI I Handover HUAWEI II Handover
Enumeration Type 1, 2, 3, 4
None
1, 2, 3, 4
PRIOR-1(Priority-1), PRIOR-2(Priority-2), PRIOR-3(Priority-3), PRIOR-4(Priority-4), PRIOR-5(Priority-5), PRIOR-6(Priority-6), PRIOR-7(Priority-7), PRIOR-8(Priority-8), PRIOR-9(Priority-9), PRIOR-10(Priority-10), PRIOR-11(Priority-11), PRIOR-12(Priority-12), PRIOR-13(Priority-13), PRIOR-14(Priority-14), Enumeration PRIOR-15(Priority-15), Type PRIOR-16(Priority-16)
GBFD110601 GBFD510501
HUAWEI I Handover HUAWEI II Handover
GBFD110901 GBFD114001
Adjustment of Adaptive Timing Advance Extended Cell Interval Type 0~255
PRIOR-1, PRIOR-2, PRIOR-3, PRIOR-4, PRIOR-5, PRIOR-6, PRIOR-7, PRIOR-8, PRIOR-9, PRIOR-10, PRIOR-11, PRIOR12, PRIOR-13, PRIOR-14, PRIOR-15, PRIOR-16
0~255
GBFD114801 GBFD115501
Discontinuous Transmission (DTX) Downlink Enumeration AMR FR Type NO(No), YES(Yes)
NO, YES
GBFD114801 GBFD113401 GBFD115502
Discontinuous Transmission (DTX) Downlink Half Rate Speech Enumeration AMR HR Type NO(No), YES(Yes)
NO, YES
GBFD113501 GBFD113503
A5/1 and A5/2 Ciphering Algorithm A5/3 Ciphering Algorithm
Bit Field Type
A5/0, A5/1, A5/2, A5/3, A5/4, A5/5, A5/6, A5/7
A5/0, A5/1, A5/2, A5/3, A5/4, A5/5, A5/6, A5/7
GBFD111101
System Information Sending
Interval Type 0~63
0~63
GBFD114803 GBFD115501
Discontinuous Transmission (DTX) Uplink AMR FR
May_Use(May Use), Shall_Use(Shall Use), Enumeration Shall_NOT_Use(Shall Type not Use)
May_Use, Shall_Use, Shall_NOT_Use
GBFD114803 GBFD113401 GBFD115502
Discontinuous Transmission (DTX) Uplink Half Rate Speech AMR HR
GBFD110503
Call Enumeration Reestablishment Type NO(No), YES(Yes)
NO, YES
GBFD110502
Assignment and Immediate Enumeration Assignment Type NO(No), YES(Yes)
NO, YES
GBFD110607
Direct Retry
Enumeration Type NO(No), YES(Yes)
NO, YES
May_Use(May Use), Shall_Use(Shall Use), Enumeration Shall_NOT_Use(Shall Type not Use)
May_Use, Shall_Use, Shall_NOT_Use
GBFD110703 GBFD117601
Enhanced Power Control Algorithm HUAWEI III Power Control Algorithm
Enumeration Type NO(No), YES(Yes)
NO, YES
GBFD110703 GBFD117601
Enhanced Power Control Algorithm HUAWEI III Power Control Algorithm
Enumeration Type NO(No), YES(Yes)
NO, YES
GBFD113001
SDCCH Dynamic Adjustment
GBFD110801 GBFD110802
Processing of Measurement Report Pre-processing NO(Not Support), of Measurement Enumeration YES(Support), Report Type NONE(Invalid)
NO, YES, NONE
GBFD111602
TRX Power Amplifier Intelligent Shutdown
Enumeration Type NO(No), YES(Yes)
NO, YES
GBFD111202 GBFD111611
O&M of BTS TRX Working Voltage Adjustment
Enumeration Type NO(No), YES(Yes)
NO, YES
GBFD114101
GPRS
Interval Type 4~32
0.5~4, step: 1/8
Enumeration Type NO(No), YES(Yes)
NO, YES
GBFD114201
EGPRS
Interval Type 4~32
0.5~4, step: 1/8
GBFD111604
Intelligent Combiner Bypass
Enumeration NO(NO), YES(YES), Type NULL(NULL)
NO, YES, NULL
GBFD111606
Power Optimization Based on Channel Type
Enumeration NO(No), YES(Yes), Type NULL(Null)
NO, YES, NULL
GBFD510804
Downlink EGPRS2-A
Interval Type 4~32
0.5~4, step: 1/8
GBFD510804
Downlink EGPRS2-A
Interval Type 4~32
0.5~4, step: 1/8
GBFD510804
Downlink EGPRS2-A
Interval Type 0~50
0~10, step: 0.2
GBFD510804
Downlink EGPRS2-A
GBFD510803 GBFD510804
Interval Type 0~50 COMMON(COMMON), 0~10, step: 0.2 Uplink EGPRS2MULTIPATH(MULTIPA A TH), Downlink Enumeration INDOOR(INDOOR), COMMON, MULTIPATH, EGPRS2-A Type HIGHWAY(HIGHWAY) INDOOR, HIGHWAY
GBFD119115
Power Control
GBFD110502
Assignment and Immediate Assignment Interval Type 0~100
Interval Type 0~50
0~50
0~100
GBFD110502
Assignment and Immediate Enumeration Assignment Type NO(NO), YES(YES)
NO, YES
GBFD115501 GBFD115502 GBFD115701 GBFD113301 GBFD113726
AMR FR AMR HR TFO Enhanced Full Rate TC Pool
Enumeration DISABLE(Disable), Type ENABLE(Enable)
DISABLE, ENABLE
GBFD115506
AMR Coding Rate Threshold Adaptive Enumeration DISABLE(Disable), Adjustment Type ENABLE(Enable)
DISABLE, ENABLE
GBFD118104
NOT_ALLOWED(Not Enhanced Enumeration Allowed), EDGE Coverage Type ALLOWED(Allowed)
NOT_ALLOWED, ALLOWED
GBFD118104
NOT_ALLOWED(Not Enhanced Enumeration Allowed), EDGE Coverage Type ALLOWED(Allowed)
NOT_ALLOWED, ALLOWED
GBFD118104
Enhanced EDGE Coverage Interval Type 0~18
0~1.8, step: 0.1
GBFD118104
Enhanced EDGE Coverage Interval Type 0~32
0~3.2, step: 0.1
GBFD118104
Enhanced EDGE Coverage Interval Type 0~35
0~3.5, step: 0.1
GBFD118104
Enhanced EDGE Coverage Interval Type 0~19
0~1.9, step: 0.1
GBFD118104
Enhanced EDGE Coverage Interval Type 0~36
0~3.6, step: 0.1
GBFD118104
Enhanced EDGE Coverage Interval Type 0~40
0~4.0, step: 0.1
MRFD210301
Configuration Management
Enumeration BYNAME(By Name), Type BYID(By Index)
BYNAME, BYID
MRFD210301
Configuration Management
Interval Type 0~2047
0~2047
MRFD210301
Configuration Management
String Type
1~64 characters
None
MRFD210301
GBFD113801
FULL_RATE_VER1(Fullrate VER 1), FULL_RATE_VER2(Fullrate VER 2), FULL_RATE_VER3(Fullrate VER 3), HALF_RATE_VER1(Hal f-rate VER 1), HALF_RATE_VER2(Hal f-rate VER 2), HALF_RATE_VER3(Hal Full_rate_Ver1, Full_rate_Ver2, f-rate VER 3), Full_rate_Ver3, Half_rate_Ver1, FULL_RATE_VER5(Full- Half_rate_Ver2, Half_rate_Ver3, rate VER 5) Full_rate_Ver5
Configuration Management
Bit Field Type
TRX Cooperation
TRXAid_NotAllow(TRX Aiding Not Allowed), AllowReForbid(Allowed & Recover Forbidden), AllowReImmed(Allowed & Recover Immediately), AllowReCheckRes(Allo TRXAid_NotAllow, Enumeration wed & Recover When AllowReForbid, AllowReImmed, Type Chk Res) AllowReCheckRes
GBFD111003
Radio Common Channel Management Interval Type 0~255
0~255
GBFD111003
Radio Common Channel Enumeration Management Type NO(No), YES(Yes)
NO, YES
GBFD111003
Radio Common Channel Management Interval Type 0~3
0~3
GBFD111003
Radio Common Channel Management Interval Type -121~-104
-121~-104
GBFD111003
Radio Common Channel Management Interval Type -121~-104
-121~-104
GBFD113801
TRX Cooperation
Enumeration Type ALL(All), PART(Part)
ALL, PART
MRFD210301
Configuration Management
Enumeration BYNAME(By Name), Type BYID(By Index)
BYNAME, BYID
MRFD210301
Configuration Management
Interval Type 0~2047
0~2047
MRFD210301
Configuration Management
String Type
1~64 characters
None
GBFD110203
Point To Point Short Message Service (TS21, TS22)
Enumeration Type NO(No), YES(Yes)
NO, YES
GBFD110203
Point To Point Short Message Service (TS21, TS22)
Enumeration Type NO(No), YES(Yes)
NO, YES
Same_Band(Same Band), Enumeration Diff_Band(Different Type Band)
GBFD112501
TCH Reassignment
GBFD110202 GBFD110521
Emergency Call Service (TS12) Guaranteed Enumeration Emergency Call Type OFF(Off), ON(On)
OFF, ON
GBFD110202 GBFD110521
Emergency Call Service (TS12) Guaranteed Emergency Call Interval Type 1~15
1~15
GBFD114325
Fast 3G Reselection at 2G CS Call Release
NO, YES
Enumeration Type NO(No), YES(Yes)
Same_Band, Diff_Band
GBFD111004
Radio Dedicated Channel Enumeration Management Type OFF(Off), ON(On) Radio Dedicated Channel Management Interval Type 0~31
GBFD111004
Radio Dedicated Channel Management Interval Type 0~255
0~255
GBFD114325
Fast 3G Reselection at 2G CS Call Release
Enumeration Type OFF(OFF), ON(ON)
OFF, ON
GBFD111203
O&M of BSC
BCCH_Norm(BCCH Enumeration Norm), Type BCCH_Ext(BCCH Ext)
BCCH_Norm, BCCH_Ext
MRFD210301
Configuration Management
Enumeration BYNAME(By Name), Type BYID(By Index)
BYNAME, BYID
MRFD210301
Configuration Management
Interval Type 0~2047
0~2047
MRFD210301
Configuration Management
String Type
1~64 characters
GBFD111004
None
OFF, ON
0~31
GBFD115506 GBFD115507
AMR Coding Rate Threshold Adaptive ALG1(Algorithm I), Adjustment Enumeration ALG2(Algorithm II), WB AMR Type NONE(None)
ALG1, ALG2, NONE
4_75KBIT/S, 5_15KBIT/S, 5_90KBIT/S, 6_70KBIT/S, 7_40KBIT/S, 7_95KBIT/S, 10_2KBIT/S, 12_2KBIT/S
GBFD115501 GBFD115701
4_75KBIT/S, 5_15KBIT/S, 5_90KBIT/S, 6_70KBIT/S, 7_40KBIT/S, 7_95KBIT/S, 10_2KBIT/S, 12_2KBIT/S
AMR FR TFO
Bit Field Type
GBFD115501
AMR FR
Enumeration Type NO(No), YES(Yes)
NO, YES
GBFD115501 GBFD115507
AMR FR WB AMR
Interval Type 0~63
0~63
GBFD115501 GBFD115507
AMR FR WB AMR
Interval Type 0~63
0~63
GBFD115501 GBFD115507
AMR FR WB AMR
Interval Type 0~63
0~63
GBFD115501
AMR FR
Interval Type 0~15
0~15
GBFD115501
AMR FR
Interval Type 0~15
0~15
GBFD115501
AMR FR
Interval Type 0~15
0~15
GBFD115501
AMR FR
Interval Type 0~63
0~63
GBFD115501
AMR FR
Interval Type 0~63
0~63
GBFD115501
AMR FR
Interval Type 0~63
0~63
GBFD115501
AMR FR
Interval Type 0~15
0~15
GBFD115501
AMR FR
Interval Type 0~15
0~15
GBFD115501
AMR FR
Interval Type 0~15
0~15
GBFD115501
AMR FR
Interval Type 0~3
4_75KBIT/S, 5_15KBIT/S, 5_90KBIT/S, 6_70KBIT/S, 7_40KBIT/S, 7_95KBIT/S
GBFD115502 GBFD115701
AMR HR TFO
Bit Field Type
GBFD115502
AMR HR
Enumeration Type NO(No), YES(Yes)
0~3
4_75KBIT/S, 5_15KBIT/S, 5_90KBIT/S, 6_70KBIT/S, 7_40KBIT/S, 7_95KBIT/S
NO, YES
GBFD115502
AMR HR
Interval Type 0~63
0~63
GBFD115502
AMR HR
Interval Type 0~63
0~63
GBFD115502
AMR HR
Interval Type 0~63
0~63
GBFD115502
AMR HR
Interval Type 0~15
0~15
GBFD115502
AMR HR
Interval Type 0~15
0~15
GBFD115502
AMR HR
Interval Type 0~15
0~15
GBFD115502
AMR HR
Interval Type 0~63
0~63
GBFD115502
AMR HR
Interval Type 0~63
0~63
GBFD115502
AMR HR
Interval Type 0~63
0~63
GBFD115502
AMR HR
Interval Type 0~15
0~15
GBFD115502
AMR HR
Interval Type 0~15
0~15
GBFD115502
AMR HR
Interval Type 0~15
0~15
GBFD115502
AMR HR
Interval Type 0~3
0~3
GBFD115506
AMR Coding Rate Threshold Adaptive Enumeration Adjustment Type NO(No), YES(Yes)
NO, YES
GBFD115506
AMR Coding Rate Threshold Adaptive Adjustment Interval Type 2~255
2~255
GBFD115506
AMR Coding Rate Threshold Adaptive Adjustment Interval Type 2~255
2~255
GBFD115506
AMR Coding Rate Threshold Adaptive Adjustment Interval Type 2~255
2~255
GBFD115506
AMR Coding Rate Threshold Adaptive Adjustment Interval Type 2~255
2~255
GBFD115506
AMR Coding Rate Threshold Adaptive Enumeration Adjustment Type NO(No), YES(Yes)
NO, YES
GBFD115506
AMR Coding Rate Threshold Adaptive Adjustment Interval Type 2~255
2~255
GBFD115506
AMR Coding Rate Threshold Adaptive Adjustment Interval Type 2~255
2~255
GBFD115506
AMR Coding Rate Threshold Adaptive Adjustment Interval Type 2~255
2~255
GBFD115506
AMR Coding Rate Threshold Adaptive Adjustment Interval Type 2~255
2~255
GBFD115507 GBFD115701
WB AMR TFO
Bit Field Type
GBFD115507
WB AMR
Interval Type 0~63
6_60KBIT/S~0 8_85KBIT/S~1 12_65KBIT/S
0~7
0~63
GBFD115507
WB AMR
Interval Type 0~63
0~63
GBFD115507
WB AMR
Interval Type 0~15
0~15
GBFD115507
WB AMR
Interval Type 0~15
0~15
GBFD115507
WB AMR
Interval Type 0~63
0~63
GBFD115507
WB AMR
Interval Type 0~63
0~63
GBFD115507
WB AMR
Interval Type 0~15
0~15
GBFD115507
WB AMR
Interval Type 0~15
0~15
GBFD115507
WB AMR
Interval Type 0~2
0~2
GBFD115506 GBFD115701
AMR Coding Rate Threshold Adaptive Adjustment Enumeration DISABLE(Disable), TFO Type ENABLE(Enable)
DISABLE, ENABLE
MRFD210301
Configuration Management
Enumeration BYNAME(By Name), Type BYID(By Index)
BYNAME, BYID
MRFD210301
Configuration Management
Interval Type 0~2047
0~2047
MRFD210301
Configuration Management
String Type
1~64 characters
None
GBFD111004
Radio Dedicated Channel Management Interval Type 0~63
0~30240, step: 480
GBFD111003
Radio Common Channel Management Interval Type 0~63
0~63
GBFD110303
Paging
1~8
Interval Type 1~8
GBFD110607
Direct Retry
Enumeration DISABLE(Disable), Type ENABLE(Enable)
DISABLE, ENABLE
GBFD110607
Direct Retry
Interval Type 0~100
0~100
GBFD115505
AMR Wireless Link Timer
Interval Type 0~63
0~30240, step:480
GBFD115505
AMR Wireless Link Timer
Interval Type 0~63
0~30240, step:480
GBFD115505
AMR Wireless Link Timer
4_Times, 8_Times, 12_Times, 16_Times, 20_Times, 24_Times, 28_Times, 32_Times, 36_Times, 40_Times, 44_Times, 48_Times, Enumeration 52_Times, 56_Times, Type 60_Times, 64_Times
1920~30720, step:480
4_Times, 8_Times, 12_Times, 16_Times, 20_Times, 24_Times, 28_Times, 32_Times, 36_Times, 40_Times, 44_Times, 48_Times, Enumeration 52_Times, 56_Times, Type 60_Times, 64_Times
GBFD115505
AMR Wireless Link Timer
GBFD111003 GBFD110301 GBFD110303 GBFD110502
Radio Common Channel Management Location Updating Paging 1_Times(1_Times), Assignment and 2_Times(2_Times), Immediate Enumeration 4_Times(4_Times), Assignment Type 7_Times(7_Times)
1920~30720, step:480
1_Times, 2_Times, 4_Times, 7_Times
Radio Common Channel Management Location Updating Bit Field IMSI Detach Type
L0_FORBID(Level 0 Forbidden), L1_FORBID(Level 1 Forbidden), L2_FORBID(Level 2 Forbidden), L3_FORBID(Level 3 Forbidden), L4_FORBID(Level 4 Forbidden), L5_FORBID(Level 5 Forbidden), L6_FORBID(Level 6 Forbidden), L7_FORBID(Level 7 Forbidden), L8_FORBID(Level 8 Forbidden), L9_FORBID(Level 9 Forbidden)
L0_FORBID, L1_FORBID, L2_FORBID, L3_FORBID, L4_FORBID, L5_FORBID, L6_FORBID, L7_FORBID, L8_FORBID, L9_FORBID
GBFD111003 GBFD110301 GBFD110302
Radio Common Channel Management Location Updating Bit Field IMSI Detach Type
L11_FORBID(Level 11 Forbidden), L12_FORBID(Level 12 Forbidden), L13_FORBID(Level 13 Forbidden), L14_FORBID(Level 14 Forbidden), L15_FORBID(Level 15 Forbidden)
L11_FORBID, L12_FORBID, L13_FORBID, L14_FORBID, L15_FORBID
GBFD110202
Emergency Call Enumeration Service (TS12) Type NO(No), YES(Yes)
GBFD111003 GBFD110301 GBFD110302
NO, YES
GBFD111004
4_Times, 8_Times, 12_Times, 16_Times, 20_Times, 24_Times, 28_Times, 32_Times, 36_Times, 40_Times, Radio Dedicated 44_Times, 48_Times, Channel Enumeration 52_Times, 56_Times, Management Type 60_Times, 64_Times
1920~30720, step: 480
GBFD111101
System Information Sending
NO, YES
Enumeration Type NO(No), YES(Yes)
GBFD114401 GBFD111101
Multi-band Sharing One BSC System Information Sending
Interval Type 0~3
0~3
GBFD112501
TCH Reassignment
Enumeration Type NO(No), YES(Yes)
NO, YES
GBFD115001
Enhanced Multi Level Precedence and Preemption(EM Enumeration LPP) Type NO(No), YES(Yes)
NO, YES
GBFD113721
Robust Air Interface Signalling
Enumeration Type NO(No), YES(Yes)
NO, YES
GBFD113721
Robust Air Interface Signalling
Interval Type 0~7
0~7
GBFD113721
Robust Air Interface Signalling
Enumeration Type NO(No), YES(Yes)
NO, YES
GBFD511002
Access Control Class(ACC)
Enumeration Type NO(No), YES(Yes)
NO, YES
GBFD511002
Access Control Class(ACC)
Interval Type 0~31
0~31
MRFD210301
Configuration Management
Enumeration BYNAME(By Name), Type BYID(By Index)
BYNAME, BYID
MRFD210301
Configuration Management
Interval Type 0~2047
0~2047
MRFD210301
Configuration Management
String Type
1~64 characters
GBFD111004 GBFD111001
Radio Dedicated Channel Management TRX Management Interval Type 0~255
0~255
GBFD111003
Radio Common Channel Management Interval Type 0~255
0~255
GBFD111003
Radio Common Channel Management Interval Type 20~100
20~100
None
GBFD111003
Radio Common Channel Management Interval Type 1~255
1~255
GBFD111003
Radio Common Channel Management Interval Type 0~65535
0~65535
GBFD111705
GSM Flow Control
Enumeration Type NO(No), YES(Yes)
NO, YES
GBFD113701 GBFD111101
Frequency Hopping (RF hopping, baseband hopping) System Information Sending
Enumeration Type NO(No), YES(Yes)
NO, YES
GBFD111003 GBFD111101
Radio Common Channel Management System Information Sending Interval Type 0~19
0~19
GBFD113401 GBFD111101
Half Rate Speech System Information Sending
Enumeration Type NO(No), YES(Yes)
NO, YES
MRFD210301
Configuration Management
Enumeration BYNAME(By Name), Type BYID(By Index)
BYNAME, BYID
MRFD210301
Configuration Management
Interval Type 0~2047
0~2047
MRFD210301
Configuration Management
String Type
1~64 characters
None
GBFD111002
Radio Link Management
Interval Type 1~255
5~1275, step: 5
GBFD111002
Radio Link Management
Interval Type 1~255
5~1275, step: 5
GBFD111002
Radio Link Management
Interval Type 1~255
5~1275, step: 5
GBFD111002
Radio Link Management
Interval Type 1~255
10~2550, step: 10
GBFD111002
Radio Link Management
Interval Type 1~255
10~2550, step: 10
GBFD111002
Radio Link Management
Interval Type 1~255
10~2550, step: 10
GBFD111002
Radio Link Management
Interval Type 1~255
5~1275, step: 5
GBFD111002
Radio Link Management
Enumeration Type OFF(Off), ON(On)
OFF, ON
GBFD111002
Radio Link Management
Interval Type 5~254
5~254
GBFD111002
Radio Link Management
Interval Type 5~254
5~254
GBFD111002
Radio Link Management
Interval Type 5~254
5~254
GBFD111002
Radio Link Management
Interval Type 23~254
23~254
GBFD111002
Radio Link Management
GBFD111002 GBFD110502
Radio Link Management Interval Type 34~254 Assignment and Immediate Enumeration Assignment Type NO(No), YES(Yes)
GBFD110502
Assignment and Immediate Assignment Interval Type 0~254
0~63500, step: 250
GBFD110502
Assignment and Immediate Assignment Interval Type 1~5
1~5
MRFD210301
Configuration Management
Enumeration BYNAME(By Name), Type BYID(By Index)
BYNAME, BYID
MRFD210301
Configuration Management
Interval Type 0~2047
0~2047
MRFD210301
Configuration Management
String Type
1~64 characters
Interval Type 29~254
None
29~254
34~254
NO, YES
GBFD111804
A Interface Protocol Process
R98_or_below(R98 or below), Enumeration R99_or_above(R99 or Type above)
R98_or_below, R99_or_above
GBFD117501 GBFD110801 GBFD110802
Enhanced Measurement Report(EMR) Processing of EnhMeasReport(Enhan Measurement ced Measurement Report Report), Pre-processing ComMeasReport(Com of Measurement Enumeration mon Measurement EnhMeasReport, Report Type Report) ComMeasReport
GBFD114401
Multi-band Sharing One BSC
Interval Type 0~3
0~3
GBFD114301 GBFD114302
GSM/WCDMA Interoperability GSM/TDSCDMA Interoperability
Interval Type 0~15
-98, -94, -90, -86, -82, -78, -74, (always), -78, -74, -70, -66, -62, 58, -54, Positive infinity(never)
GBFD114301 GBFD114302
GSM/WCDMA Interoperability GSM/TDSCDMA Interoperability
Use_Qsearch_I(Use Enumeration Qsearch_I), Type Always(Always)
Use_Qsearch_I, Always
GBFD114301
GSM/WCDMA Interoperability
Interval Type 0~15
Negative infinity, -28~28, step: 4
GBFD114301
GSM/WCDMA Interoperability
GBFD114301 GBFD110801 GBFD110802
GSM/WCDMA Interoperability Processing of Measurement Report Pre-processing of Measurement Enumeration RSCP(RSCP), Report Type EcN0(Ec/N0)
RSCP, EcN0
GBFD114301
GSM/WCDMA Interoperability
0~3
Interval Type 0~15
Interval Type 0~3
-114~-84, step: 2
GBFD114301
GSM/WCDMA Interoperability
Interval Type 0~7
-20, -6, -18, -8, -16, -10, -14, -12
GBFD114301
GBFD114301 GBFD114302 GBFD117501
GSM/WCDMA Interoperability
GSM/WCDMA Interoperability GSM/TDSCDMA Interoperability Enhanced Measurement Report(EMR)
Interval Type 0~7
0~7
Interval Type 0~15
-98, -94, -90, -86, -82, -78, -74, (always), -78, -74, -70, -66, -62, 58, -54, Positive infinity(never)
Enumeration Type NO(No), YES(Yes)
NO, YES
GBFD117501
Enhanced Measurement Report(EMR)
Enumeration Type NO(No), YES(Yes)
NO, YES
GBFD117501
Enhanced Measurement Report(EMR)
ADD0dB(+0dB), Enumeration ADD10dB(+10dB), Type Automatic(Automatic)
ADD0dB, ADD10dB, Automatic
GBFD114301 GBFD114302
GSM/WCDMA Interoperability GSM/TDSCDMA Interoperability
Interval Type 0~15
-98, -94, -90, -86, -82, -78, -74, (always), -78, -74, -70, -66, -62, 58, -54, Positive infinity(never)
GBFD114301 GBFD114302
GSM/WCDMA Interoperability GSM/TDSCDMA Interoperability
Interval Type 0~7
0~42, step: 6
GBFD114301 GBFD114302
GSM/WCDMA Interoperability GSM/TDSCDMA Interoperability
Interval Type 0~7
0~36, Positive infinity, step: 6
GBFD114301 GBFD114302
GSM/WCDMA Interoperability GSM/TDSCDMA Interoperability
Interval Type 0~7
0~42, step: 6
GBFD114301 GBFD114302
GSM/WCDMA Interoperability GSM/TDSCDMA Interoperability
Interval Type 0~7
0~36, Positive infinity, step: 6
GBFD114301
GSM/WCDMA Interoperability
Interval Type 0~7
0~42, step: 6
GBFD114301
GSM/WCDMA Interoperability
Interval Type 0~7
0~36, Positive infinity, step: 6
GBFD114302
GSM/TDSCDMA Interoperability
Interval Type 0~15
Negative infinity, -28~28, step: 4
GBFD114302
GSM/TDSCDMA Interoperability
Interval Type 0~3
0~3
GBFD114302
GSM/TDSCDMA Interoperability
Interval Type 0~7
0~42, step: 6
GBFD114302
GSM/TDSCDMA Interoperability
Interval Type 0~7
0~36, Positive infinity, step: 6
GBFD114302
GSM/TDSCDMA Interoperability
Enumeration Type NO(No), YES(Yes)
NO, YES
GBFD114302
GSM/TDSCDMA Interoperability
Enumeration Type NO(No), YES(Yes)
NO, YES
GBFD114302
GSM/TDSCDMA Interoperability
Enumeration Type NO(No), YES(Yes)
NO, YES
GBFD114323
2G/3G Cell Reselection Based on MS State
BCCHNorm(BCCHNor Enumeration m), Type BCCHExt(BCCHExt)
BCCHNorm, BCCHExt
MRFD210301
Configuration Management
Enumeration BYNAME(By Name), Type BYID(By Index)
BYNAME, BYID
MRFD210301
Configuration Management
Interval Type 0~2047
0~2047
MRFD210301
Configuration Management
String Type
1~64 characters
GBFD111005
Enhanced Channel Assignment Algorithm
Interval Type 0~100
0~100
GBFD111005
Enhanced Channel Assignment Algorithm
Enumeration Type NO(No), YES(Yes)
NO, YES
GBFD111005
Enhanced Channel Assignment Algorithm
Enumeration Type NO(No), YES(Yes)
NO, YES
GBFD111005
Enhanced Channel Assignment Algorithm
Enumeration Type NO(No), YES(Yes)
NO, YES
GBFD111005
Enhanced Channel Assignment Algorithm
Enumeration Type NO(No), YES(Yes)
NO, YES
None
GBFD111005
Enhanced Channel Assignment Algorithm
Enumeration Type NO(No), YES(Yes)
NO, YES
GBFD110601 GBFD510501
HUAWEI I Handover HUAWEI II Handover
Interval Type 0~63
0~63
GBFD110601 GBFD510501
HUAWEI I Handover HUAWEI II Handover
Interval Type 0~70
0~70
GBFD110601 GBFD510501
HUAWEI I Handover HUAWEI II Handover
Interval Type 0~63
0~63
GBFD110601 GBFD510501
HUAWEI I Handover HUAWEI II Handover
Interval Type 0~70
0~70
GBFD110601 GBFD510501
HUAWEI I Handover HUAWEI II Handover
Interval Type 1~32
TCH:480~15360, step:480; SDCCH:470~15040, step:470
GBFD110601 GBFD510501
HUAWEI I Handover HUAWEI II Handover
Interval Type 1~32
TCH:480~15360, step:480; SDCCH:470~15040, step:470
GBFD110601 GBFD510501
HUAWEI I Handover HUAWEI II Handover
Interval Type 1~32
TCH:480~15360, step:480; SDCCH:470~15040, step:470
GBFD110601 GBFD510501
HUAWEI I Handover HUAWEI II Handover
Interval Type 1~32
TCH:480~15360, step:480; SDCCH:470~15040, step:470
GBFD115502
AMR HR
Enumeration Type OFF(Off), ON(On)
OFF, ON
GBFD115502
AMR HR
Interval Type 0~99
0~99
GBFD113201
Concentric Cell
Interval Type 0~100
0~100
GBFD113201
Concentric Cell
Interval Type 0~100
0~100
GBFD113201
Concentric Cell
Enumeration Type NO(No), YES(Yes)
NO, YES
GBFD110601 GBFD510501
HUAWEI I Handover HUAWEI II Handover
Interval Type 1~10
0.1~1, step:0.1
GBFD110601 GBFD510501
HUAWEI I Handover HUAWEI II Handover
Interval Type 1~16
1~16
GBFD110601 GBFD510501
HUAWEI I Handover HUAWEI II Handover
Interval Type 1~16
1~16
GBFD111005
Enhanced Channel Assignment Algorithm
NONE(None), Enumeration DYNAMIC(Dynamic Type power sharing)
NONE, DYNAMIC
GBFD111005
Enhanced Channel Assignment Algorithm
Enumeration Type OFF(Off), ON(On)
ON, OFF
GBFD110601 GBFD510501
HUAWEI I Handover HUAWEI II Handover
Interval Type 1~16
1~16
GBFD110601 GBFD510501
HUAWEI I Handover HUAWEI II Handover
Interval Type 1~16
1~16
GBFD111005
Enhanced Channel Assignment Algorithm
Enumeration Type NO(No), YES(Yes)
NO, YES
GBFD118001
BCCH Dense Frequency Multiplexing
Interval Type 0~63
0~63
GBFD118001
BCCH Dense Frequency Multiplexing
Interval Type 0~7
0~7
GBFD111005
Enhanced Channel Assignment Algorithm
Enumeration Type NO(No), YES(Yes)
NO, YES
GBFD111005
Enhanced Channel Assignment Algorithm
Interval Type 0~100
0~100
GBFD111005
Enhanced Channel Assignment Algorithm
Enumeration Type NO(No), YES(Yes)
NO, YES
GBFD117002
IBCA (Interference Based Channel Allocation)
Enumeration Type NO(No), YES(Yes)
NO, YES
GBFD117002
IBCA (Interference Based Channel Allocation)
Enumeration Type NO(No), YES(Yes)
NO, YES
GBFD117002
IBCA (Interference Based Channel Allocation)
NO(Disabled in OL and UL subcell), UNDER(Enabled in UL subcell), INNER( Enabled in OL subcell), Enumeration YES(Enabled in OL and Type UL subcell) NO, UNDER, INNER, YES
GBFD117002
IBCA (Interference Based Channel Allocation)
Enumeration Type NO(No), YES(Yes)
NO, YES
GBFD117002
IBCA (Interference Based Channel Allocation)
Interval Type 0~23
0~23
GBFD117002
IBCA (Interference Based Channel Allocation)
Interval Type 0~23
0~23
GBFD117002
IBCA (Interference Based Channel Allocation)
Interval Type 0~23
0~23
GBFD117002
IBCA (Interference Based Channel Allocation)
Interval Type 0~23
0~23
GBFD117002
IBCA (Interference Based Channel Allocation)
Interval Type 0~23
0~23
GBFD117002
IBCA (Interference Based Channel Allocation)
Interval Type 0~23
0~23
GBFD117002
IBCA (Interference Based Channel Allocation)
Interval Type 5~40
5~40
GBFD117002
IBCA (Interference Based Channel Allocation)
Interval Type 0~63
0~63
GBFD117002
IBCA (Interference Based Channel Allocation)
Interval Type 0~63
0~63
GBFD117002
IBCA (Interference Based Channel Allocation)
Interval Type 0~160
0~160
GBFD117002
IBCA (Interference Based Channel Allocation)
Interval Type 0~50
0~50
GBFD117002
IBCA (Interference Based Channel Allocation)
Interval Type 1~4
TCH:480~1920, step:480; SDCCH:470~1880, step:470
GBFD117002
IBCA (Interference Based Channel Allocation)
Interval Type 0~100
0~100
GBFD117002
IBCA (Interference Based Channel Allocation)
Interval Type 0~63
0~63
GBFD117002
IBCA (Interference Based Channel Allocation)
Interval Type 0~60
0~60
GBFD117002
IBCA (Interference Based Channel Allocation)
Enumeration Type NO(No), YES(Yes)
NO, YES
GBFD117002
IBCA (Interference Based Channel Allocation)
Interval Type 0~10
0~10
GBFD117002
IBCA (Interference Based Channel Allocation)
Interval Type 0~63
0~63
GBFD117002
IBCA (Interference Based Channel Allocation)
Interval Type 0~16
GBFD117002
IBCA (Interference Based Channel Allocation)
0(Max. optimized Enumeration MAIO), Type 1(Randomization MAIO) 0, 1
GBFD117002
IBCA (Interference Based Channel Allocation)
Interval Type 0~63
0~63
GBFD117002
IBCA (Interference Based Channel Allocation)
Interval Type 0~63
0~63
GBFD117002
IBCA (Interference Based Channel Allocation)
Interval Type 0~63
0~63
GBFD117002
IBCA (Interference Based Channel Allocation)
Interval Type 0~22
0~22
GBFD117002
IBCA (Interference Based Channel Allocation)
Interval Type 0~22
0~22
GBFD113201
Concentric Cell
Enumeration Type OFF(Off), ON(On)
OFF, ON
0~16
GBFD113201
Concentric Cell
Interval Type 0~61
0~61
GBFD113201
Concentric Cell
Interval Type 0~61
0~61
GBFD117002
IBCA (Interference Based Channel Allocation)
Enumeration OFF(Not Allowed), Type ON(Allowed)
OFF, ON
GBFD117002
IBCA (Interference Based Channel Allocation)
Enumeration OFF(Not Allowed), Type ON(Allowed)
OFF, ON
GBFD117002
IBCA (Interference Based Channel Allocation)
Enumeration OFF(Not Allowed), Type ON(Allowed)
OFF, ON
GBFD117002
IBCA (Interference Based Channel Allocation)
Interval Type 0~20
0~10, Step: 0.5
GBFD117002
IBCA (Interference Based Channel Allocation)
Interval Type 0~20
0~10, Step: 0.5
GBFD117002
IBCA (Interference Based Channel Allocation)
Interval Type 0~20
0~10, Step: 0.5
GBFD117002
IBCA (Interference Based Channel Allocation)
Interval Type 0~20
0~10, Step: 0.5
GBFD111005
Enhanced Channel Assignment Algorithm
Interval Type 0~22
0~22
GBFD117002
IBCA (Interference Based Channel Allocation)
Interval Type 0~30
0~30
GBFD117002
IBCA (Interference Based Channel Allocation)
Interval Type 0~63
0~63
GBFD117002
IBCA (Interference Based Channel Allocation)
Interval Type 0~14
0~14
GBFD117002
IBCA (Interference Based Channel Allocation)
Interval Type 0~14
0~14
GBFD117002
IBCA (Interference Based Channel Allocation)
Interval Type 0~31
0~31
GBFD118701
RAN Sharing
OP1(Operator 1), OP2(Operator 2), OP3(Operator 3), Enumeration OP4(Operator 4), Type NONE(Not Shared)
OP1, OP2, OP3, OP4, NONE
GBFD117002
IBCA (Interference Based Channel Allocation)
Interval Type 0~3
0~3
GBFD117002
IBCA (Interference Based Channel Allocation)
Interval Type -23~23
-23~23
HUAWEI I Handover
NODYNPDCH(Not count dynamic PDCH), DYNPDCHASOCCUPY( Count dynamic PDCH(Occupy)), NODYNPDCH, Enumeration DYNPDCHASIDLE(Cou DYNPDCHASOCCUPY, Type nt dynamic PDCH(Idle)) DYNPDCHASIDLE
GBFD110601
MRFD210301
Configuration Management
Enumeration BYNAME(By Name), Type BYID(By Index)
BYNAME, BYID
MRFD210301
Configuration Management
Interval Type 0~2047
0~2047
MRFD210301
Configuration Management
String Type
1~64 characters
GBFD113001
SDCCH Dynamic Adjustment
Interval Type 0~63
0~63
GBFD113001
SDCCH Dynamic Adjustment
Interval Type 0~255
0~255
None
GBFD113001
SDCCH Dynamic Adjustment
Interval Type 60~3600
60~3600
GBFD116001
Resource Reservation
Enumeration Type NO(No), YES(Yes)
NO, YES
GBFD116001
Resource Reservation
Interval Type 1~14
1~14
GBFD116001
Resource Reservation
Interval Type 0~190
0~190
GBFD113402
Dynamic Adjustment Between FR and Enumeration HR Type NO(No), YES(Yes)
NO, YES
GBFD118001
BCCH Dense Frequency Multiplexing
Enumeration Type OFF(Off), ON(On)
GBFD118101
Dynamic Transmit Diversity
NOTSUPPORT(Not Support), Enumeration DDIVERSITY(DDIVERS NOTSUPPORT, DDIVERSITY, Type ITY), DPBT(DPBT) DPBT
GBFD111005
Enhanced Channel Assignment Algorithm
CAPABILITY(Capability preferred), QUALITY(Quality preferred), PSRELATIVELY(PS relatively preferred), CAPABILITY, QUALITY, Enumeration PSABSOLUTELY(PS PSRELATIVELY, Type absolutely preferred) PSABSOLUTELY
GBFD115001
Enhanced Multi Level Precedence and Preemption(EM Enumeration LPP) Type NO(No), YES(Yes)
NO, YES
GBFD115001
Enhanced Multi Level Precedence and Preemption(EM LPP) Interval Type 1~14
1~14
OFF, ON
GBFD111005
Enhanced Channel Assignment Algorithm
Interval Type 0~100
0~100
GBFD111005
Enhanced Channel Assignment Algorithm
Interval Type 0~100
0~100
GBFD110202
Emergency Call Service (TS12) Interval Type 0~190
0~190
GBFD110608 GBFD111005
SDCCH Handover Enhanced Channel Assignment Algorithm
Enumeration Type NO(No), YES(Yes)
NO, YES
GBFD111005
Enhanced Channel Assignment Algorithm
Enumeration Type OFF(Off), ON(On)
OFF, ON
MRFD210301
Configuration Management
Enumeration BYNAME(By Name), Type BYID(By Index)
BYNAME, BYID
MRFD210301
Configuration Management
Interval Type 0~2047
0~2047
MRFD210301
Configuration Management
String Type
1~64 characters
GBFD111610
Dynamic Cell Power Off
DISABLE(Disable), Enumeration ENABLE(Enable), Type SLEEPING(Sleeping)
DISABLE, ENABLE, SLEEPING
GBFD111610
Dynamic Cell Power Off
Enumeration BYNAME(By name), Type BYID(By index)
BYNAME, BYID
GBFD111610
Dynamic Cell Power Off
Interval Type 0~2047
0~2047
GBFD111610
Dynamic Cell Power Off
String Type
1~64 characters
None
None
GBFD111610
Dynamic Cell Power Off
Interval Type 0~100
0~100
GBFD111610
Dynamic Cell Power Off
Interval Type 0~100
0~100
GBFD111610
Dynamic Cell Power Off
Interval Type 0~8
0~8
GBFD111610
Dynamic Cell Power Off
Interval Type 0~255
0~255
GBFD111610
Dynamic Cell Power Off
Interval Type 1~16
1~16
GBFD111610
Dynamic Cell Power Off
Compound Type
hour, min
00:00~23:59
GBFD111610
Dynamic Cell Power Off
Compound Type
hour, min
00:00~23:59
MRFD210301
Configuration Management
Enumeration BYNAME(By Name), Type BYID(By Index)
BYNAME, BYID
MRFD210301
Configuration Management
Interval Type 0~2047
0~2047
MRFD210301
Configuration Management
String Type
1~64 characters
None
GBFD114201
EGPRS
Enumeration Type IR(IR), LA(LA)
IR, LA
GBFD114201
EGPRS
Interval Type 0~10
0~10
GBFD114201 GBFD119106
MCS1(MCS1), MCS2(MCS2), MCS3(MCS3), MCS4(MCS4), MCS5(MCS5), MCS6(MCS6), MCS7(MCS7), MCS8(MCS8), EGPRS Enumeration MCS9(MCS9), Coding Scheme Type UNFIXED(UNFIXED)
MCS1, MCS2, MCS3, MCS4, MCS5, MCS6, MCS7, MCS8, MCS9, UNFIXED
GBFD114201 GBFD119106
MCS1(MCS1), MCS2(MCS2), MCS3(MCS3), MCS4(MCS4), MCS5(MCS5), MCS6(MCS6), MCS7(MCS7), EGPRS Enumeration MCS8(MCS8), Coding Scheme Type MCS9(MCS9)
MCS1, MCS2, MCS3, MCS4, MCS5, MCS6, MCS7, MCS8, MCS9
GBFD114201 GBFD119106
MCS1(MCS1), MCS2(MCS2), MCS3(MCS3), MCS4(MCS4), MCS5(MCS5), MCS6(MCS6), MCS7(MCS7), MCS8(MCS8), EGPRS Enumeration MCS9(MCS9), Coding Scheme Type UNFIXED(UNFIXED)
MCS1, MCS2, MCS3, MCS4, MCS5, MCS6, MCS7, MCS8, MCS9, UNFIXED
GBFD114201 GBFD119106
MCS1(MCS1), MCS2(MCS2), MCS3(MCS3), MCS4(MCS4), MCS5(MCS5), MCS6(MCS6), MCS7(MCS7), EGPRS Enumeration MCS8(MCS8), Coding Scheme Type MCS9(MCS9)
MCS1, MCS2, MCS3, MCS4, MCS5, MCS6, MCS7, MCS8, MCS9
GBFD510803
MCS1(MCS1), MCS2(MCS2), MCS3(MCS3), MCS4(MCS4), MCS5(MCS5), MCS6(MCS6), UAS7(UAS7), UAS8(UAS8), UAS9(UAS9), UAS10(UAS10), Uplink EGPRS2- Enumeration UAS11(UAS11), A Type UNFIXED(UNFIXED)
MCS1, MCS2, MCS3, MCS4, MCS5, MCS6, UAS7, UAS8, UAS9, UAS10, UAS11, UNFIXED
GBFD510803
MCS1(MCS1), MCS2(MCS2), MCS3(MCS3), MCS4(MCS4), MCS5(MCS5), MCS6(MCS6), UAS7(UAS7), UAS8(UAS8), UAS9(UAS9), Uplink EGPRS2- Enumeration UAS10(UAS10), A Type UAS11(UAS11)
MCS1, MCS2, MCS3, MCS4, MCS5, MCS6, UAS7, UAS8, UAS9, UAS10, UAS11
Downlink EGPRS2-A
MCS1(MCS1), MCS2(MCS2), MCS3(MCS3), MCS4(MCS4), MCS7(MCS7), MCS8(MCS8), DAS5(DAS5), DAS6(DAS6), DAS7(DAS7), DAS8(DAS8), DAS9(DAS9), DAS10(DAS10), DAS11(DAS11), Enumeration DAS12(DAS12), Type UNFIXED(UNFIXED)
MCS1, MCS2, MCS3, MCS4, MCS7, MCS8, DAS5, , DAS6, DAS7, DAS8, DAS9, DAS10, DAS11, DAS12, UNFIXED
Downlink EGPRS2-A
MCS1(MCS1), MCS2(MCS2), MCS3(MCS3), MCS4(MCS4), MCS7(MCS7), MCS8(MCS8), DAS5(DAS5), DAS6(DAS6), DAS7(DAS7), DAS8(DAS8), DAS9(DAS9), DAS10(DAS10), Enumeration DAS11(DAS11), Type DAS12(DAS12)
MCS1, MCS2, MCS3, MCS4, MCS7, MCS8, DAS5, , DAS6, DAS7, DAS8, DAS9, DAS10, DAS11, DAS12
GBFD119204
Dynamically Adjusting the Uplink MCS Coding
1(According to downlink quality measurements reported by MS), 2(According to uplink Enumeration quality measurements Type reported by BTS) 1, 2
MRFD210301
Configuration Management
Enumeration BYNAME(By Name), Type BYID(By Index)
BYNAME, BYID
MRFD210301
Configuration Management
Interval Type 0~2047
0~2047
GBFD510804
GBFD510804
MRFD210301
Configuration Management
GBFD110801 GBFD110802
Processing of Measurement Report Pre-processing of Measurement Enumeration Report Type EM0(EM0), EM1(EM1)
EM0, EM1
GBFD110801 GBFD110802
Processing of Measurement Report Pre-processing of Measurement Report Interval Type 0~255
0~255
GBFD110801 GBFD110802
Processing of Measurement Report Pre-processing of Measurement Report Interval Type 0~31
0~31
GBFD110801 GBFD110802
Processing of Measurement Report Pre-processing TYPE1(TYPE1), of Measurement Enumeration TYPE2(TYPE2), Report Type TYPE3(TYPE3)
TYPE1, TYPE2, TYPE3
String Type
None
1~64 characters
GBFD110801 GBFD110802
60sec(60sec), 120sec(120sec), Processing of 240sec(240sec), Measurement 480sec(480sec), Report 960sec(960sec), Pre-processing 1920sec(1920sec), of Measurement Enumeration 3840sec(3840sec), Report Type 7680sec(7680sec)
60sec, 120sec, 240sec, 480sec, 960sec, 1920sec, 3840sec, 7680sec
MRFD210301
Configuration Management
Enumeration BYNAME(By Name), Type BYID(By Index)
BYNAME, BYID
MRFD210301
Configuration Management
Interval Type 0~2047
0~2047
MRFD210301
Configuration Management
String Type
1~64 characters
GBFD110101
Frequency Band Interval Type 0~1023
None
0~1023
GBFD110101
Frequency Band Interval Type 0~1023
0~1023
GBFD110101
Frequency Band Interval Type 0~1023
0~1023
GBFD110101
Frequency Band Interval Type 0~1023
0~1023
GBFD110101
Frequency Band Interval Type 0~1023
0~1023
GBFD110101
Frequency Band Interval Type 0~1023
0~1023
GBFD110101
Frequency Band Interval Type 0~1023
0~1023
GBFD110101
Frequency Band Interval Type 0~1023
0~1023
GBFD110101
Frequency Band Interval Type 0~1023
0~1023
GBFD110101
Frequency Band Interval Type 0~1023
0~1023
GBFD110101
Frequency Band Interval Type 0~1023
0~1023
GBFD110101
Frequency Band Interval Type 0~1023
0~1023
GBFD110101
Frequency Band Interval Type 0~1023
0~1023
GBFD110101
Frequency Band Interval Type 0~1023
0~1023
GBFD110101
Frequency Band Interval Type 0~1023
0~1023
GBFD110101
Frequency Band Interval Type 0~1023
0~1023
GBFD110101
Frequency Band Interval Type 0~1023
0~1023
GBFD110101
Frequency Band Interval Type 0~1023
0~1023
GBFD110101
Frequency Band Interval Type 0~1023
0~1023
GBFD110101
Frequency Band Interval Type 0~1023
0~1023
GBFD110101
Frequency Band Interval Type 0~1023
0~1023
GBFD110101
Frequency Band Interval Type 0~1023
0~1023
GBFD110101
Frequency Band Interval Type 0~1023
0~1023
GBFD110101
Frequency Band Interval Type 0~1023
0~1023
GBFD110101
Frequency Band Interval Type 0~1023
0~1023
GBFD110101
Frequency Band Interval Type 0~1023
0~1023
GBFD110101
Frequency Band Interval Type 0~1023
0~1023
GBFD110101
Frequency Band Interval Type 0~1023
0~1023
GBFD110101
Frequency Band Interval Type 0~1023
0~1023
GBFD110101
Frequency Band Interval Type 0~1023
0~1023
GBFD110101
Frequency Band Interval Type 0~1023
0~1023
GBFD110101
Frequency Band Interval Type 0~1023
0~1023
GBFD110101
Frequency Band Interval Type 0~1023
0~1023
GBFD110101
Frequency Band Interval Type 0~1023
0~1023
GBFD110101
Frequency Band Interval Type 0~1023
0~1023
GBFD110101
Frequency Band Interval Type 0~1023
0~1023
GBFD110101
Frequency Band Interval Type 0~1023
0~1023
GBFD110101
Frequency Band Interval Type 0~1023
0~1023
GBFD110101
Frequency Band Interval Type 0~1023
0~1023
GBFD110101
Frequency Band Interval Type 0~1023
0~1023
GBFD110101
Frequency Band Interval Type 0~1023
0~1023
GBFD110101
Frequency Band Interval Type 0~1023
0~1023
GBFD110101
Frequency Band Interval Type 0~1023
0~1023
GBFD110101
Frequency Band Interval Type 0~1023
0~1023
GBFD110101
Frequency Band Interval Type 0~1023
0~1023
GBFD110101
Frequency Band Interval Type 0~1023
0~1023
GBFD110101
Frequency Band Interval Type 0~1023
0~1023
GBFD110101
Frequency Band Interval Type 0~1023
0~1023
GBFD110101
Frequency Band Interval Type 0~1023
0~1023
GBFD110101
Frequency Band Interval Type 0~1023
0~1023
GBFD110101
Frequency Band Interval Type 0~1023
0~1023
GBFD110101
Frequency Band Interval Type 0~1023
0~1023
GBFD110101
Frequency Band Interval Type 0~1023
0~1023
GBFD110101
Frequency Band Interval Type 0~1023
0~1023
GBFD110101
Frequency Band Interval Type 0~1023
0~1023
GBFD110101
Frequency Band Interval Type 0~1023
0~1023
GBFD110101
Frequency Band Interval Type 0~1023
0~1023
GBFD110101
Frequency Band Interval Type 0~1023
0~1023
GBFD110101
Frequency Band Interval Type 0~1023
0~1023
GBFD110101
Frequency Band Interval Type 0~1023
0~1023
GBFD110101
Frequency Band Interval Type 0~1023
0~1023
GBFD110101
Frequency Band Interval Type 0~1023
0~1023
GBFD110101
Frequency Band Interval Type 0~1023
0~1023
GBFD110101
Frequency Band Interval Type 0~1023
0~1023
GBFD111202
O&M of BTS
Enumeration BYNAME(By Name), Type BYID(By Index)
BYNAME, BYID
MRFD210301
Configuration Management
Interval Type 0~2047
0~2047
MRFD210301
Configuration Management
String Type
None
1~64 characters
GBFD112401
Cell Frequency Scan
Compound Type
hour, min, sec
00:00:00~23:59:59
GBFD112401
Cell Frequency Scan
Interval Type 0, 5~1440
0, 5~1440
GBFD112401
Cell Frequency Scan
Interval Type 0~1023
0~1023
MRFD210301
Configuration Management
Enumeration BYNAME(By Name), Type BYID(By Index)
BYNAME, BYID
MRFD210301
Configuration Management
Interval Type 0~2047
0~2047
MRFD210301
Configuration Management
String Type
1~64 characters
GBFD111101 GBFD114101
System Information Sending GPRS
NO(Not support), SupportAsInnPcu(Supp ort as built-in PCU), Enumeration SupportAsExtPcu(Supp NO, SupportAsInnPcu, Type ort as external Pcu) SupportAsExtPcu
GBFD114201
EGPRS
Enumeration Type NO(No), YES(Yes)
NO, YES
GBFD510803 GBFD510804
Uplink EGPRS2A Downlink Enumeration EGPRS2-A Type NO(No), YES(Yes)
NO, YES
GBFD114101
GPRS
0~31
None
Interval Type 0~31
GBFD116301 GBFD119502
Network Assisted Cell Change (NACC) Enumeration PS Handover Type NO(No), YES(Yes)
NO, YES
GBFD119801
Enumeration Packet SI Status Type NO(No), YES(Yes)
NO, YES
GBFD116201 GBFD119502
NetworkControlled Cell Reselection (NC2) PS Handover
Enumeration Type NO(No), YES(Yes)
NO, YES
GBFD116201 GBFD116301
NetworkControlled Cell Reselection (NC2) Network Assisted Cell Enumeration Change (NACC) Type NO(No), YES(Yes)
NO, YES
GBFD114101
GPRS
0~255
Interval Type 0~255
GBFD114151
GBFD114151
GBFD119403
DTM
UNSUPPORT(Not Enumeration Support), Type SUPPORT(Support)
UNSUPPORT, SUPPORT
DTM
UNSUPPORT(Not Enumeration Support), Type SUPPORT(Support)
UNSUPPORT, SUPPORT
Class11 DTM
UNSUPPORT(Not Enumeration Support), Type SUPPORT(Support)
UNSUPPORT, SUPPORT
GBFD510802
UNSUPPORT(Not Enumeration Support), HMC DTM Type SUPPORT(Support) UNSUPPORT(Not Dual Carriers in Enumeration Support), Downlink Type SUPPORT(Support)
GBFD510805
Latency Reduction
GBFD119404
UNSUPPORT(Not Enumeration Support), Type SUPPORT(Support)
UNSUPPORT, SUPPORT
UNSUPPORT, SUPPORT
UNSUPPORT, SUPPORT
PS Handover
UNSUPPORT(Not Enumeration Support), Type SUPPORT(Support)
UNSUPPORT, SUPPORT
GBFD119502
PS Handover
UNSUPPORT(Not Enumeration Support), Type SUPPORT(Support)
UNSUPPORT, SUPPORT
GBFD511301 GBFD511302 GBFD511303 GBFD511304 GBFD511305 GBFD511306
Cell Reselection Between GSM and LTE PS Handover Between GSM and LTE Based on Coverage PS Handover Between GSM and LTE Based on Quality PS Handover Between GSM and LTE Based on Cell Load PS Handover Between GSM and LTE Based on Mode Priority GSM/LTE UNSUPPORT(Not Service Based Enumeration Support), PS Handover Type SUPPORT(Support)
UNSUPPORT, SUPPORT
GBFD119502
GBFD511301 GBFD511302 GBFD511303 GBFD511304 GBFD511305 GBFD511306
Cell Reselection Between GSM and LTE PS Handover Between GSM and LTE Based on Coverage PS Handover Between GSM and LTE Based on Quality PS Handover Between GSM and LTE Based on Cell Load PS Handover Between GSM and LTE Based on Mode Priority GSM/LTE UNSUPPORT(Not Service Based Enumeration Support), PS Handover Type SUPPORT(Support)
UNSUPPORT, SUPPORT
UNSUPPORT, SUPPORT
None
None
UNSUPPORT(Not Enumeration Support), Type SUPPORT(Support)
MRFD210301
Configuration Management
Enumeration BYNAME(By Name), Type BYID(By Index)
BYNAME, BYID
MRFD210301
Configuration Management
Interval Type 0~2047
0~2047
MRFD210301
Configuration Management
String Type
1~64 characters
GBFD510301 GBFD510302
Public Voice Group Call Service Public Voice Broadcast Service
Interval Type 0~7
None
0~7
GBFD510301 GBFD510302
Public Voice Group Call Service Public Voice Broadcast Service
Interval Type 0~7
0~7
GBFD510307
Group Call EMLPP
Enumeration Type NO(No), YES(Yes)
NO, YES
GBFD510307
Group Call EMLPP
Enumeration Type NO(No), YES(Yes)
NO, YES
Group Call EMLPP
NoPriority(No Priority), Priority4(Priority 4), Priority3(Priority3), Priority2(Priority 2), Priority1(Priority 1), Priority0(Priority 0), Enumeration PriorityB(Priority B), Type PriorityA(Priority A)
NoPriority, Priority4, Priority3, Priority2, Priority1, Priority0, PriorityB, PriorityA
GBFD510307
Group Call EMLPP
NoPriority(No Priority), Priority4(Priority 4), Priority3(Priority3), Priority2(Priority 2), Priority1(Priority 1), Priority0(Priority 0), Enumeration PriorityB(Priority B), Type PriorityA(Priority A)
NoPriority, Priority4, Priority3, Priority2, Priority1, Priority0, PriorityB, PriorityA
GBFD510301 GBFD510302
Public Voice Group Call Service Public Voice Broadcast Service
Interval Type 1~255
1~255
GBFD510301 GBFD510302
Public Voice Group Call Service Public Voice Broadcast Service
Interval Type 0~255
0~255
GBFD510307
GBFD510301
Public Voice Group Call Service
Enumeration Type NO(No), YES(Yes)
NO, YES
GBFD510301 GBFD510302
Public Voice Group Call Service Public Voice Broadcast Service
Interval Type 0~255
0~12750, step: 50
GBFD510301 GBFD510302
Public Voice Group Call Service Public Voice Broadcast Service
Interval Type 1~255
1~255
GBFD510301 GBFD510302
Public Voice Group Call Service Public Voice Broadcast Service
Interval Type 1~255
10~2550, step: 10
Interval Type 0~255
0~255
Interval Type 1~255
1~255
Interval Type 1~255
1~255
Enumeration Type NO(No), YES(Yes)
NO, YES
GBFD510306
GBFD510301
Talker Identification Public Voice Broadcast Service Public Voice Group Call Service
GBFD510307
Group Call EMLPP
GBFD510302
GBFD510301 GBFD510302
Public Voice Group Call Service Public Voice Broadcast Service
Enumeration Type NO(No), YES(Yes)
NO, YES
GBFD510301 GBFD510302
Public Voice Group Call Service Public Voice Broadcast Service
Interval Type 0~64
0~64
GBFD510307
Group Call EMLPP
NoPriority(No Priority), Priority4(Priority 4), Priority3(Priority3), Priority2(Priority 2), Priority1(Priority 1), Priority0(Priority 0), Enumeration PriorityB(Priority B), Type PriorityA(Priority A)
NoPriority, Priority4, Priority3, Priority2, Priority1, Priority0, PriorityB, PriorityA
GBFD510301 GBFD510302
Public Voice Group Call Service Public Voice Broadcast Service
Interval Type 0~190
0~190
GBFD510301 GBFD510302
Public Voice Group Call Service Public Voice Broadcast Service
Interval Type 0~190, 255
0~190, 255
GBFD510307
Group Call EMLPP
No_Priority(No Priority), Public_Network_First(P ublic Network First), No_Priority, Enumeration VGCS_First(VGCS Public_Network_First, Type First) VGCS_First
MRFD210301
Configuration Management
Enumeration BYNAME(By Name), Type BYID(By Index)
BYNAME, BYID
MRFD210301
Configuration Management
Interval Type 0~2047
0~2047
MRFD210301
Configuration Management
String Type
MRFD210301
Configuration Management
Enumeration AUTO(Auto), Type MANU(Manu)
AUTO, MANU
MRFD210301
Configuration Management
Interval Type 1~64
1~64
MRFD210301
Configuration Management
Enumeration TRUE(Support), Type FALSE(Not Support)
TRUE, FALSE
MRFD210301
Configuration Management
Interval Type 0~1023
0~1023
MRFD210301
Configuration Management
Enumeration BYNAME(By Name), Type BYID(By Index)
BYNAME, BYID
MRFD210301
Configuration Management
Interval Type 0~2047
0~2047
MRFD210301
Configuration Management
String Type
1~64 characters
None
None
1~64 characters
GBFD110601 GBFD510501
HUAWEI I Handover HUAWEI II Handover
Interval Type 0, 8~11
0, 8~11
GBFD110601 GBFD510501
HUAWEI I Handover HUAWEI II Handover
Interval Type 0~100
0~100
GBFD110601 GBFD510501
HUAWEI I Handover HUAWEI II Handover
Interval Type 0~100
0~100
GBFD110601 GBFD510501
HUAWEI I Handover HUAWEI II Handover
Interval Type 0~63
0~63
GBFD110601 GBFD510501
HUAWEI I Handover HUAWEI II Handover
Interval Type 1~255
1~255
GBFD110601 GBFD510501
HUAWEI I Handover HUAWEI II Handover
Interval Type 1~63
1~63
GBFD110601 GBFD510501
HUAWEI I Handover HUAWEI II Handover
Interval Type 1~10
1~10
GBFD110601 GBFD510501
HUAWEI I Handover HUAWEI II Handover
Interval Type 1~10
1~10
GBFD110601 GBFD510501
HUAWEI I Handover HUAWEI II Handover
Interval Type 0~255
0~255
GBFD110601 GBFD510501
HUAWEI I Handover HUAWEI II Handover
Interval Type 1~20
1~20
GBFD110601 GBFD510501
HUAWEI I Handover HUAWEI II Handover
Interval Type 1~200
1~200
GBFD110601 GBFD510501
HUAWEI I Handover HUAWEI II Handover
Interval Type 1~200
1~200
GBFD110601 GBFD510501
HUAWEI I Handover HUAWEI II Handover
Interval Type 0~63
0~63
GBFD110601 GBFD510501
HUAWEI I Handover HUAWEI II Handover
Interval Type 0~255
0~255
GBFD110601 GBFD510501
HUAWEI I Handover HUAWEI II Handover
Interval Type 0~63
0~63
GBFD118001
BCCH Dense Frequency Multiplexing
Interval Type 0~7
0~7
GBFD118001
BCCH Dense Frequency Multiplexing
Interval Type 0~100
0~100
GBFD110601 GBFD510501
HUAWEI I Handover HUAWEI II Handover
Interval Type 1~255
1~255
GBFD110601 GBFD510501
HUAWEI I Handover HUAWEI II Handover
Interval Type 0~255
0~2550, step:10
GBFD110601 GBFD510501
HUAWEI I Handover HUAWEI II Handover
Enumeration Type NO(No), YES(Yes)
NO, YES
GBFD110502
Assignment and Immediate Enumeration Assignment Type OFF(Off), ON(On)
OFF, ON
GBFD110502
Assignment and Immediate Assignment Interval Type 0~100
0~10, step:0.1
GBFD110502
Assignment and Immediate Enumeration Assignment Type OFF(Off), ON(On)
OFF, ON
GBFD110502
Assignment and Immediate Assignment Interval Type 10~80
1~8, step:0.1
GBFD110502
Assignment and Immediate Assignment Interval Type 0~70
0~70
GBFD110502
Assignment and Immediate Assignment Interval Type 0~70
0~70
GBFD110601
HUAWEI I Handover
YES, NO
Enumeration Type NO(NO), YES(YES)
GBFD110601
HUAWEI I Handover
Interval Type 0~100
0~100
GBFD110601
HUAWEI I Handover
Interval Type 1~16
1~16
MRFD210301
Configuration Management
Enumeration BYNAME(By Name), Type BYID(By Index)
BYNAME, BYID
MRFD210301
Configuration Management
Interval Type 0~2047
0~2047
MRFD210301
Configuration Management
String Type
1~64 characters
GBFD110601
HUAWEI I Handover
HOALGORITHM1(Hand over algorithm I), Enumeration HOALGORITHM2(Hand HOALGORITHM1, Type over algorithm II) HOALGORITHM2
GBFD110601 GBFD510501
HUAWEI I Handover HUAWEI II Handover
Enumeration Type NO(No), YES(Yes)
NO, YES
GBFD110601 GBFD510501
HUAWEI I Handover HUAWEI II Handover
Enumeration Type NO(No), YES(Yes)
NO, YES
None
GBFD110601 GBFD510501
HUAWEI I Handover HUAWEI II Handover
Enumeration Type NO(No), YES(Yes)
NO, YES
GBFD115504
AMR FR/HR Dynamic Adjustment
Enumeration Type NO(No), YES(Yes)
NO, YES
GBFD110601 GBFD510501
HUAWEI I Handover HUAWEI II Handover
Enumeration Type NO(No), YES(Yes)
NO, YES
GBFD110601 GBFD510501
HUAWEI I Handover HUAWEI II Handover
Enumeration Type NO(No), YES(Yes)
NO, YES
GBFD110601 GBFD510501
HUAWEI I Handover HUAWEI II Handover
Enumeration Type NO(No), YES(Yes)
NO, YES
GBFD110601
HUAWEI I Handover
Enumeration Type NO(No), YES(Yes)
NO, YES
GBFD110601 GBFD510501
HUAWEI I Handover HUAWEI II Handover
Enumeration Type NO(No), YES(Yes)
NO, YES
GBFD110601 GBFD510501
HUAWEI I Handover HUAWEI II Handover
Enumeration Type NO(No), YES(Yes)
NO, YES
GBFD110601 GBFD510501
HUAWEI I Handover HUAWEI II Handover
Enumeration Type NO(No), YES(Yes)
NO, YES
GBFD110601 GBFD510501
HUAWEI I Handover HUAWEI II Handover
Enumeration Type NO(No), YES(Yes)
NO, YES
GBFD110601 GBFD510501
HUAWEI I Handover HUAWEI II Handover
Enumeration Type NO(No), YES(Yes)
NO, YES
GBFD110601 GBFD510501
HUAWEI I Handover HUAWEI II Handover
Enumeration Type NO(No), YES(Yes)
NO, YES
GBFD110601 GBFD510501
HUAWEI I Handover HUAWEI II Handover
Interval Type 0~63
0~63
GBFD110601 GBFD510501
HUAWEI I Handover HUAWEI II Handover
Interval Type 0~63
0~63
GBFD510501
HUAWEI II Handover
Interval Type 1~32
0.5~16, step:0.5
GBFD510501
HUAWEI II Handover
Interval Type 1~32
0.5~16, step:0.5
GBFD115504
AMR FR/HR Dynamic Adjustment
Interval Type 1~32
0.5~16, step:0.5
GBFD115504
AMR FR/HR Dynamic Adjustment
Interval Type 1~32
0.5~16, step:0.5
GBFD115504
AMR FR/HR Dynamic Adjustment
Interval Type 0~39
0~39
GBFD115504
AMR FR/HR Dynamic Adjustment
Interval Type 0~39
0~39
GBFD110601 GBFD510501
HUAWEI I Handover HUAWEI II Handover
Interval Type 0~63
0~63
GBFD110601 GBFD510501
HUAWEI I Handover HUAWEI II Handover
Interval Type 0~63
0~63
GBFD110601 GBFD510501
HUAWEI I Handover HUAWEI II Handover
Interval Type 0~63
0~63
GBFD110601 GBFD510501
HUAWEI I Handover HUAWEI II Handover
Interval Type 0~63
0~63
GBFD118001
BCCH Dense Frequency Multiplexing
Interval Type 1~32
0.5~16, step:0.5
GBFD118001
BCCH Dense Frequency Multiplexing
Interval Type 1~32
0.5~16, step:0.5
GBFD510102
Fast Move Handover
Enumeration Type NO(No), YES(Yes)
NO, YES
GBFD113201
Concentric Cell
Enumeration Type NO(Close), YES(Open) NO, YES
GBFD510501
HUAWEI II Handover
Interval Type 1~16
0.5~8, step:0.5
GBFD510501
HUAWEI II Handover
Interval Type 1~16
0.5~8, step:0.5
GBFD510501
HUAWEI II Handover
Enumeration Type NO(No), YES(Yes)
NO, YES
GBFD510501
HUAWEI II Handover
Enumeration Type NO(No), YES(Yes)
NO, YES
GBFD510501
HUAWEI II Handover
Interval Type 0~100
0~100
GBFD510501
HUAWEI II Handover
Interval Type 0~600
0~600
GBFD510501
HUAWEI II Handover
Interval Type 0~600
0~600
GBFD510501
HUAWEI II Handover
Interval Type 0~255
0~255
GBFD510501
HUAWEI II Handover
Interval Type 0~255
0~255
GBFD510501
HUAWEI II Handover
Interval Type 0~255
0~255
GBFD510501
HUAWEI II Handover
Interval Type 0~255
0~255
GBFD510501
HUAWEI II Handover
Interval Type 0~255
0~255
GBFD510501
HUAWEI II Handover
Interval Type 0~255
0~255
GBFD510501
HUAWEI II Handover
Interval Type 0~7
0~7
GBFD510501
HUAWEI II Handover
Interval Type 1~32
0.5~16, step:0.5
GBFD510501
HUAWEI II Handover
Interval Type 1~32
0.5~16, step:0.5
GBFD510501
HUAWEI II Handover
Interval Type 0~100
0~100
GBFD510501
HUAWEI II Handover
Enumeration Type NO(No), YES(Yes)
NO, YES
GBFD510501
HUAWEI II Handover
Interval Type 0~600
0~600
GBFD510501
HUAWEI II Handover
Interval Type 0~255
0~255
GBFD510501
HUAWEI II Handover
Interval Type 0~255
0~255
GBFD510501
HUAWEI II Handover
Interval Type 0~255
0~255
GBFD510501
HUAWEI II Handover
Interval Type 0~255
0~255
GBFD510501
HUAWEI II Handover
Interval Type 0~7
0~7
GBFD510501
HUAWEI II Handover
Interval Type 1~32
0.5~16, step:0.5
GBFD510501
HUAWEI II Handover
Interval Type 1~32
0.5~16, step:0.5
GBFD510501
HUAWEI II Handover
Enumeration Type NO(No), YES(Yes)
NO, YES
GBFD510501
HUAWEI II Handover
Interval Type 0~100
0~100
GBFD510501
HUAWEI II Handover
Interval Type 0~255
0~255
GBFD510501
HUAWEI II Handover
Interval Type 0~255
0~255
GBFD510501
HUAWEI II Handover
Interval Type 0~255
0~255
GBFD510501
HUAWEI II Handover
Interval Type 0~255
0~255
GBFD510501
HUAWEI II Handover
Interval Type 0~7
0~7
GBFD510501
HUAWEI II Handover
Interval Type 0~100
0~100
GBFD510501
HUAWEI II Handover
Enumeration Type NO(No), YES(Yes)
NO, YES
GBFD510501
HUAWEI II Handover
Interval Type 0~255
0~255
GBFD510501
HUAWEI II Handover
Interval Type 0~255
0~255
GBFD510501
HUAWEI II Handover
Interval Type 0~7
0~7
GBFD114301 GBFD114302
GSM/WCDMA Interoperability GSM/TDSCDMA Interoperability
Enumeration Type NO(No), YES(Yes)
NO, YES
GBFD114301 GBFD114302
GSM/WCDMA Interoperability GSM/TDSCDMA Interoperability
Enumeration Type NO(No), YES(Yes)
NO, YES
GBFD511103
GSM and UMTS Load Balancing Enumeration Based on Iur-g Type NO(No), YES(Yes)
NO, YES
GBFD511104
GSM and UMTS Load Balancing Based on Iur-g GSM and UMTS Traffic Steering Based on Iur-g
GBFD510501
HUAWEI II Handover
Enumeration Type NO(No), YES(Yes)
NO, YES
GBFD110601
HUAWEI I Handover
Interval Type 1~32
0.5~16, step:0.5
GBFD511103
Enumeration Type NO(No), YES(Yes)
NO, YES
Enumeration Type NO(No), YES(Yes)
NO, YES
GBFD110601 GBFD511301
HUAWEI I Handover Interval Type 1~32 Cell Reselection Between GSM Enumeration and LTE Type NO(No), YES(Yes)
GBFD511301
Cell Reselection Between GSM Enumeration and LTE Type NO(No), YES(Yes)
NO, YES
GBFD511301
Cell Reselection Between GSM and LTE String Type
None
3 digits
GBFD511301
Cell Reselection Between GSM and LTE String Type
None
3 digits
GBFD511301
Cell Reselection Between GSM and LTE Interval Type 1~65533, 65535
0.5~16, step:0.5
NO, YES
1~65533, 65535
GBFD511301
Cell Reselection Between GSM and LTE Interval Type 0~65535
0~65535
MRFD210301
Configuration Management
Enumeration BYNAME(By Name), Type BYID(By Index)
BYNAME, BYID
MRFD210301
Configuration Management
Interval Type 0~2047
0~2047
MRFD210301
Configuration Management
String Type
1~64 characters
GBFD110601 GBFD510501
HUAWEI I Handover HUAWEI II Handover
Interval Type 0~60
0~60
GBFD110601 GBFD510501
HUAWEI I Handover HUAWEI II Handover
Interval Type 0~60
0~60
GBFD110601 GBFD510501
HUAWEI I Handover HUAWEI II Handover
Interval Type 0~60
0~60
None
GBFD110601 GBFD510501
HUAWEI I Handover HUAWEI II Handover
Interval Type 0~60
0~60
GBFD110608
SDCCH Handover
Enumeration Type NO(No), YES(Yes)
NO, YES
GBFD110601 GBFD510501
HUAWEI I Handover HUAWEI II Handover
Enumeration Type NO(No), YES(Yes)
NO, YES
GBFD110802
BSC_Preprocessing(BS Pre-processing C preprocessing), of Measurement Enumeration BTS_Preprocessing(BT BSC_Preprocessing, Report Type S preprocessing) BTS_Preprocessing
GBFD110802
Pre-processing of Measurement Enumeration Report Type NO(No), YES(Yes)
NO, YES
GBFD110802
Pre-processing of Measurement Enumeration Report Type NO(No), YES(Yes)
NO, YES
GBFD110802
NOreport(Do not report), Twice_ps(Twice every second), Once_ps(Once every second), Once_2s(Once every Pre-processing two second), of Measurement Enumeration Once_4s(Once every NOreport, Twice_ps, Once_ps, Report Type four second) Once_2s, Once_4s
GBFD110607
Direct Retry
Interval Type 0~63
0~63
MRFD210301
Configuration Management
Enumeration BYNAME(By Name), Type BYID(By Index)
BYNAME, BYID
MRFD210301
Configuration Management
Interval Type 0~2047
0~2047
MRFD210301
Configuration Management
GBFD114402
Enhanced DualBand Network Interval Type 0~100
0~100
GBFD114402
Enhanced Dual- Enumeration Band Network Type NO(No), YES(Yes)
NO, YES
GBFD114402
Enhanced Dual- Enumeration Band Network Type NO(No), YES(Yes)
NO, YES
GBFD114402
Enhanced DualBand Network Interval Type 0~100
0~100
GBFD114402
Enhanced DualBand Network Interval Type 0~100
0~100
String Type
None
1~64 characters
GBFD114402
Enhanced DualBand Network Interval Type 0~11
0~11
GBFD114402
Enhanced DualBand Network Interval Type 0~63
0~63
GBFD114402
Enhanced DualBand Network Interval Type 0~63
0~63
GBFD114402
Enhanced Dual- Enumeration Band Network Type NO(No), YES(Yes)
NO, YES
GBFD114402
Enhanced DualBand Network Interval Type 1~255
1~255
GBFD114402
Enhanced DualBand Network Interval Type 0~63
0~63
GBFD114402
Enhanced DualBand Network Interval Type 1~255
1~255
GBFD114402
Enhanced Dual- Enumeration Band Network Type NO(No), YES(Yes)
NO, YES
GBFD114402
Enhanced DualBand Network Interval Type 1~255
1~255
GBFD114402
Enhanced DualBand Network Interval Type 0~63
0~63
GBFD114402
Enhanced DualBand Network Interval Type 0~63
0~63
GBFD114402
Enhanced DualBand Network Interval Type 0~63
0~63
GBFD114402
Enhanced DualBand Network Interval Type 0~255
0~255
GBFD114402
Enhanced DualBand Network Interval Type 1~255
1~255
GBFD114402
Enhanced DualBand Network Interval Type 1~255
1~255
GBFD114402
Enhanced Dual- Enumeration Band Network Type NO(No), YES(Yes)
NO, YES
GBFD114402
Enhanced DualBand Network Interval Type 0~100
0~100
MRFD210301
Configuration Management
Enumeration BYNAME(By Name), Type BYID(By Index)
BYNAME, BYID
MRFD210301
Configuration Management
Interval Type 0~2047
0~2047
MRFD210301
Configuration Management
String Type
1~64 characters
GBFD110601
HUAWEI I Handover
HOALGORITHM1(Hand over algorithm I), Enumeration HOALGORITHM2(Hand HOALGORITHM1, Type over algorithm II) HOALGORITHM2
GBFD110601 GBFD510501
HUAWEI I Handover HUAWEI II Handover
Interval Type 0~255
None
0~255
GBFD110601 GBFD510501
HUAWEI I Handover HUAWEI II Handover
Interval Type 0~70
0~70
GBFD110601 GBFD510501
HUAWEI I Handover HUAWEI II Handover
Interval Type 0~70
0~70
GBFD110601
HUAWEI I Handover
Interval Type 0~20
0~20
GBFD110601
HUAWEI I Handover
Interval Type 0~20
0~20
GBFD110601
HUAWEI I Handover
Interval Type 0~20
0~20
GBFD110601
HUAWEI I Handover
Interval Type 0~20
0~20
GBFD110601
HUAWEI I Handover
Interval Type 0~20
0~20
GBFD110601
HUAWEI I Handover
Interval Type 0~20
0~20
GBFD110601
HUAWEI I Handover
Interval Type 0~20
0~20
GBFD110601
HUAWEI I Handover
Interval Type 0~20
0~20
GBFD110601
HUAWEI I Handover
Interval Type 0~200
0~200
GBFD110601 GBFD510501
HUAWEI I Handover HUAWEI II Handover
Enumeration Type NO(No), YES(Yes)
NO, YES
GBFD110601 GBFD510501
HUAWEI I Handover HUAWEI II Handover
Interval Type 0~70
0~70
GBFD110601 GBFD510501
HUAWEI I Handover HUAWEI II Handover
Interval Type 0~64
0~64
MRFD210301
Configuration Management
Enumeration BYNAME(By Name), Type BYID(By Index)
BYNAME, BYID
MRFD210301
Configuration Management
Interval Type 0~2047
0~2047
MRFD210301
Configuration Management
String Type
1~64 characters
GBFD510102
Fast Move Handover
Interval Type 0~63
0~63
GBFD510102
Fast Move Handover
Interval Type 0~63
0~63
GBFD510102
Fast Move Handover
Interval Type 0~600
0~600
None
GBFD510102
Fast Move Handover
Interval Type 1~20
TCH:480~9600, step:480; SDCCH:470~9400, step:470
GBFD510102
Fast Move Handover
Interval Type 1~20
TCH:480~9600, step:480; SDCCH:470~9400, step:470
GBFD510102
Fast Move Handover
Interval Type 0~32
0~32
GBFD110601 GBFD510501
HUAWEI I Handover HUAWEI II Handover
Interval Type 0~255
0~255
GBFD110601 GBFD510501
HUAWEI I Handover HUAWEI II Handover
Interval Type 0~63
0~63
GBFD110601 GBFD510501
HUAWEI I Handover HUAWEI II Handover
Interval Type 0~127
0~127
GBFD510102
Fast Move Handover
Enumeration Type NO(No), YES(Yes)
NO, YES
GBFD510103
Chain Cell Handover
Enumeration Type NO(No), YES(Yes)
NO, YES
GBFD510103
Chain Cell Handover
Interval Type 0~16
0~16
GBFD510103
Chain Cell Handover
Interval Type 0~16
0~16
GBFD510102
Fast Move Handover
Interval Type 1~32
0.5~16, step:0.5
GBFD510102
Fast Move Handover
Interval Type 1~32
0.5~16, step:0.5
MRFD210301
Configuration Management
Enumeration BYNAME(By Name), Type BYID(By Index)
BYNAME, BYID
MRFD210301
Configuration Management
Interval Type 0~2047
0~2047
MRFD210301
Configuration Management
String Type
MRFD210301
Configuration Management
Enumeration AUTO(Auto), Type MANU(Manu)
AUTO, MANU
MRFD210301
Configuration Management
Interval Type 1~64
1~64
MRFD210301
Configuration Management
Enumeration TRUE(Support), Type FALSE(Not Support)
TRUE, FALSE
GBFD114301 GBFD114302
GSM/WCDMA Interoperability GSM/TDSCDMA Interoperability
Interval Type 0~16383
0~16383
GBFD114301 GBFD114302
GSM/WCDMA Interoperability GSM/TDSCDMA Interoperability
Interval Type 0~511
0~511
GBFD114301
GSM/WCDMA Interoperability
Enumeration Type NO(No), YES(Yes)
NO, YES
MRFD210301
Configuration Management
Enumeration BYNAME(By Name), Type BYID(By Index)
BYNAME, BYID
MRFD210301
Configuration Management
Interval Type 0~2047
0~2047
None
1~64 characters
MRFD210301
Configuration Management
String Type
GBFD110601
HUAWEI I Handover
HOALGORITHM1(Hand over algorithm I), Enumeration HOALGORITHM2(Hand HOALGORITHM1, Type over algorithm II) HOALGORITHM2
GBFD110601 GBFD510501
HUAWEI I Handover HUAWEI II Handover
Interval Type 0~31
None
1~64 characters
0~31
GBFD110601 GBFD510501
HUAWEI I Handover HUAWEI II Handover
GBFD110601 GBFD510501
Interval Type 1~31
TCH:480~14880, step:480; SDCCH:470~14570, step:470
HUAWEI I Handover HUAWEI II Handover
Interval Type 1~31
TCH:480~14880, step:480; SDCCH:470~14570, step:470
GBFD110601 GBFD510501
HUAWEI I Handover HUAWEI II Handover
Interval Type 1~31
TCH:480~14880, step:480; SDCCH:470~14570, step:470
GBFD110601 GBFD510501
HUAWEI I Handover HUAWEI II Handover
Interval Type 1~31
TCH:480~14880, step:480; SDCCH:470~14570, step:470
GBFD110601 GBFD510501
HUAWEI I Handover HUAWEI II Handover
Interval Type 1~31
TCH:480~14880, step:480; SDCCH:470~14570, step:470
GBFD110601 GBFD510501
HUAWEI I Handover HUAWEI II Handover
Interval Type 1~31
TCH:480~14880, step:480; SDCCH:470~14570, step:470
GBFD110601 GBFD510501
HUAWEI I Handover HUAWEI II Handover
Interval Type 0~63
0~63
GBFD110601 GBFD510501
HUAWEI I Handover HUAWEI II Handover
Interval Type 0~63
0~63
GBFD110601 GBFD510501
HUAWEI I Handover HUAWEI II Handover
Interval Type 0~255
0~255
GBFD110601 GBFD510501
HUAWEI I Handover HUAWEI II Handover
Interval Type 0~63
0~63
GBFD110601 GBFD510501
HUAWEI I Handover HUAWEI II Handover
Interval Type 0~255
0~255
GBFD110601 GBFD510501
HUAWEI I Handover HUAWEI II Handover
Interval Type 0~255
0~255
GBFD110601 GBFD510501
HUAWEI I Handover HUAWEI II Handover
Interval Type 0~255
0~255
GBFD110601 GBFD510501
HUAWEI I Handover HUAWEI II Handover
Interval Type 0~255
0~255
GBFD110601 GBFD510501
HUAWEI I Handover HUAWEI II Handover
Interval Type 0~255
0~255
GBFD117501
Enhanced Measurement Report(EMR)
GBFD117501
Interval Type 0~31
TCH:0~14880, step:480; SDCCH:0~14570, step:470
Enhanced Measurement Report(EMR)
Interval Type 0~31
TCH:0~14880, step:480; SDCCH:0~14570, step:470
GBFD117501
Enhanced Measurement Report(EMR)
Interval Type 0~31
TCH:0~14880, step:480; SDCCH:0~14570, step:470
GBFD117501
Enhanced Measurement Report(EMR)
Interval Type 0~31
TCH:0~14880, step:480; SDCCH:0~14570, step:470
GBFD117501
Enhanced Measurement Report(EMR)
Interval Type 0~31
TCH:0~14880, step:480; SDCCH:0~14570, step:470
GBFD117501
Enhanced Measurement Report(EMR)
Interval Type 0~31
TCH:0~14880, step:480; SDCCH:0~14570, step:470
GBFD117501
Enhanced Measurement Report(EMR)
Interval Type 0~31
TCH:0~14880, step:480; SDCCH:0~14570, step:470
GBFD117501
Enhanced Measurement Report(EMR)
Interval Type 0~31
TCH:0~14880, step:480; SDCCH:0~14570, step:470
GBFD110601 GBFD510501
HUAWEI I Handover HUAWEI II Handover
Interval Type 0~255
0~255
GBFD110601 GBFD510501
HUAWEI I Handover HUAWEI II Handover
Interval Type 0~63
0~63
GBFD110601 GBFD510501
HUAWEI I Handover HUAWEI II Handover
Interval Type 0~255
0~255
GBFD110601 GBFD510501
HUAWEI I Handover HUAWEI II Handover
Interval Type 1~31
TCH:480~14880, step:480; SDCCH:470~14570, step:470
GBFD110601 GBFD510501
HUAWEI I Handover HUAWEI II Handover
Interval Type 1~31
TCH:480~14880, step:480; SDCCH:470~14570, step:470
MRFD211402
MBSC Load Balancing
Enumeration BYNAME(By Name), Type BYID(By Index)
BYNAME, BYID
MRFD211402
MBSC Load Balancing
Interval Type 0~2047
0~2047
MRFD211402
MBSC Load Balancing
String Type
MRFD211402
MBSC Load Balancing
Enumeration Type NO(No), YES(Yes)
GBFD511103
Service-based(Servicebased), Loadbased(Load-based), Dynamicbased(Dynamic Service/Load-based), GSM and UMTS CnService-based(CN Service-based, Load-based, Load Balancing Enumeration Service-based), Dynamic-based, CnServiceBased on Iur-g Type OFF(OFF) based, OFF
GBFD511103 GBFD511103
GBFD511103 GBFD511103 GBFD511103
None
GSM and UMTS Load Balancing Based on Iur-g Interval Type 1~100 GSM and UMTS Load Balancing Based on Iur-g Interval Type 1~100
GSM and UMTS Load Balancing Based on Iur-g Interval Type 1~100 GSM and UMTS Load Balancing Based on Iur-g Interval Type 1~100 GSM and UMTS Load Balancing Based on Iur-g Interval Type 1~100
1~64 characters
NO, YES
1~100
1~100
1~100
1~100
1~100
GBFD511103
GSM and UMTS Load Balancing Based on Iur-g Interval Type 0~100 GSM and UMTS Load Balancing Based on Iur-g Interval Type 0~91
GBFD511103
GSM and UMTS Load Balancing Based on Iur-g Interval Type 0~49
GBFD511103
GBFD511103
GSM and UMTS Load Balancing Based on Iur-g Interval Type 1~255 GSM and UMTS Load Balancing Based on Iur-g Interval Type 1~91
GBFD511103
GSM and UMTS Load Balancing Based on Iur-g Interval Type 1~49
GBFD511103
GBFD511103
GSM and UMTS Load Balancing Based on Iur-g Interval Type 1~91 GSM and UMTS Load Balancing Based on Iur-g Interval Type 1~49
GBFD511103
GSM and UMTS Load Balancing Based on Iur-g Interval Type 0~91
GBFD511103
0~100
0~91
0~49
1~255
1~91
1~49
1~91
1~49
0~91
GBFD511103
GSM and UMTS Load Balancing Based on Iur-g Interval Type 0~49
0~49
MRFD210301
Configuration Management
Enumeration BYNAME(By Name), Type BYID(By Index)
BYNAME, BYID
MRFD210301
Configuration Management
Interval Type 0~2047
0~2047
MRFD210301
Configuration Management
String Type
1~64 characters
GBFD110601
HUAWEI I Handover
HOALGORITHM1(Hand over algorithm I), Enumeration HOALGORITHM2(Hand HOALGORITHM1, Type over algorithm II) HOALGORITHM2
GBFD113201
Concentric Cell
Enumeration Type NO(No), YES(Yes)
NO, YES
GBFD113201
Concentric Cell
Enumeration Type NO(No), YES(Yes)
NO, YES
GBFD113201
Concentric Cell
Enumeration Type NO(No), YES(Yes)
NO, YES
GBFD113201
Concentric Cell
Enumeration Type NO(No), YES(Yes)
NO, YES
GBFD113201
Concentric Cell
Enumeration Type NO(No), YES(Yes)
NO, YES
GBFD113201
Concentric Cell
Interval Type 0~63
0~63
None
GBFD113201
Concentric Cell
Interval Type 0~63
0~63
GBFD113201
Concentric Cell
Interval Type 0~70
0~70
GBFD113201
Concentric Cell
Interval Type 0~255
0~255
GBFD113201
Concentric Cell
Interval Type 0~255
0~255
GBFD113201
Concentric Cell
Interval Type 1~32
0.5~16, step:0.5
GBFD113201
Concentric Cell
Interval Type 1~32
0.5~16, step:0.5
GBFD113201
Concentric Cell
SysOpt(System optimization), OSubcell(Overlaid subcell), USubcell(Underlaid Enumeration subcell), NoPrefer(No Type preference)
SysOpt, OSubcell, USubcell, NoPrefer
GBFD113201
Concentric Cell
Interval Type 0~63
0~63
GBFD113201
Concentric Cell
Interval Type 0~255
0~255
GBFD113201
Concentric Cell
Enumeration Type NO(No), YES(Yes)
NO, YES
GBFD113201
Concentric Cell
Interval Type 0~255
0~255
Concentric Cell
SysOpt(System optimization), OSubcell(Overlaid subcell), USubcell(Underlaid Enumeration subcell), NoPrefer(No Type preference)
SysOpt, OSubcell, USubcell, NoPrefer
GBFD113201
Concentric Cell
OSubcell(Overlaid subcell), USubcell(Underlaid Enumeration subcell), NoPrefer(No Type preference)
OSubcell, USubcell, NoPrefer
GBFD113201
Concentric Cell
Interval Type 0~63
0~63
GBFD113201
Concentric Cell
Interval Type 0~63
0~63
GBFD113201
GBFD113201
Concentric Cell
Enumeration Type NO(No), YES(Yes)
NO, YES
GBFD113201
Concentric Cell
Interval Type 1~255
1~255
GBFD113201
Concentric Cell
Interval Type 0~255
0~255
GBFD113201
Concentric Cell
Interval Type 10~255
10~255
GBFD113201
Concentric Cell
Interval Type 0~255
0~255
GBFD113201
Concentric Cell
Interval Type 0~8
0~8
GBFD113201
Concentric Cell
Interval Type 0~100
0~100
GBFD113201
Concentric Cell
Interval Type 0~100
0~100
GBFD113201
Concentric Cell
Interval Type 0~100
0~100
GBFD113201
Concentric Cell
Interval Type 1~255
1~255
GBFD113201
Concentric Cell
Interval Type 0~63
0~63
GBFD113201 GBFD115501
Concentric Cell AMR FR
Interval Type 0~70
0~70
GBFD113201 GBFD115502
Concentric Cell AMR HR
Interval Type 0~70
0~70
GBFD113201
Concentric Cell
Interval Type 1~63
1~63
GBFD113201
Concentric Cell
Interval Type 0~63
0~63
GBFD113201
Concentric Cell
Interval Type 0~63
0~63
GBFD113201
Concentric Cell
Interval Type 0~63
0~63
MRFD210301
Configuration Management
Enumeration BYNAME(By Name), Type BYID(By Index)
BYNAME, BYID
MRFD210301
Configuration Management
Interval Type 0~2047
0~2047
MRFD210301
Configuration Management
String Type
1~64 characters
GBFD113703
Antenna Frequency Hopping
NO_HPANT(No), Enumeration YES_HPANT(Yes), Type NONE(None)
NO_HPANT, YES_HPANT, NONE
MRFD210301
Configuration Management
Enumeration BYNAME(By Name), Type BYID(By Index)
BYNAME, BYID
MRFD210301
Configuration Management
Interval Type 0~2047
0~2047
None
MRFD210301
Configuration Management
String Type
GBFD113703
Antenna Frequency Hopping
Interval Type 0~23
0~23
GBFD113703
Antenna Frequency Hopping
Interval Type 0~63
0~63
GBFD113703
Antenna Frequency Hopping
Interval Type 0~4095
0~4095
GBFD113703
Antenna Frequency Hopping
Interval Type 0~4095
0~4095
GBFD113703
Antenna Frequency Hopping
Interval Type 0~4095
0~4095
None
1~64 characters
GBFD113703
Antenna Frequency Hopping
Interval Type 0~4095
0~4095
GBFD113703
Antenna Frequency Hopping
Interval Type 0~4095
0~4095
GBFD113703
Antenna Frequency Hopping
Interval Type 0~4095
0~4095
GBFD113703
Antenna Frequency Hopping
Interval Type 0~4095
0~4095
GBFD113703
Antenna Frequency Hopping
Interval Type 0~4095
0~4095
GBFD113703
Antenna Frequency Hopping
Interval Type 0~4095
0~4095
GBFD113703
Antenna Frequency Hopping
Interval Type 0~4095
0~4095
GBFD113703
Antenna Frequency Hopping
Interval Type 0~4095
0~4095
GBFD113703
Antenna Frequency Hopping
Interval Type 0~4095
0~4095
GBFD113703
Antenna Frequency Hopping
Interval Type 0~4095
0~4095
GBFD113703
Antenna Frequency Hopping
Interval Type 0~4095
0~4095
GBFD113703
Antenna Frequency Hopping
Interval Type 0~4095
0~4095
GBFD113703
Antenna Frequency Hopping
Interval Type 0~4095
0~4095
GBFD113703
Antenna Frequency Hopping
Interval Type 0~4095
0~4095
GBFD113703
Antenna Frequency Hopping
Interval Type 0~4095
0~4095
GBFD113703
Antenna Frequency Hopping
Interval Type 0~4095
0~4095
GBFD113703
Antenna Frequency Hopping
Interval Type 0~4095
0~4095
GBFD113703
Antenna Frequency Hopping
Interval Type 0~4095
0~4095
GBFD113703
Antenna Frequency Hopping
Interval Type 0~4095
0~4095
GBFD113703
Antenna Frequency Hopping
Interval Type 0~4095
0~4095
GBFD113703
Antenna Frequency Hopping
Interval Type 0~4095
0~4095
MRFD210301
Configuration Management
Enumeration BYNAME(By Name), Type BYID(By Index)
BYNAME, BYID
MRFD210301
Configuration Management
Interval Type 0~2047
0~2047
MRFD210301
Configuration Management
String Type
1~64 characters
None
GBFD113703
Antenna Frequency Hopping
Enumeration NO_HPANT(No), Type YES_HPANT(Yes)
NO_HPANT, YES_HPANT
GBFD113701
Frequency Hopping (RF hopping, baseband hopping)
String Type
1~120 characters
MRFD210301
Configuration Management
Enumeration BYNAME(By Name), Type BYID(By Index)
BYNAME, BYID
MRFD210301
Configuration Management
Interval Type 0~2047
0~2047
MRFD210301
Configuration Management
String Type
1~64 characters
None
None
GBFD113701
Frequency Hopping (RF hopping, baseband hopping)
NO_FH(No frequency hopping), BaseBand_FH(Baseban d frequency hopping), RF_FH(RF frequency hopping), Enumeration Hybrid_FH(Hybrid NO_FH, BaseBand_FH, RF_FH, Type frequency hopping) Hybrid_FH
GBFD113701
Frequency Hopping (RF hopping, baseband hopping)
Enumeration NO_Hop(No hop), Type Hop(Hop)
NO_Hop, Hop
GBFD113701
Frequency Hopping (RF hopping, baseband hopping)
String Type
1~120 characters
MRFD210301
Configuration Management
Enumeration BYNAME(By Name), Type BYID(By Index)
BYNAME, BYID
MRFD210301
Configuration Management
Interval Type 0~2047
0~2047
MRFD210301
Configuration Management
String Type
1~64 characters
None
None
GBFD113701
Frequency Hopping (RF hopping, baseband hopping)
NO_FH(No frequency hopping), BaseBand_FH(Baseban d frequency hopping), RF_FH(RF frequency hopping), Enumeration Hybrid_FH(Hybrid NO_FH, BaseBand_FH, RF_FH, Type frequency hopping) Hybrid_FH
MRFD210301
Configuration Management
Enumeration BYNAME(By Name), Type BYID(By Index)
BYNAME, BYID
MRFD210301
Configuration Management
Interval Type 0~2047
0~2047
MRFD210301
Configuration Management
String Type
1~64 characters
MRFD210301
Configuration Management
Enumeration AUTO(Auto), Type Manual(Manual)
AUTO, Manual
MRFD210301
Configuration Management
Interval Type 1~64
1~64
MRFD210301
Configuration Management
Enumeration TRUE(Support), Type FALSE(Not Support)
TRUE, FALSE
GBFD114301 GBFD114302
GSM/WCDMA Interoperability GSM/TDSCDMA Interoperability
Interval Type 0~16383
0~16383
None
MRFD210301
Configuration Management
Interval Type 0~127
0~127
GBFD114302
GSM/TDSCDMA Interoperability
Interval Type 0~1
0~1
GBFD114301
GSM/WCDMA Interoperability
Enumeration Type NO(No), YES(Yes)
NO, YES
MRFD210301
Configuration Management
Enumeration BYNAME(By Name), Type BYID(By Index)
BYNAME, BYID
MRFD210301
Configuration Management
Interval Type 0~2047
0~2047
MRFD210301
Configuration Management
String Type
1~64 characters
GBFD114301 GBFD114302
GSM/WCDMA Interoperability GSM/TDSCDMA Interoperability
Enumeration Type NO(No), YES(Yes)
None
NO, YES
GBFD110601 GBFD510501
HUAWEI I Handover HUAWEI II Handover
Pre_2G_Cell(Preferenc e for 2G cell), Pre_3G_Cell(Preferenc e for 3G cell), Pre_2G_CellThres(Pref Enumeration erence 2G cell by Pre_2G_Cell, Pre_3G_Cell, Type thresh) Pre_2G_CellThres
GBFD110601 GBFD510501
HUAWEI I Handover HUAWEI II Handover
Interval Type 0~63
0~63
GBFD114301 GBFD114302
GSM/WCDMA Interoperability GSM/TDSCDMA Interoperability
Interval Type 0~63
0~63
GBFD114301 GBFD114302
GSM/WCDMA Interoperability GSM/TDSCDMA Interoperability
Interval Type 0~49
0~49
MRFD210301
Configuration Management
Enumeration BYNAME(By Name), Type BYID(By Index)
BYNAME, BYID
MRFD210301
Configuration Management
Interval Type 0~2047
0~2047
MRFD210301
Configuration Management
String Type
1~64 characters
HUAWEI I Handover HUAWEI II Handover
Pre_2G_Cell(Preferenc e for 2G cell), Pre_3G_Cell(Preferenc e for 3G cell), Pre_2G_CellThres(Pref Enumeration erence 2G cell by Pre_2G_Cell, Pre_3G_Cell, Type thresh) Pre_2G_CellThres
GBFD110601 GBFD510501
None
GBFD110601 GBFD510501
HUAWEI I Handover HUAWEI II Handover
Interval Type 0~63
0~63
GBFD114301 GBFD114302
GSM/WCDMA Interoperability GSM/TDSCDMA Interoperability
Interval Type 0~63
0~63
GBFD114301 GBFD114302
GSM/WCDMA Interoperability GSM/TDSCDMA Interoperability
Enumeration Type NO(No), YES(Yes)
NO, YES
MRFD210301
Configuration Management
Enumeration BYNAME(By Name), Type BYID(By Index)
BYNAME, BYID
MRFD210301
Configuration Management
Interval Type 0~2047
0~2047
MRFD210301
Configuration Management
String Type
1~64 characters
None
GBFD110402 GBFD111101
Basic Cell Reselection System Information Sending
COMPUL0(Compulsory 0), Enumeration COMPUL1(Compulsory Type 1), FLEX(Flexible) COMPUL0, COMPUL1, FLEX
GBFD110402
Basic Cell Reselection
Interval Type 0~7
0~7
GBFD110402
Basic Cell Reselection
Interval Type 0~31
0~31
MRFD210301
Configuration Management
Enumeration BYNAME(By Name), Type BYID(By Index)
BYNAME, BYID
MRFD210301
Configuration Management
Interval Type 0~2047
0~2047
MRFD210301
Configuration Management
String Type
1~64 characters
None
GBFD110302
IMSI Detach
Enumeration Type NO(No), YES(Yes)
NO, YES
GBFD111003 GBFD110301
TX_3(3), TX_4(4), TX_5(5), TX_6(6), TX_7(7), TX_8(8), Radio Common TX_9(9), TX_10(10), Channel TX_11(11), TX_12(12), Management TX_14(14), TX_16(16), Location Enumeration TX_20(20), TX_25(25), Updating Type TX_32(32), TX_50(50)
TX_3, TX_4, TX_5, TX_6, TX_7, TX_8, TX_9, TX_10, TX_11, TX_12, TX_14, TX_16, TX_20, TX_25, TX_32, TX_50
GBFD110401 GBFD110402
Basic Cell Selection Basic Cell Reselection
NO, YES
Enumeration Type NO(NO), YES(YES)
GBFD110401 GBFD110301
Basic Cell Selection Location Updating
GBFD111003 GBFD110301 GBFD110303
Radio Common Channel Management Location Updating Paging Interval Type 0~7
Enumeration Type NO(No), YES(Yes)
NO, YES
0~7
GBFD110303 GBFD111003
2_M_PERIOD(2 Multiframe Period), 3_M_PERIOD(3 Multiframe Period), 4_M_PERIOD(4 Multiframe Period), 5_M_PERIOD(5 Multiframe Period), 6_M_PERIOD(6 Multiframe Period), 7_M_PERIOD(7 Multiframe Period), Paging 8_M_PERIOD(8 Radio Common Multiframe Period), Channel Enumeration 9_M_PERIOD(9 Management Type Multiframe Period)
940~4230, step: 470
GBFD110301
Location Updating
Interval Type 0~255
GBFD110402 GBFD110301 GBFD110303
Basic Cell Reselection Location Updating Paging
Enumeration 0dB, 2dB, 4dB, 6dB, 0dB, 2dB, 4dB, 6dB, 8dB, 10dB, Type 8dB, 10dB, 12dB, 14dB 12dB, 14dB
0~1530, step: 6
GBFD110402 GBFD111101
Basic Cell Reselection System Information Sending
Enumeration Type NO(No), YES(Yes)
NO, YES
SELECTION0_PERM(S election of 0 Perm.), SELECTION1_PERM(S election of 1 Perm.), SELECTION2_PERM(S election of 2 Perm.), SELECTION3_PERM(S election of 3 Perm.), SELECTION4_PERM(S election of 4 Perm.), SELECTION5_PERM(S election of 5 Perm.), SELECTION6_PERM(S election of 6 Perm.), SELECTION7_PERM(S election of 7 Perm.)
GBFD110401 GBFD110402 GBFD111101
Basic Cell Selection Basic Cell Reselection System Information Sending
Bit Field Type
GBFD110402
Basic Cell Reselection
Interval Type 0~63
SELECTION0_PERM, SELECTION1_PERM, SELECTION2_PERM, SELECTION3_PERM, SELECTION4_PERM, SELECTION5_PERM, SELECTION6_PERM, SELECTION7_PERM
0~126, step: 2
MRFD210301
Configuration Management
Enumeration BYNAME(By Name), Type BYID(By Index)
BYNAME, BYID
MRFD210301
Configuration Management
Interval Type 0~2047
0~2047
MRFD210301
Configuration Management
String Type
1~64 characters
GBFD114301
GSM/WCDMA Interoperability
Enumeration AUTO(Auto), Type MANU(Manu)
AUTO, MANU
MRFD210301
Configuration Management
Interval Type 1~64
1~64
MRFD210301
Configuration Management
Enumeration TRUE(Support), Type FALSE(Not Support)
TRUE, FALSE
GBFD114301
GSM/WCDMA Interoperability
Interval Type 0~16383
0~16383
GBFD114301
GSM/WCDMA Interoperability
Interval Type 0~511
0~511
None
GBFD114301
GSM/WCDMA Interoperability
Interval Type 0~1
0~1
MRFD210301
Configuration Management
Enumeration BYNAME(By Name), Type BYID(By Index)
BYNAME, BYID
MRFD210301
Configuration Management
Interval Type 0~2047
0~2047
MRFD210301
Configuration Management
String Type
1~64 characters
GBFD114302
GSM/TDSCDMA Interoperability
Enumeration AUTO(Auto), Type Manual(Manual)
AUTO, Manual
MRFD210301
Configuration Management
Interval Type 1~64
1~64
MRFD210301
Configuration Management
Enumeration TRUE(Support), Type FALSE(Not Support)
TRUE, FALSE
GBFD114302
GSM/TDSCDMA Interoperability
Interval Type 0~16383
0~16383
GBFD114302
GSM/TDSCDMA Interoperability
Interval Type 0~127
0~127
GBFD114302
GSM/TDSCDMA Interoperability
Interval Type 0~1
0~1
None
GBFD114302
GSM/TDSCDMA Interoperability
Interval Type 0~1
0~1
MRFD210301
Configuration Management
Enumeration BYNAME(By Name), Type BYID(By Index)
BYNAME, BYID
MRFD210301
Configuration Management
Interval Type 0~2047
0~2047
MRFD210301
Configuration Management
String Type
1~64 characters
GBFD115402
None Degree(Degree), BSS-Based LCS Enumeration D_min_sec(Degree (Cell ID + TA) Type Minute Second)
GBFD115402 GBFD118201
BSS-Based LCS (Cell ID + TA) North_latitude(North Softlatitude), Synchronized Enumeration South_latitude(South Network Type latitude)
North_latitude, South_latitude
GBFD115402
BSS-Based LCS (Cell ID + TA) Interval Type 0~90
0~90
GBFD115402
BSS-Based LCS (Cell ID + TA) String Type
1~5 characters
GBFD115402 GBFD118201
BSS-Based LCS (Cell ID + TA) East_Longitude(East SoftLongitude), Synchronized Enumeration West_Longitude(West Network Type Longitude)
East_Longitude, West_Longitude
GBFD115402
BSS-Based LCS (Cell ID + TA) Interval Type 0~180
0~180
GBFD115402
BSS-Based LCS (Cell ID + TA) String Type
1~5 characters
GBFD115402
BSS-Based LCS (Cell ID + TA) Interval Type 0~90
None
None
Degree, D_min_sec
0~90
GBFD115402
BSS-Based LCS (Cell ID + TA) Interval Type 0~59
0~59
GBFD115402
BSS-Based LCS (Cell ID + TA) Interval Type 0~59
0~59
GBFD115402
BSS-Based LCS (Cell ID + TA) Interval Type 0~9
0~9
GBFD115402
BSS-Based LCS (Cell ID + TA) Interval Type 0~180
0~180
GBFD115402
BSS-Based LCS (Cell ID + TA) Interval Type 0~59
0~59
GBFD115402
BSS-Based LCS (Cell ID + TA) Interval Type 0~59
0~59
GBFD115402
BSS-Based LCS (Cell ID + TA) Interval Type 0~9
0~9
GBFD115402 GBFD118201
BSS-Based LCS (Cell ID + TA) SoftSynchronized Network Interval Type 0~360
0~360
GBFD115402
BSS-Based LCS (Cell ID + TA) Interval Type 0~360
0~360
GBFD115402
BSS-Based LCS (Cell ID + TA) Interval Type 0~6553
0~6553
GBFD115402
BSS-Based LCS (Cell ID + TA) Interval Type 0~9
0~0.9, step:0.1
MRFD210301
Configuration Management
BYNAME, BYID
Enumeration BYNAME(By Name), Type BYID(By Index)
MRFD210301
Configuration Management
Interval Type 0~2047
0~2047
MRFD210301
Configuration Management
String Type
1~64 characters
GBFD113701
Frequency Hopping (RF hopping, baseband hopping)
Interval Type 0~63
0~63
GBFD113701
Frequency Hopping (RF hopping, baseband hopping)
Interval Type 0~63
0~63
None
GBFD113701
Frequency Hopping (RF hopping, baseband hopping)
Interval Type 0~7
GBFD113701
Frequency Hopping (RF hopping, baseband hopping)
Enumeration BaseBand_FH(BaseBa Type nd FH), RF_FH(RF FH) BaseBand_FH, RF_FH
GBFD110101
Frequency Band Interval Type 0~1023
0~7
0~1023
GBFD110101
Frequency Band Interval Type 0~1023
0~1023
GBFD110101
Frequency Band Interval Type 0~1023
0~1023
GBFD110101
Frequency Band Interval Type 0~1023
0~1023
GBFD110101
Frequency Band Interval Type 0~1023
0~1023
GBFD110101
Frequency Band Interval Type 0~1023
0~1023
GBFD110101
Frequency Band Interval Type 0~1023
0~1023
GBFD110101
Frequency Band Interval Type 0~1023
0~1023
GBFD110101
Frequency Band Interval Type 0~1023
0~1023
GBFD110101
Frequency Band Interval Type 0~1023
0~1023
GBFD110101
Frequency Band Interval Type 0~1023
0~1023
GBFD110101
Frequency Band Interval Type 0~1023
0~1023
GBFD110101
Frequency Band Interval Type 0~1023
0~1023
GBFD110101
Frequency Band Interval Type 0~1023
0~1023
GBFD110101
Frequency Band Interval Type 0~1023
0~1023
GBFD110101
Frequency Band Interval Type 0~1023
0~1023
GBFD110101
Frequency Band Interval Type 0~1023
0~1023
GBFD110101
Frequency Band Interval Type 0~1023
0~1023
GBFD110101
Frequency Band Interval Type 0~1023
0~1023
GBFD110101
Frequency Band Interval Type 0~1023
0~1023
GBFD110101
Frequency Band Interval Type 0~1023
0~1023
GBFD110101
Frequency Band Interval Type 0~1023
0~1023
GBFD110101
Frequency Band Interval Type 0~1023
0~1023
GBFD110101
Frequency Band Interval Type 0~1023
0~1023
GBFD110101
Frequency Band Interval Type 0~1023
0~1023
GBFD110101
Frequency Band Interval Type 0~1023
0~1023
GBFD110101
Frequency Band Interval Type 0~1023
0~1023
GBFD110101
Frequency Band Interval Type 0~1023
0~1023
GBFD110101
Frequency Band Interval Type 0~1023
0~1023
GBFD110101
Frequency Band Interval Type 0~1023
0~1023
GBFD110101
Frequency Band Interval Type 0~1023
0~1023
GBFD110101
Frequency Band Interval Type 0~1023
0~1023
GBFD110101
Frequency Band Interval Type 0~1023
0~1023
GBFD110101
Frequency Band Interval Type 0~1023
0~1023
GBFD110101
Frequency Band Interval Type 0~1023
0~1023
GBFD110101
Frequency Band Interval Type 0~1023
0~1023
GBFD110101
Frequency Band Interval Type 0~1023
0~1023
GBFD110101
Frequency Band Interval Type 0~1023
0~1023
GBFD110101
Frequency Band Interval Type 0~1023
0~1023
GBFD110101
Frequency Band Interval Type 0~1023
0~1023
GBFD110101
Frequency Band Interval Type 0~1023
0~1023
GBFD110101
Frequency Band Interval Type 0~1023
0~1023
GBFD110101
Frequency Band Interval Type 0~1023
0~1023
GBFD110101
Frequency Band Interval Type 0~1023
0~1023
GBFD110101
Frequency Band Interval Type 0~1023
0~1023
GBFD110101
Frequency Band Interval Type 0~1023
0~1023
GBFD110101
Frequency Band Interval Type 0~1023
0~1023
GBFD110101
Frequency Band Interval Type 0~1023
0~1023
GBFD110101
Frequency Band Interval Type 0~1023
0~1023
GBFD110101
Frequency Band Interval Type 0~1023
0~1023
GBFD110101
Frequency Band Interval Type 0~1023
0~1023
GBFD110101
Frequency Band Interval Type 0~1023
0~1023
GBFD110101
Frequency Band Interval Type 0~1023
0~1023
GBFD110101
Frequency Band Interval Type 0~1023
0~1023
GBFD110101
Frequency Band Interval Type 0~1023
0~1023
GBFD110101
Frequency Band Interval Type 0~1023
0~1023
GBFD110101
Frequency Band Interval Type 0~1023
0~1023
GBFD110101
Frequency Band Interval Type 0~1023
0~1023
GBFD110101
Frequency Band Interval Type 0~1023
0~1023
GBFD110101
Frequency Band Interval Type 0~1023
0~1023
GBFD110101
Frequency Band Interval Type 0~1023
0~1023
GBFD110101
Frequency Band Interval Type 0~1023
0~1023
GBFD110101
Frequency Band Interval Type 0~1023
0~1023
GBFD110101
Frequency Band Interval Type 0~1023
0~1023
MRFD210301
Configuration Management
Enumeration BYNAME(By Name), Type BYID(By Index)
BYNAME, BYID
MRFD210301
Configuration Management
Interval Type 0~2047
0~2047
MRFD210301
Configuration Management
String Type
GBFD117002
IBCA (Interference Based Channel Allocation)
Interval Type 0~63
0~63
GBFD117002
IBCA (Interference Based Channel Allocation)
Interval Type 0~63
0~63
GBFD117002
IBCA (Interference Based Channel Allocation)
Interval Type 0~63
0~63
GBFD117002
IBCA (Interference Based Channel Allocation)
Interval Type 0~63
0~63
GBFD117002
IBCA (Interference Based Channel Allocation)
Interval Type 0~63
0~63
GBFD117002
IBCA (Interference Based Channel Allocation)
Interval Type 0~63
0~63
GBFD117002
IBCA (Interference Based Channel Allocation)
Interval Type 0~63
0~63
GBFD117002
IBCA (Interference Based Channel Allocation)
Interval Type 0~63
0~63
GBFD117002
IBCA (Interference Based Channel Allocation)
Interval Type 0~63
0~63
GBFD117002
IBCA (Interference Based Channel Allocation)
Interval Type 0~63
0~63
None
1~64 characters
GBFD117002
IBCA (Interference Based Channel Allocation)
Interval Type 0~63
0~63
GBFD117002
IBCA (Interference Based Channel Allocation)
Interval Type 0~63
0~63
GBFD117002
IBCA (Interference Based Channel Allocation)
Interval Type 0~63
0~63
GBFD117002
IBCA (Interference Based Channel Allocation)
Interval Type 0~63
0~63
GBFD117002
IBCA (Interference Based Channel Allocation)
Interval Type 0~63
0~63
GBFD117002
IBCA (Interference Based Channel Allocation)
Interval Type 0~63
0~63
GBFD117002
IBCA (Interference Based Channel Allocation)
Interval Type 0~63
0~63
GBFD117002
IBCA (Interference Based Channel Allocation)
Interval Type 0~63
0~63
GBFD117002
IBCA (Interference Based Channel Allocation)
Interval Type 0~63
0~63
GBFD117002
IBCA (Interference Based Channel Allocation)
Interval Type 0~63
0~63
GBFD117002
IBCA (Interference Based Channel Allocation)
Interval Type 0~63
0~63
GBFD117002
IBCA (Interference Based Channel Allocation)
Interval Type 0~63
0~63
GBFD117002
IBCA (Interference Based Channel Allocation)
Interval Type 0~63
0~63
GBFD117002
IBCA (Interference Based Channel Allocation)
Interval Type 0~63
0~63
GBFD117002
IBCA (Interference Based Channel Allocation)
Interval Type 0~63
0~63
MRFD210301
Configuration Management
Enumeration BYNAME(By Name), Type BYID(By Index)
BYNAME, BYID
MRFD210301
Configuration Management
Interval Type 0~2047
0~2047
MRFD210301
Configuration Management
String Type
1~64 characters
GBFD116201
NetworkControlled Cell Reselection (NC2)
Interval Type 0~63
0~63
GBFD116201
NetworkControlled Cell Reselection (NC2)
Interval Type 0~63
0~63
None
GBFD116201
NetworkControlled Cell Reselection (NC2)
Interval Type 0~63
0~63
GBFD116201
NetworkControlled Cell Reselection (NC2)
Interval Type 0~255
0~255
GBFD116201
NetworkControlled Cell Reselection (NC2)
Interval Type 0~16
0~16
GBFD116201
NetworkControlled Cell Reselection (NC2)
Interval Type 0~32
0~32
GBFD116201
NetworkControlled Cell Reselection (NC2)
Interval Type 0~255
0~255
GBFD116201
NetworkControlled Cell Reselection (NC2)
Interval Type 0~100
0~100
GBFD116201
NetworkControlled Cell Reselection (NC2)
Interval Type 0~100
0~100
GBFD116201 GBFD114301 GBFD114322
NetworkControlled Cell Reselection (NC2) GSM/WCDMA Interoperability GSM/WCDMA Load Based Handover
Interval Type 0~100
0~100
GBFD116201
NetworkControlled Cell Reselection (NC2)
Enumeration FORBID(Forbid), Type PERMIT(Permit)
FORBID, PERMIT
GBFD116201
NetworkControlled Cell Reselection (NC2)
Enumeration FORBID(Forbid), Type PERMIT(Permit)
FORBID, PERMIT
GBFD116201
NetworkControlled Cell Reselection (NC2)
Enumeration FORBID(Forbid), Type PERMIT(Permit)
FORBID, PERMIT
GBFD116201
NetworkControlled Cell Reselection (NC2)
Interval Type 1~32
1~32
GBFD116201
NetworkControlled Cell Reselection (NC2)
Interval Type 1~32
1~32
GBFD116201
NetworkControlled Cell Reselection (NC2)
Interval Type 1~10
1~10
GBFD116201
NetworkControlled Cell Reselection (NC2)
Interval Type 0~31
0~31
GBFD116201
NetworkControlled Cell Reselection (NC2)
Interval Type 0~31
0~31
GBFD116201
NetworkControlled Cell Reselection (NC2)
Interval Type 0~7
0~7
GBFD116201
NetworkControlled Cell Reselection (NC2)
Interval Type 0~63
0~63
MRFD210301
Configuration Management
Enumeration BYNAME(By Name), Type BYID(By Index)
BYNAME, BYID
MRFD210301
Configuration Management
Interval Type 0~2047
0~2047
MRFD210301
Configuration Management
String Type
1~64 characters
None
GBFD114101
GBFD114101
GPRS
0db(0db), 10db(10db), 20db(20db), 30db(30db), 40db(40db), 50db(50db), 60db(60db), Enumeration infinity(infinity), Type nouse(no use)
0db, 10db, 20db, 30db, 40db, 50db, 60db, infinity, no use
GPRS
10sec(10sec), 20sec(20sec), 30sec(30sec), 40sec(40sec), 50sec(50sec), 60sec(60sec), 70sec(70sec), 80sec(80sec), 90sec(90sec), 100sec(100sec), 110sec(110sec), 120sec(120sec), 130sec(130sec), 140sec(140sec), 150sec(150sec), 160sec(160sec), 170sec(170sec), 180sec(180sec), 190sec(190sec), 200sec(200sec), 210sec(210sec), 220sec(220sec), 230sec(230sec), 240sec(240sec), 250sec(250sec), 260sec(260sec), 270sec(270sec), 280sec(280sec), 290sec(290sec), 300sec(300sec), 310sec(310sec), Enumeration 320sec(320sec), Type nouse(no use)
10sec, 20sec, 30sec, 40sec, 50sec, 60sec, 70sec, 80sec, 90sec, 100sec, 110sec, 120sec, 130sec, 140sec, 150sec, 160sec, 170sec, 180sec, 190sec, 200sec, 210sec, 220sec, 230sec, 240sec, 250sec, 260sec, 270sec, 280sec, 290sec, 300sec, 310sec, 320sec, no use
GBFD114101
GPRS
MINUS_52db(-52db), MINUS_48db(-48db), MINUS_44db(-44db), MINUS_40db(-40db), MINUS_36db(-36db), MINUS_32db(-32db), MINUS_28db(-28db), MINUS_24db(-24db), MINUS_20db(-20db), MINUS_16db(-16db), MINUS_12db(-12db), MINUS_10db(-10db), MINUS_8db(-8db), MINUS_6db(-6db), MINUS_4db(-4db), MINUS_2db(-2db), Zerodb(0db), 2db(2db), 4db(4db), 6db(6db), 8db(8db), 10db(10db), 12db(12db), 16db(16db), 20db(20db), 24db(24db), 28db(28db), 32db(32db), Enumeration 36db(36db), Type 40db(40db),
MRFD210301
Configuration Management
Enumeration BYNAME(By Name), Type BYID(By Index)
BYNAME, BYID
MRFD210301
Configuration Management
Interval Type 0~2047
0~2047
MRFD210301
Configuration Management
String Type
1~64 characters
Networking Control Mode
NODRX(NODRX), 0.24sec(0.24sec), 0.48sec(0.48sec), 0.72sec(0.72sec), 0.96sec(0.96sec), 1.20sec(1.20sec), Enumeration 1.44sec(1.44sec), Type 1.92sec(1.92sec)
GBFD119107
None
MINUS_52db, MINUS_48db, MINUS_44db, MINUS_40db, MINUS_36db, MINUS_32db, MINUS_28db, MINUS_24db, MINUS_20db, MINUS_16db, MINUS_12db, MINUS_10db, MINUS_8db, MINUS_6db, MINUS_4db, MINUS_2db, Zerodb, 2db, 4db, 6db, 8db, 10db, 12db, 16db, 20db, 24db, 28db, 32db, 36db, 40db, 44db, 48db, no use
NODRX, 0.24sec, 0.48sec, 0.72sec, 0.96sec, 1.20sec, 1.44sec, 1.92sec
Networking Control Mode
0.48sec(0.48sec), 0.96sec(0.96sec), 1.92sec(1.92sec), 3.84sec(3.84sec), 7.68sec(7.68sec), 15.36sec(15.36sec), Enumeration 30.72sec(30.72sec), Type 61.44sec(61.44sec)
0.48sec, 0.96sec, 1.92sec, 3.84sec, 7.68sec, 15.36sec, 30.72sec, 61.44sec
GBFD119107 GBFD114302
Networking Control Mode GSM/TDSCDMA Interoperability
0.48sec(0.48sec), 0.96sec(0.96sec), 1.92sec(1.92sec), 3.84sec(3.84sec), 7.68sec(7.68sec), 15.36sec(15.36sec), Enumeration 30.72sec(30.72sec), Type 61.44sec(61.44sec)
0.48sec, 0.96sec, 1.92sec, 3.84sec, 7.68sec, 15.36sec, 30.72sec, 61.44sec
MRFD210301
Configuration Management
Enumeration BYNAME(By Name), Type BYID(By Index)
BYNAME, BYID
MRFD210301
Configuration Management
Interval Type 0~2047
0~2047
MRFD210301
Configuration Management
String Type
1~64 characters
MRFD210301 GBFD118701
Configuration Management RAN Sharing
Interval Type 1~16777215
1~16777215
MRFD210301
Configuration Management
Enumeration BYNAME(By Name), Type BYID(By Index)
BYNAME, BYID
GBFD119107
None
MRFD210301
Configuration Management
Interval Type 0~2047
0~2047
MRFD210301
Configuration Management
String Type
1~64 characters
GBFD111202
O&M of BTS
Enumeration Type OFF(Off), ON(On)
OFF, ON
GBFD116801
Voice Quality Index (Uplink VQI)
NO(Not report), Enumeration YES(Report), Type NONE(None)
NO, YES, NONE
None
GBFD117101
BTS power lift for handover
NO(Not StartUp), Enumeration YES(StartUp), Type NONE(None)
NO, YES, NONE
MRFD210301
Configuration Management
Enumeration BYNAME(By Name), Type BYID(By Index)
BYNAME, BYID
MRFD210301
Configuration Management
Interval Type 0~2047
0~2047
MRFD210301
Configuration Management
String Type
1~64 characters
GBFD110204 GBFD119405 GBFD110205
G3 Fax (TS61, TS62) 14.4kbit/s Circuit Switched Data Bit Field Bearer Service Type
None
NT14_5K, NT12K, NT6K, T14_4K, T9_6K, NT14_5K, NT12K, NT6K, T4_8K, T2_4K, T1_2K, T14_4K, T9_6K, T4_8K, T2_4K, T600_BITS, T1200_75 T1_2K, T600_BITS, T1200_75
GBFD113602
Simplified Cell Broadcast
Enumeration Type NO(No), YES(Yes)
NO, YES
GBFD110607
Direct Retry
Interval Type 0~100
0~100
GBFD111001 GBFD111005
TRX Management Enhanced Channel Assignment Algorithm
Interval Type 48~115
48~115
GBFD111001 GBFD111005
TRX Management Enhanced Channel Assignment Algorithm
Interval Type 48~115
48~115
GBFD111001 GBFD111005
TRX Management Enhanced Channel Assignment Algorithm
Interval Type 48~115
48~115
GBFD111001 GBFD111005
TRX Management Enhanced Channel Assignment Algorithm
Interval Type 48~115
48~115
GBFD111001 GBFD111005
TRX Management Enhanced Channel Assignment Algorithm
Interval Type 48~115
48~115
GBFD111001 GBFD111005
TRX Management Enhanced Channel Assignment Algorithm
Interval Type 48~115
48~115
GBFD111005
Enhanced Channel Assignment Algorithm
Interval Type 1~31
480~14880, step: 480
MRFD210301
Configuration Management
Interval Type 0~21
0~21
MRFD210301
Configuration Management
Interval Type 0~65535
0~65535
GBFD111202
O&M of BTS
Interval Type 0~9
0~9
GBFD111202
O&M of BTS
Interval Type 0~9
0~9
GBFD111202
O&M of BTS
Interval Type 0~12
0~12
GBFD111202
O&M of BTS
Interval Type 0~12
0~12
MRFD210301
Configuration Management
Interval Type 0~255
0~255
GBFD510101
AFC(Automatic Frequency Correction)
Enumeration Type NO(No), YES(Yes)
NO, YES
GBFD510101
AFC(Automatic Frequency Correction)
Enumeration Type NO(No), YES(Yes)
NO, YES
GBFD510101
AFC(Automatic Frequency Correction)
Interval Type 0~65535
0~65535
GBFD111602
TRX Power Amplifier Intelligent Shutdown
Interval Type 0~16
0~16
GBFD111004
Radio Dedicated Channel Management Interval Type 0~63
0~63
GBFD111004
Radio Dedicated Channel Management Interval Type 0~63
0~63
GBFD111004
Radio Dedicated Channel Management Interval Type 0~70
0~70
GBFD111004
Radio Dedicated Channel Management Interval Type 0~70
0~70
GBFD111609
Enhanced BCCH Power Consumption Optimization
Enumeration Type NO(No), YES(Yes)
NO, YES
GBFD111609
Enhanced BCCH Power Consumption Optimization
Compound Type
hour, min
00:00~23:59
GBFD111609
Enhanced BCCH Power Consumption Optimization
Compound Type
hour, min
00:00~23:59
GBFD111609
Enhanced BCCH Power Consumption Optimization
Interval Type 0~15
0~3, step:0.2
GBFD111609
Enhanced BCCH Power Consumption Optimization
Enumeration Type NO(No), YES(Yes)
NO, YES
GBFD110801 GBFD110802
Processing of Measurement Report Pre-processing of Measurement Report Interval Type 0~63
0~63
GBFD110801 GBFD110802
Processing of Measurement Report Pre-processing of Measurement Report Interval Type 0~63
0~63
GBFD110801 GBFD110802
Processing of Measurement Report Pre-processing of Measurement Report Interval Type 0~63
0~63
GBFD110801 GBFD110802
Processing of Measurement Report Pre-processing of Measurement Report Interval Type 0~63
0~63
OUTDOOR_CELL(Outd oor Cell), Enumeration INDOOR_CELL(Indoor OUTDOOR_CELL, Type Cell) INDOOR_CELL
GBFD111202
O&M of BTS
GBFD111004
Radio Dedicated Channel Management Interval Type 0~63
0~63
GBFD111004
Radio Dedicated Channel Management Interval Type 0~63
0~63
GBFD111004
Radio Dedicated Channel Management Interval Type 0~70
0~70
GBFD111004
Radio Dedicated Channel Management Interval Type 0~70
0~70
GBFD111004
Radio Dedicated Channel Management Interval Type 0~1000
0~1000
GBFD111004
Radio Dedicated Channel Management Interval Type 0~1000
0~1000
GBFD116801
Voice Quality Index (Uplink VQI)
Interval Type 0~1000
0~1000
GBFD116801
Voice Quality Index (Uplink VQI)
Interval Type 0~1000
0~1000
GBFD116801
Voice Quality Index (Uplink VQI)
Interval Type 0~1000
0~1000
GBFD116801
Voice Quality Index (Uplink VQI)
Interval Type 0~1000
0~1000
GBFD116801
Voice Quality Index (Uplink VQI)
Interval Type 0~1000
0~1000
Interval Type 0~1000
0~1000
Interval Type 0~1000
0~1000
GBFD116801
Voice Quality Index (Uplink VQI) Voice Quality Index (Uplink VQI)
GBFD511401
Iur-g Interface Between GSM Enumeration and TD-SCDMA Type NO(No), YES(Yes)
NO, YES
MRFD210802
User Signaling Tracing
Interval Type 50~250
50~250
MRFD210301
Configuration Management
Enumeration BYNAME(By Name), Type BYID(By Index)
BYNAME, BYID
MRFD210301
Configuration Management
Interval Type 0~2047
0~2047
GBFD116801
MRFD210301
Configuration Management
String Type
GBFD119110
Access
Interval Type 0~65535
0~65535
Access
1_Times(1_Times), 2_Times(2_Times), Enumeration 4_Times(4_Times), Type 7_Times(7_Times)
1_Times, 2_Times, 4_Times, 7_Times
Access
1_Times(1_Times), 2_Times(2_Times), Enumeration 4_Times(4_Times), Type 7_Times(7_Times)
1_Times, 2_Times, 4_Times, 7_Times
Access
1_Times(1_Times), 2_Times(2_Times), Enumeration 4_Times(4_Times), Type 7_Times(7_Times)
1_Times, 2_Times, 4_Times, 7_Times
Access
1_Times(1_Times), 2_Times(2_Times), Enumeration 4_Times(4_Times), Type 7_Times(7_Times)
1_Times, 2_Times, 4_Times, 7_Times
Access
T_12(12), T_15(15), T_20(20), T_30(30), T_41(41), T_55(55), T_76(76), T_109(109), Enumeration T_163(163), Type T_217(217)
T_12, T_15, T_20, T_30, T_41, T_55, T_76, T_109, T_163, T_217
GBFD119110
GBFD119110
GBFD119110
GBFD119110
GBFD119110
None
1~64 characters
GBFD119110
GBFD119110
GBFD119110
Access
T_2(2), T_3(3), T_4(4), T_5(5), T_6(6), T_7(7), T_8(8), T_9(9), T_10(10), T_12(12), T_14(14), T_16(16), T_2, T_3, T_4, T_5, T_6, T_7, Enumeration T_20(20), T_25(25), T_8, T_9, T_10, T_12, T_14, Type T_32(32), T_50(50) T_16, T_20, T_25, T_32, T_50
Access
0_level(0_level), 1_level(1_level), 2_level(2_level), 3_level(3_level), 4_level(4_level), 5_level(5_level), 6_level(6_level), 7_level(7_level), 8_level(8_level), 9_level(9_level), 10_level(10_level), 11_level(11_level), 12_level(12_level), 13_level(13_level), 14_level(14_level), Enumeration 16_level(16_level), Type nouse(no use)
0_level, 1_level, 2_level, 3_level, 4_level, 5_level, 6_level, 7_level, 8_level, 9_level, 10_level, 11_level, 12_level, 13_level, 14_level, 16_level, no use
Access
0_level(0_level), 1_level(1_level), 2_level(2_level), 3_level(3_level), 4_level(4_level), 5_level(5_level), 6_level(6_level), 7_level(7_level), 8_level(8_level), 9_level(9_level), 10_level(10_level), 11_level(11_level), 12_level(12_level), 13_level(13_level), 14_level(14_level), Enumeration 16_level(16_level), Type nouse(no use)
0_level, 1_level, 2_level, 3_level, 4_level, 5_level, 6_level, 7_level, 8_level, 9_level, 10_level, 11_level, 12_level, 13_level, 14_level, 16_level, no use
Access
0_level(0_level), 1_level(1_level), 2_level(2_level), 3_level(3_level), 4_level(4_level), 5_level(5_level), 6_level(6_level), 7_level(7_level), 8_level(8_level), 9_level(9_level), 10_level(10_level), 11_level(11_level), 12_level(12_level), 13_level(13_level), 14_level(14_level), Enumeration 16_level(16_level), Type nouse(no use)
0_level, 1_level, 2_level, 3_level, 4_level, 5_level, 6_level, 7_level, 8_level, 9_level, 10_level, 11_level, 12_level, 13_level, 14_level, 16_level, no use
GBFD119110
Access
0_level(0_level), 1_level(1_level), 2_level(2_level), 3_level(3_level), 4_level(4_level), 5_level(5_level), 6_level(6_level), 7_level(7_level), 8_level(8_level), 9_level(9_level), 10_level(10_level), 11_level(11_level), 12_level(12_level), 13_level(13_level), 14_level(14_level), Enumeration 16_level(16_level), Type nouse(no use)
0_level, 1_level, 2_level, 3_level, 4_level, 5_level, 6_level, 7_level, 8_level, 9_level, 10_level, 11_level, 12_level, 13_level, 14_level, 16_level, no use
MRFD210301
Configuration Management
Enumeration BYNAME(By Name), Type BYID(By Index)
BYNAME, BYID
MRFD210301
Configuration Management
Interval Type 0~2047
0~2047
MRFD210301
Configuration Management
String Type
1~64 characters
GBFD119110
None
GBFD511301
Cell Reselection Between GSM and LTE Interval Type 0~7
0~7
GBFD511301
Cell Reselection Between GSM and LTE Interval Type 0~7
0~7
GBFD511301
Cell Reselection Between GSM and LTE Interval Type 0~7
0~7
GBFD511301
Cell Reselection Between GSM and LTE Interval Type 0~15
0~15
GBFD511301
Cell Reselection Between GSM and LTE Interval Type 0~15
0~15
GBFD511301
Cell Reselection Between GSM and LTE Interval Type 0~31
0~31
GBFD511301
Cell Reselection Between GSM and LTE Interval Type 0~31
0~31
GBFD511301
Cell Reselection Between GSM and LTE Interval Type 0~31
0~31
GBFD511301
Cell Reselection Between GSM and LTE Interval Type 0~31
0~31
GBFD511301
Cell Reselection Between GSM and LTE Interval Type 0~31
0~31
GBFD511301
Cell Reselection Between GSM and LTE Interval Type 0~31
0~31
GBFD511301
Cell Reselection Between GSM and LTE Interval Type 0~3
GBFD511301
Cell Reselection Between GSM and LTE Interval Type 0~3 Cell Reselection Between GSM and LTE Interval Type 0~3
GBFD511301
Cell Reselection Between GSM and LTE Interval Type 0~7
GBFD511301
0~3
0~3
0~3
0~7
MRFD210301
Configuration Management
Enumeration BYNAME(By Name), Type BYID(By Index)
BYNAME, BYID
MRFD210301
Configuration Management
Interval Type 0~2047
0~2047
MRFD210301
Configuration Management
String Type
1~64 characters
GBFD119203
Extended Uplink TBF Interval Type 0~300
None
0~300
GBFD119203
Extended Uplink TBF Interval Type 0~5000
0~5000
GBFD114101
GPRS
0~5000
Interval Type 0~5000
GBFD119203
Extended Uplink TBF Interval Type 0~300
0~300
GBFD114801
OFF(OFF), DTX(ON when no MS is accessed), Discontinuous ENHANCEDDTX(ON Transmission Enumeration when no valid data (DTX) Downlink Type needs to be sent)
OFF, DTX, ENHANCEDDTX
MRFD210301
Configuration Management
Enumeration BYNAME(By Name), Type BYID(By Index)
BYNAME, BYID
MRFD210301
Configuration Management
Interval Type 0~2047
0~2047
MRFD210301
Configuration Management
String Type
1~64 characters
None
GBFD119108 GBFD114151
GBFD114101
NMOI(Network Operation Mode I), Network NMOII(Network Operation Mode Operation Mode II), Support Enumeration NMOIII(Network DTM Type Operation Mode III)
GPRS
500ms(500ms), 1000ms(1000ms), 1500ms(1500ms), 2000ms(2000ms), 2500ms(2500ms), 3000ms(3000ms), Enumeration 3500ms(3500ms), Type 4000ms(4000ms)
NMOI, NMOII, NMOIII
500ms, 1000ms, 1500ms, 2000ms, 2500ms, 3000ms, 3500ms, 4000ms
GBFD114101
GPRS
0ms(0ms), 80ms(80ms), 120ms(120ms), 160ms(160ms), 200ms(200ms), 500ms(500ms), Enumeration 1000ms(1000ms), Type 1500ms(1500ms)
GBFD114802
Discontinuous Reception (DRX)
0(0), 1(1), 2(2), 4(4), Enumeration 8(8), 16(16), 32(32), Type 64(64)
0, 1, 2, 4, 8, 16, 32, 64
GBFD119110
Access
Enumeration 8BIT(8BIT), Type 11BIT(11BIT)
8BIT, 11BIT
0ms, 80ms, 120ms, 160ms, 200ms, 500ms, 1000ms, 1500ms
GBFD114101
GPRS
Enumeration 4BURST(4Burst), Type RLC/MAC(RLC/MAC)
4BURST, RLC/MAC
GBFD114101
GPRS
Interval Type 0~15
0~15
GPRS
Pan_0(0), Pan_1(1), Pan_2(2), Pan_3(3), Pan_4(4), Pan_5(5), Enumeration Pan_6(6), Pan_7(7), Type 255(not use)
Pan_0, Pan_1, Pan_2, Pan_3, Pan_4, Pan_5, Pan_6, Pan_7, 255
GPRS
Pan_0(0), Pan_1(1), Pan_2(2), Pan_3(3), Pan_4(4), Pan_5(5), Enumeration Pan_6(6), Pan_7(7), Type 255(not use)
Pan_0, Pan_1, Pan_2, Pan_3, Pan_4, Pan_5, Pan_6, Pan_7, 255
GPRS
Pan_4(4), Pan_8(8), Pan_12(12), Pan_16(16), Pan_20(20), Pan_24(24), Pan_28(28), Enumeration Pan_32(32), 255(not Type use)
Pan_4, Pan_8, Pan_12, Pan_16, Pan_20, Pan_24, Pan_28, Pan_32, 255
GBFD114101
GBFD114101
GBFD114101
GBFD119107 GBFD114302 GBFD119502 GBFD111101
Networking Control Mode GSM/TDSCDMA Interoperability PS Handover System Information Sending
Enumeration NC0(NC0), NC1(NC1), Type NC2(NC2)
NC0, NC1, NC2
GBFD111101 GBFD114802
System Information Sending Discontinuous Reception (DRX)
Enumeration Type NO(NO), YES(YES)
NO, YES
GBFD111101 GBFD114101
System Information Sending GPRS
0(No packet access), 3(Packet access of level 1), 4(Packet access of levels 1-2), 5(Packet access of levels 1-3), Enumeration 6(Packet access of level Type 1-4) 0, 3, 4, 5, 6
GBFD111101 GBFD114101
System Information Sending GPRS
Interval Type 0~7
0~7
GBFD119201
11-Bit EGPRS Access
Enumeration Type NO(NO), YES(YES)
NO, YES
GBFD119305
BSS Paging Coordination
Enumeration Type NO(NO), YES(YES)
NO, YES
GBFD119203
Extended Uplink Enumeration SEND(SEND), TBF Type NOTSEND(NOTSEND) SEND, NOTSEND
GBFD114101
GPRS
Enumeration 0( Release 98 or older), Release 98 or older, Release 99 Type 1(Release 99 onwards) onwards
MRFD210301
Configuration Management
Enumeration BYNAME(By Name), Type BYID(By Index)
BYNAME, BYID
MRFD210301
Configuration Management
Interval Type 0~2047
0~2047
MRFD210301
Configuration Management
String Type
1~64 characters
GBFD114101 GBFD113101 GBFD119303 GBFD119501
GPRS PDCH Dynamic Adjustment Load Sharing Adaptive Adjustment of Uplink and Downlink Channels Interval Type 0~100
None
0~100
GBFD114101 GBFD113101 GBFD119303 GBFD119501
GPRS PDCH Dynamic Adjustment Load Sharing Adaptive Adjustment of Uplink and Downlink Channels Interval Type 10~70
10~70
GBFD114101 GBFD113101 GBFD119303 GBFD119501
GPRS PDCH Dynamic Adjustment Load Sharing Adaptive Adjustment of Uplink and Downlink Channels Interval Type 10~80
10~80
GBFD114101 GBFD113101 GBFD119303 GBFD119501
GPRS PDCH Dynamic Adjustment Load Sharing Adaptive Adjustment of Uplink and Downlink Channels Interval Type 10~70
10~70
GBFD114101 GBFD113101 GBFD119303 GBFD119501
GPRS PDCH Dynamic Adjustment Load Sharing Adaptive Adjustment of Uplink and Downlink Channels Interval Type 10~160
10~160
GBFD113101 GBFD113201 GBFD119303 GBFD119501
PDCH Dynamic Adjustment CONVERT0(Only Concentric Cell convert at UL), Load Sharing CONVERT1(Only Adaptive convert at OL), Adjustment of CONVERT2(UL first Uplink and and convert allowed), Downlink Enumeration CONVERT3(OL first Channels Type and convert allowed)
CONVERT0, CONVERT1, CONVERT2, CONVERT3
GBFD113101
PDCH Dynamic Adjustment Interval Type 10~3600
10~3600
GBFD114101 GBFD113101 GBFD119303 GBFD119501
GPRS PDCH Dynamic Adjustment Load Sharing LEVEL0(Preempt all Adaptive dynamic TCHFs), Adjustment of LEVEL1(No preempt of Uplink and CCHs), LEVEL2(No Downlink Enumeration preempt of service Channels Type TCHF) LEVEL0, LEVEL1, LEVEL2
GBFD114101 GBFD113101
GPRS PDCH Dynamic Adjustment Interval Type 0~8
0~8
GBFD113101
PDCH Dynamic Adjustment Interval Type 10~3600
10~3600
GBFD119902
QoS ARP&THP Interval Type 1~10
1~10
GBFD119902
QoS ARP&THP Interval Type 1~10
1~10
GBFD119902
QoS ARP&THP Interval Type 1~10
1~10
GBFD119902
QoS ARP&THP Interval Type 1~10
1~10
GBFD119902
QoS ARP&THP Interval Type 1~10
1~10
GBFD119902
QoS ARP&THP Interval Type 1~10
1~10
GBFD119902
QoS ARP&THP Interval Type 1~10
1~10
GBFD119902
QoS ARP&THP Interval Type 1~10
1~10
GBFD119902
QoS ARP&THP Interval Type 1~10
1~10
GBFD119902
QoS ARP&THP Interval Type 1~10
1~10
GBFD119902
QoS ARP&THP Interval Type 1~10
1~10
GBFD119902
QoS ARP&THP Interval Type 1~10
1~10
GBFD119902
QoS ARP&THP Interval Type 1~10
1~10
GBFD119902
QoS ARP&THP Interval Type 1~10
1~10
GBFD119902
QoS ARP&THP Interval Type 1~10
1~10
GBFD113101 GBFD119303 GBFD119501
PDCH Dynamic Adjustment Load Sharing Adaptive Adjustment of Uplink and Downlink Enumeration Channels Type NO(NO), YES(YES)
NO, YES
GBFD510801
MSRD
Interval Type 10~80
10~80
GBFD510801
MSRD
MCS1(MCS1), MCS2(MCS2), MCS3(MCS3), MCS4(MCS4), MCS5(MCS5), MCS6(MCS6), MCS7(MCS7), Enumeration MCS8(MCS8), Type MCS9(MCS9)
MCS1, MCS2, MCS3, MCS4, MCS5, MCS6, MCS7, MCS8, MCS9
GBFD510805 GBFD119901 GBFD119902 GBFD119905 GBFD119906 GBFD111003
Latency Reduction Streaming QoS(GBR) QoS ARP&THP PoC QoS Conversational QoS Radio Common Channel Management Interval Type 10~80
10~80
GBFD113101
PDCH Dynamic Adjustment Interval Type 0~32
0~32
GBFD113101
PDCH Dynamic Adjustment Interval Type 0~8
0~8
GBFD113101
PDCH Dynamic Enumeration Adjustment Type OFF(OFF), ON(ON)
OFF, ON
GBFD119505
PDCH Dynamic Adjustment with Two Thresholds Interval Type 0~100
0~100
GBFD119505 GBFD119505 GBFD119505
PDCH Dynamic Adjustment with Two Thresholds PDCH Dynamic Adjustment with Two Thresholds PDCH Dynamic Adjustment with Two Thresholds
Interval Type 0~100
0~100
Enumeration Type NO(No), YES(Yes)
NO, YES
Enumeration Type NO(No), YES(Yes)
NO, YES
None
None
Interval Type 10~160
10~160
MRFD210301
Configuration Management
Enumeration BYNAME(By Name), Type BYID(By Index)
BYNAME, BYID
MRFD210301
Configuration Management
Interval Type 0~2047
0~2047
MRFD210301
Configuration Management
String Type
1~64 characters
GBFD114101 GBFD119106
CS1(CS1), CS2(CS2), GPRS Enumeration CS3(CS3), CS4(CS4), Coding Scheme Type UNFIXED(UNFIXED)
CS1, CS2, CS3, CS4, UNFIXED
GBFD114101 GBFD119106
GPRS Enumeration CS1(CS1), CS2(CS2), Coding Scheme Type CS3(CS3), CS4(CS4)
CS1, CS2, CS3, CS4
None
GBFD119106
Coding Scheme Interval Type 0~64
0~64
GBFD118901 GBFD119106
CS-3/CS-4 Coding Scheme Interval Type 0~64
0~64
GBFD118901 GBFD119106
CS-3/CS-4 Coding Scheme Interval Type 0~64
0~64
GBFD119106
Coding Scheme Interval Type 0~64
0~64
GBFD118901 GBFD119106
CS-3/CS-4 Coding Scheme Interval Type 0~64
0~64
GBFD118901 GBFD119106
CS-3/CS-4 Coding Scheme Interval Type 0~64
0~64
GBFD114101 GBFD119106
CS1(CS1), CS2(CS2), GPRS Enumeration CS3(CS3), CS4(CS4), Coding Scheme Type UNFIXED(UNFIXED)
CS1, CS2, CS3, CS4, UNFIXED
GBFD119106
Enumeration CS1(CS1), CS2(CS2), Coding Scheme Type CS3(CS3), CS4(CS4)
CS1, CS2, CS3, CS4
GBFD119106
Coding Scheme Interval Type 0~64
0~64
GBFD118901 GBFD119106
CS-3/CS-4 Coding Scheme Interval Type 0~64
0~64
GBFD118901 GBFD119106
CS-3/CS-4 Coding Scheme Interval Type 0~64
0~64
GBFD119106
Coding Scheme Interval Type 0~64
0~64
GBFD118901 GBFD119106
CS-3/CS-4 Coding Scheme Interval Type 0~64
0~64
GBFD118901 GBFD119106
CS-3/CS-4 Coding Scheme Interval Type 0~64
0~64
MRFD210301
Configuration Management
Enumeration BYNAME(By Name), Type BYID(By Index)
BYNAME, BYID
MRFD210301
Configuration Management
Interval Type 0~2047
0~2047
MRFD210301
Configuration Management
String Type
GBFD111101 GBFD119102
System Information Sending Packet System Information
Interval Type 1~16
1~16
GBFD119102
Packet System Information
Enumeration Type NO(No), YES(Yes)
NO, YES
GBFD119102
Packet System Information
Enumeration Type NO(No), YES(Yes)
NO, YES
MRFD210301
Configuration Management
Enumeration BYNAME(By Name), Type BYID(By Index)
BYNAME, BYID
MRFD210301
Configuration Management
Interval Type 0~2047
0~2047
MRFD210301
Configuration Management
String Type
1~64 characters
None
None
1~64 characters
GBFD119901
Streaming QoS(GBR)
Enumeration NO(Not Support), Type YES(Support)
NO, YES
GBFD119202
Packet Assignment Taken Over by the BTS
Enumeration NO(Not Support), Type YES(Support)
NO, YES
GBFD119202
Packet Assignment Taken Over by the BTS
Enumeration NO(Not Support), Type YES(Support)
NO, YES
GBFD119905
PoC QoS
Interval Type 6~120
6~120
GBFD119905
PoC QoS
Interval Type 6~120
6~120
GBFD119905
PoC QoS
Interval Type 250~650
250~650
GBFD119902
Enumeration NO(Not Support), QoS ARP&THP Type YES(Support)
GBFD114001
Extended Cell
Enumeration CLOSE(Close), Type OPEN(Open)
CLOSE, OPEN
GBFD114302
GSM/TDSCDMA Interoperability
UNSUPPORT(Not Enumeration Support), Type SUPPORT(Support)
UNSUPPORT, SUPPORT
NO, YES
PoC QoS
NotSupport(Not Enumeration Support), Type Support(Support)
NotSupport, Support
GBFD119901
Streaming QoS(GBR)
Enumeration Type OFF(OFF), ON(ON)
OFF, ON
MRFD211503
GSM and UMTS CoTransmission Resources Management on Enumeration MBSC Type OFF(OFF), ON(ON)
OFF, ON
GBFD119501
Adaptive Adjustment of Uplink and Downlink Channels
ULPRIORITY(Uplink Priority), NEUTRAL(Neutral Priority), Enumeration DLPRIORITY(Downlink ULPRIORITY, NEUTRAL, Type Priority) DLPRIORITY
GBFD114101
GPRS
Interval Type 0~127
GBFD119905
0~127
GBFD119302
NOTSUPPORT(Not Packet Channel Enumeration Support), Dispatching Type SUPPORT(Support)
GBFD119302
RRSCHEDULE(Round Robin Schedule), PFSCHEDULE(Proporti on Fair Scheduling), CIRSCHEDULE(Sched Packet Channel Enumeration uling Based On Carrier RRSCHEDULE, PFSCHEDULE, Dispatching Type to Interference Ratio) CIRSCHEDULE
GBFD119302
Packet Channel Dispatching Interval Type 0~50
0~50
GBFD119302
Packet Channel Dispatching Interval Type 0~255
0~255
NOTSUPPORT, SUPPORT
None
None
Interval Type 0~100
0~100
MRFD210301
Configuration Management
Enumeration BYNAME(By Name), Type BYID(By Index)
BYNAME, BYID
MRFD210301
Configuration Management
Interval Type 0~2047
0~2047
MRFD210301
Configuration Management
String Type
1~64 characters
None
GBFD119115
Power Control
0(0.0), 1(0.1), 2(0.2), 3(0.3), 4(0.4), 5(0.5), Enumeration 6(0.6), 7(0.7), 8(0.8), Type 9(0.9), 10(1.0)
GBFD119115
Power Control
Interval Type 0~31
0~31
GBFD119115
Power Control
Interval Type 0~25
0~25
GBFD119115
Power Control
Interval Type 0~25
0~25
GBFD119115
Power Control
DB0(0dB), DB2(-2dB), DB4(-4dB), DB6(-6dB), DB8(-8dB), DB10(10dB), DB12(-12dB), DB14(-14dB), DB16(16dB), DB18(-18dB), DB20(-20dB), DB22(22dB), DB24(-24dB), Enumeration DB26(-26dB), DB28(Type 28dB), DB30(-30dB)
DB0, DB2, DB4, DB6, DB8, DB10, DB12, DB14, DB16, DB18, DB20, DB22, DB24, DB26, DB28, DB30
GBFD119115
Power Control
Enumeration BCCH(BCCH), Type PDCH(PDCH)
BCCH, PDCH
GBFD119115
Power Control
Interval Type 0~15
0~15
0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 10
GBFD119115
Power Control
Enumeration Type NO(No), YES(Yes)
NO, YES
GBFD119115
Power Control
Interval Type 1~16
1~16
GBFD119115
Power Control
Interval Type 1~16
1~16
Power Control
DB0(0dB), DB2(2dB), DB4(4dB), DB6(6dB), DB8(8dB), DB10(10dB), DB12(12dB), DB14(14dB), DB16(16dB), DB18(18dB), DB20(20dB), DB22(22dB), DB24(24dB), DB26(26dB), Enumeration DB28(28dB), Type DB30(30dB)
DB0, DB2, DB4, DB6, DB8, DB10, DB12, DB14, DB16, DB18, DB20, DB22, DB24, DB26, DB28, DB30
GBFD119115
GBFD119115
Power Control
Interval Type 0~10
0~10
GBFD119115
Power Control
Interval Type 0~10
0~10
GBFD119115
Power Control
Interval Type 1~15
1~15
GBFD119115
Power Control
0.2dB(0.2dB), 0.4dB(0.4dB), 0.6dB(0.6dB), 0.8dB(0.8dB), 1.0dB(1.0dB), 1.2dB(1.2dB), 1.4dB(1.4dB), 1.6dB(1.6dB), Enumeration 1.8dB(1.8dB), Type 2.0dB(2.0dB)
0.2dB, 0.4dB, 0.6dB, 0.8dB, 1.0dB, 1.2dB, 1.4dB, 1.6dB, 1.8dB, 2.0dB
MRFD210301
Configuration Management
Enumeration BYNAME(By Name), Type BYID(By Index)
BYNAME, BYID
MRFD210301
Configuration Management
Interval Type 0~2047
0~2047
MRFD210301
Configuration Management
String Type
1~64 characters
GBFD110703
Enhanced Power Control Algorithm
Interval Type 1~20
None
TCH:480~9600, step:480; SDCCH:470~9400, step:470
GBFD110703
Enhanced Power Control Algorithm
GBFD110703
Interval Type 1~20
TCH:480~9600, step:480; SDCCH:470~9400, step:470
Enhanced Power Control Algorithm
Interval Type 1~20
TCH:480~9600, step:480; SDCCH:470~9400, step:470
GBFD110703
Enhanced Power Control Algorithm
Interval Type 1~20
TCH:480~9600, step:480; SDCCH:470~9400, step:470
GBFD110703
Enhanced Power Control Algorithm
Enumeration Type NO(No), YES(Yes)
NO, YES
GBFD110703
Enhanced Power Control Algorithm
Interval Type 0~3
0~3
GBFD110703
Enhanced Power Control Algorithm
Interval Type 0~3
0~3
GBFD110703
Enhanced Power Control Algorithm
Interval Type 0~30
0~30
GBFD110703
Enhanced Power Control Algorithm
Interval Type 0~30
0~30
GBFD110703
Enhanced Power Control Algorithm
Interval Type 0~30
0~30
GBFD110703
Enhanced Power Control Algorithm
Interval Type 0~4
0~4
GBFD110703
Enhanced Power Control Algorithm
Interval Type 0~32
0~32
GBFD110703
Enhanced Power Control Algorithm
Interval Type 0~32
0~32
GBFD110703
Enhanced Power Control Algorithm
Interval Type 0~7
0~7
GBFD110703
Enhanced Power Control Algorithm
Interval Type 0~63
0~63
GBFD110703
Enhanced Power Control Algorithm
Interval Type 0~7
0~7
GBFD110703
Enhanced Power Control Algorithm
Interval Type 0~63
0~63
GBFD110703
Enhanced Power Control Algorithm
Interval Type 1~16
2~32, step:2
GBFD115503
AMR Power Control
Interval Type 1~15
480~7200, step:480
GBFD115503
AMR Power Control
Interval Type 1~20
TCH:480~9600, step:480; SDCCH:470~9400, step:470
GBFD115503
AMR Power Control
Interval Type 1~20
TCH:480~9600, step:480; SDCCH:470~9400, step:470
GBFD115503
AMR Power Control
Interval Type 1~20
TCH:480~9600, step:480; SDCCH:470~9400, step:470
GBFD115503
AMR Power Control
Interval Type 1~20
TCH:480~9600, step:480; SDCCH:470~9400, step:470
GBFD115503
AMR Power Control
Enumeration Type NO(No), YES(Yes)
NO, YES
GBFD115503
AMR Power Control
Interval Type 0~3
0~3
GBFD115503
AMR Power Control
Interval Type 0~3
0~3
GBFD115503
AMR Power Control
Interval Type 0~63
0~63
GBFD115503
AMR Power Control
Interval Type 0~63
0~63
GBFD115503
AMR Power Control
Interval Type 0~7
0~7
GBFD115503
AMR Power Control
Interval Type 0~7
0~7
GBFD115503
AMR Power Control
Interval Type 0~63
0~63
GBFD115503
AMR Power Control
Interval Type 0~63
0~63
GBFD115503
AMR Power Control
Interval Type 0~7
0~7
GBFD115503
AMR Power Control
Interval Type 0~7
0~7
GBFD115503
AMR Power Control
Interval Type 0~30
0~30
GBFD115503
AMR Power Control
Interval Type 0~30
0~30
GBFD115503
AMR Power Control
Interval Type 0~30
0~30
GBFD115503
AMR Power Control
Interval Type 0~4
0~4
GBFD115503
AMR Power Control
Interval Type 0~32
0~32
GBFD115503
AMR Power Control
Interval Type 0~32
0~32
GBFD115503
AMR Power Control
Interval Type 0~7
0~7
GBFD115503
AMR Power Control
Interval Type 0~63
0~63
GBFD115503
AMR Power Control
Interval Type 0~7
0~7
GBFD115503
AMR Power Control
Interval Type 0~63
0~63
GBFD115503
AMR Power Control
Interval Type 1~16
2~32, step:2
GBFD118103
Network Support SAIC Interval Type 0~2
0~2
MRFD210301
Configuration Management
Enumeration BYNAME(By Name), Type BYID(By Index)
BYNAME, BYID
MRFD210301
Configuration Management
Interval Type 0~2047
0~2047
MRFD210301
Configuration Management
String Type
GBFD117601
HUAWEI III Power Control Algorithm
Interval Type 1~255
1~255
GBFD117601
HUAWEI III Power Control Algorithm
Interval Type 0~255
TCH:480~122400, step:480; SDCCH:470~119850, step:470
GBFD117601
HUAWEI III Power Control Algorithm
Interval Type 0~255
TCH:480~122400, step:480; SDCCH:470~119850, step:470
GBFD117601
HUAWEI III Power Control Algorithm
Interval Type 0~5
0~5
GBFD117601
HUAWEI III Power Control Algorithm
Interval Type 0~10
0~10
GBFD117601
HUAWEI III Power Control Algorithm
Interval Type 0~19
TCH:0~9120, step:480; SDCCH:0~8930, step:470
GBFD117601
HUAWEI III Power Control Algorithm
Interval Type 0~19
TCH:0~9120, step:480; SDCCH:0~8930, step:470
GBFD117601
HUAWEI III Power Control Algorithm
Interval Type 1~20
TCH:480~9600, step:480; SDCCH:470~9400, step:470
None
1~64 characters
GBFD117601
HUAWEI III Power Control Algorithm
Interval Type 1~20
TCH:480~9600, step:480; SDCCH:470~9400, step:470
GBFD117601
HUAWEI III Power Control Algorithm
Interval Type 0~10
0~10
GBFD117601
HUAWEI III Power Control Algorithm
Interval Type 0~10
0~10
GBFD117601
HUAWEI III Power Control Algorithm
Interval Type 0~63
0~63
GBFD117601
HUAWEI III Power Control Algorithm
Interval Type 0~63
0~63
GBFD117601
HUAWEI III Power Control Algorithm
Interval Type 1~30
1~30
GBFD117601
HUAWEI III Power Control Algorithm
Interval Type 1~30
1~30
GBFD117601
HUAWEI III Power Control Algorithm
Interval Type 1~30
1~30
GBFD117601
HUAWEI III Power Control Algorithm
Interval Type 1~30
1~30
GBFD117601
HUAWEI III Power Control Algorithm
Interval Type 1~30
1~30
GBFD117601
HUAWEI III Power Control Algorithm
Interval Type 1~30
1~30
GBFD117601
HUAWEI III Power Control Algorithm
Interval Type 1~30
1~30
GBFD117601
HUAWEI III Power Control Algorithm
Interval Type 1~30
1~30
GBFD117601
HUAWEI III Power Control Algorithm
Interval Type 1~30
1~30
GBFD117601
HUAWEI III Power Control Algorithm
Interval Type 1~30
1~30
GBFD117601
HUAWEI III Power Control Algorithm
Interval Type 0~19
TCH:0~9120, step:480; SDCCH:0~8930, step:470
GBFD117601
HUAWEI III Power Control Algorithm
Interval Type 0~19
TCH:0~9120, step:480; SDCCH:0~8930, step:470
GBFD117601
HUAWEI III Power Control Algorithm
Interval Type 1~20
TCH:0~9120, step:480; SDCCH:0~8930, step:470
GBFD117601
HUAWEI III Power Control Algorithm
Interval Type 1~20
TCH:0~9120, step:480; SDCCH:0~8930, step:470
GBFD117601
HUAWEI III Power Control Algorithm
Interval Type 0~10
0~10
GBFD117601
HUAWEI III Power Control Algorithm
Interval Type 0~10
0~10
GBFD117601
HUAWEI III Power Control Algorithm
Interval Type 0~63
0~63
GBFD117601
HUAWEI III Power Control Algorithm
Interval Type 0~63
0~63
GBFD117601
HUAWEI III Power Control Algorithm
Interval Type 1~30
1~30
GBFD117601
HUAWEI III Power Control Algorithm
Interval Type 1~30
1~30
GBFD117601
HUAWEI III Power Control Algorithm
Interval Type 1~30
1~30
GBFD117601
HUAWEI III Power Control Algorithm
Interval Type 1~30
1~30
GBFD117601
HUAWEI III Power Control Algorithm
Interval Type 1~30
1~30
GBFD117601
HUAWEI III Power Control Algorithm
Interval Type 1~30
1~30
GBFD117601
HUAWEI III Power Control Algorithm
Interval Type 1~30
1~30
GBFD117601
HUAWEI III Power Control Algorithm
Interval Type 1~30
1~30
GBFD117601
HUAWEI III Power Control Algorithm
Interval Type 1~30
1~30
GBFD117601
HUAWEI III Power Control Algorithm
Interval Type 1~30
1~30
GBFD118103
Network Support SAIC Interval Type 0~4
0~4
GBFD117601
HUAWEI III Power Control Algorithm
Enumeration Type NO(No), YES(Yes)
NO, YES
GBFD117601
HUAWEI III Power Control Algorithm
Enumeration Type NO(No), YES(Yes)
NO, YES
GBFD117601
HUAWEI III Power Control Algorithm
Interval Type 1~10
1~10
GBFD117601
HUAWEI III Power Control Algorithm
Interval Type 1~10
1~10
GBFD117601
HUAWEI III Power Control Algorithm
Interval Type 0~100
0~100
GBFD117601
HUAWEI III Power Control Algorithm
Interval Type 0~100
0~100
GBFD117601
HUAWEI III Power Control Algorithm
Interval Type 0~100
0~100
GBFD117601
HUAWEI III Power Control Algorithm
Interval Type 0~100
0~100
GBFD117601
HUAWEI III Power Control Algorithm
Enumeration OFF(Not Allowed), Type ON(Allowed)
OFF, ON
GBFD117601
HUAWEI III Power Control Algorithm
Enumeration OFF(Not Allowed), Type ON(Allowed)
OFF, ON
MRFD210301
Configuration Management
Enumeration BYNAME(By Name), Type BYID(By Index)
BYNAME, BYID
MRFD210301
Configuration Management
Interval Type 0~2047
0~2047
MRFD210301
Configuration Management
String Type
1~64 characters
GBFD110703
Enhanced Power Control Algorithm
Interval Type 1~15
TCH:480~7200, step:480; SDCCH:470~7050, step:470
GBFD110703
Enhanced Power Control Algorithm
Interval Type 0~63
0~63
GBFD110703
Enhanced Power Control Algorithm
Interval Type 0~63
0~63
GBFD110703
Enhanced Power Control Algorithm
Interval Type 0~7
0~7
None
GBFD110703
Enhanced Power Control Algorithm
Interval Type 0~7
0~7
GBFD110703
Enhanced Power Control Algorithm
Interval Type 0~63
0~63
GBFD110703
Enhanced Power Control Algorithm
Interval Type 0~63
0~63
GBFD110703
Enhanced Power Control Algorithm
Interval Type 0~7
0~7
GBFD110703
Enhanced Power Control Algorithm Enhanced Power Control Algorithm
GBFD110703
Enhanced Power Control Algorithm
Interval Type 0~15
0~15
GBFD117602
Active Power Control
Enumeration Type NO(No), YES(Yes)
NO, YES
GBFD117602
Active Power Control
Interval Type 0~100
0~10, step:0.1
GBFD117602
Active Power Control
Interval Type 0~255
0~25.5, step:0.1
GBFD117602
Active Power Control
Interval Type 0~255
0~25.5, step:0.1
GBFD117602
Active Power Control
Interval Type 0~63
0~63
GBFD110703
Interval Type 0~7
0~7
Enumeration PWR2(Power control II), Type PWR3(Power controlIII) PWR2, PWR3
GBFD117602
Active Power Control
GBFD118103
Network Support Enumeration SAIC Type NO(No), YES(Yes)
NO, YES
MRFD210301
Configuration Management
Interval Type 0~2047
0~2047
MRFD210301
Configuration Management
String Type
1~64 characters
GBFD111202
O&M of BTS
Enumeration GSM900(GSM900), Type DCS1800(DCS1800)
GSM900, DCS1800
MRFD210301
Configuration Management
String Type
None
3 digits
MRFD210301
Configuration Management
String Type
None
2~3 digits
MRFD210301
Configuration Management
Interval Type 1~65533, 65535
Interval Type 0~63
None
0~63
1~65533, 65535
MRFD210301
Configuration Management
Interval Type 0~65535
0~65535
MRFD210301
Configuration Management
Interval Type 0~7
0~7
MRFD210301
Configuration Management
Interval Type 0~7
0~7
GBFD111202
O&M of BTS
Interval Type 1~16777215
1~16777215
GBFD110101
Frequency Band Interval Type 0~1023
0~1023
GBFD110101
Frequency Band String Type
1~200 characters
MRFD210301
Configuration Management
Interval Type 1~191
GBFD114101
GPRS
NO(Not Support), SupportAsInnPcu(Supp ort As Inner Pcu), Enumeration SupportAsExtPcu(Supp NO, SupportAsInnPcu, Type ort As Outer Pcu) SupportAsExtPcu
GBFD510701
Compact BTS Automatic Configuration and Planning
None
1~191
Interval Type 0~255
0~255
GBFD119001
Gb Interface Function
Interval Type 0~65534
0~65534
GBFD119001
Gb Interface Function
Interval Type 2~65534
2~65534
MRFD210301
Configuration Management
String Type
1~64 characters
None
MRFD210301
Configuration Management
Enumeration BYNAME(By Name), Type BYID(By Index)
BYNAME, BYID
MRFD210301
Configuration Management
Interval Type 0~2047
0~2047
MRFD210301
Configuration Management
String Type
1~64 characters
GPRS
0dB(0dB), 2dB(2dB), 4dB(4dB), 6dB(6dB), 8dB(8dB), 10dB(10dB), Enumeration 12dB(12dB), 0dB, 2dB, 4dB, 6dB, 8dB, 10dB, Type 14dB(14dB) 12dB, 14dB
GBFD114101
GPRS
C31NOTUSE(Not Use c31 standard), Enumeration C31STANDARD(Use Type c31 standard)
C31NOTUSE, C31STANDARD
GBFD114101
GPRS
Interval Type 0~1
0~1
GPRS
Enumeration Type NO(No), YES(Yes)
NO, YES
GBFD114101
GBFD114101
None
GPRS
5sec(5sec), 10sec(10sec), 15sec(15sec), 20sec(20sec), 30sec(30sec), 60sec(60sec), 120sec(120sec), Enumeration 300sec(300sec), Type nouse(no use)
GBFD114101
GPRS
0dB(0dB), 2dB(2dB), 4dB(4dB), 6dB(6dB), 8dB(8dB), 10dB(10dB), 12dB(12dB), Enumeration 14dB(14dB), nouse(no 0dB, 2dB, 4dB, 6dB, 8dB, 10dB, Type use) 12dB, 14dB, no use
MRFD210301
Configuration Management
Enumeration BYNAME(By Name), Type BYID(By Index)
BYNAME, BYID
MRFD210301
Configuration Management
Interval Type 0~2047
0~2047
MRFD210301
Configuration Management
String Type
1~64 characters
MRFD210301
Configuration Management
Interval Type 1~30
1~30
MRFD210301
Configuration Management
Interval Type 0~65535
0~65535
MRFD210301
Configuration Management
Enumeration BYNAME(By Name), Type BYID(By Index)
BYNAME, BYID
MRFD210301
Configuration Management
Interval Type 0~2047
0~2047
GBFD114101
None
5sec, 10sec, 15sec, 20sec, 30sec, 60sec, 120sec, 300sec, no use
MRFD210301
Configuration Management
String Type
GBFD113602
Simplified Cell Broadcast
Enumeration Type NO(No), YES(Yes)
None
1~64 characters
NO, YES
GBFD113602
Simplified Cell Broadcast
LAC_CI(CELL IMME), Enumeration PLMN(ALL), LAC(LAC), Type CI(CELL) LAC_CI, PLMN, LAC, CI
GBFD113602
Simplified Cell Broadcast
Interval Type 0~65535
0~65535
GBFD113602
Simplified Cell Broadcast
GERMAN(GERMAN), ENGLISH(ENGLISH), ITALIAN(ITALIAN), FRENCH(FRENCH), SPANISH(SPANISH), DUTCH(DUTCH), SWEDISH(SWEDISH), DANISH(DANISH), PORTUGUESE(PORT UGUESE), FINNISH(FINNISH), NORWEGIAN(NORWE GIAN), GREEK(GREEK), TURKISH(TURKISH), HUNGARIAN(HUNGAR IAN), POLISH(POLISH), GB2312(GB2312), KOI8R(Cyrillic KOI8-R), KOI8U(Cyrillic KOI8-U), GERMAN, ENGLISH, ITALIAN, KOI8(Cyrillic KOI8), FRENCH, SPANISH, DUTCH, WINDOWSSWEDISH, DANISH, 1251(Cyrillic Windows), PORTUGUESE, FINNISH, ASMO_449(Arabic NORWEGIAN, GREEK, ASMO), WINDOWSTURKISH, HUNGARIAN, 1256(Arabic Windows), POLISH, GB2312, KOI8-R, KOI8WINDOWS-874(Thai U, KOI8, WINDOWS-1251, Windows), WINDOWS- ASMO_449, WINDOWS-1256, 1253(Greek Windows), WINDOWS-874, WINDOWSWINDOWS1253, WINDOWS-1254, 1254(Turkish Windows), WINDOWS-1255, WINDOWSWINDOWS1257, WINDOWS-1250, 1255(Hebrew WINDOWS-1252, BINARY, Enumeration Windows), WINDOWS- UCS2, RCS-1, RCS-2, RCS-3, Type 1257(Baltic Windows), RCS-4, RCS-5
GBFD113602
Simplified Cell Broadcast
Any Type
GBFD113602
Simplified Cell Broadcast
Interval Type 2~3600
2~3600
MRFD210301
Configuration Management
Enumeration BYNAME(By Name), Type BYID(By Index)
BYNAME, BYID
MRFD210301
Configuration Management
Interval Type 0~2047
0~2047
None
1~80 characters
MRFD210301
Configuration Management
String Type
GBFD111101 GBFD114101
System Information Sending GPRS
Permit(Permit Cell Access), Enumeration NoPermit(Prohibit Cell Type Access)
GBFD114101
GPRS
Enumeration NoExclusive(NoExclusiv Type e), Exclusive(Exclusive) NoExclusive, Exclusive
GBFD114101
GPRS
Interval Type 0~63
0~63
GBFD114101
GPRS
Interval Type 0~31
0~31
GPRS
0(0), 1(1), 2(2), 3(3), Enumeration 4(4), 5(5), 6(6), 7(7), Type nouse(no use)
0, 1, 2, 3, 4, 5, 6, 7, no use
GBFD114101
None
1~64 characters
Permit, NoPermit
GPRS
DB110(-110dB), DB108(-108dB), DB106(-106dB), DB104(-104dB), DB102(-102dB), DB100(-100dB), DB98(98dB), DB96(-96dB), DB94(-94dB), DB92(92dB), DB90(-90dB), DB88(-88dB), DB86(86dB), DB84(-84dB), DB82(-82dB), DB80(80dB), DB78(-78dB), DB76(-76dB), DB74(74dB), DB72(-72dB), DB70(-70dB), DB68(68dB), DB66(-66dB), DB64(-64dB), DB62(62dB), DB60(-60dB), DB58(-58dB), DB56(56dB), DB54(-54dB), DB52(-52dB), DB50(Enumeration 50dB), DB48(-48dB), Type nouse(no use)
GBFD114101
GPRS
REPORT6(Report six), REPORT1(Report one), REPORT2(Report two), Enumeration REPORT3(Report REPORT6, REPORT1, Type three) REPORT2, REPORT3
MRFD210301
Configuration Management
Enumeration BYNAME(By Name), Type BYID(By Index)
BYNAME, BYID
MRFD210301
Configuration Management
Interval Type 0~2047
0~2047
MRFD210301
Configuration Management
String Type
1~64 characters
GBFD114101
None
DB110, DB108, DB106, DB104, DB102, DB100, DB98, DB96, DB94, DB92, DB90, DB88, DB86, DB84, DB82, DB80, DB78, DB76, DB74, DB72, DB70, DB68, DB66, DB64, DB62, DB60, DB58, DB56, DB54, DB52, DB50, DB48, no use
GBFD113801
TRX Cooperation
Interval Type 1~60
1~60
GBFD110601
HUAWEI I Handover
Enumeration Type NO(No), YES(Yes)
NO, YES
GBFD111004
Radio Dedicated Channel Management Interval Type 0~1
0~1
GBFD111004
Radio Dedicated Channel Management Interval Type 0~1
0~1
GBFD111004
Radio Dedicated Channel Management Interval Type 0~1
0~1
GBFD111004
Radio Dedicated Channel Management Interval Type 0~1
0~1
GBFD111004
Radio Dedicated Channel Management Interval Type 0~1
0~1
GBFD111004
Radio Dedicated Channel Management Interval Type 0~1
0~1
GBFD111004
Radio Dedicated Channel Management Interval Type 0~1
0~1
GBFD111004
Radio Dedicated Channel Management Interval Type 0~1
0~1
GBFD111004
Radio Dedicated Channel Management Interval Type 0~1
0~1
GBFD111004
Radio Dedicated Channel Management Interval Type 0~1
0~1
GBFD111004
Radio Dedicated Channel Management Interval Type 0~1
0~1
GBFD111004
Radio Dedicated Channel Management Interval Type 0~1
0~1
GBFD111004
Radio Dedicated Channel Management Interval Type 0~1
0~1
GBFD111004
Radio Dedicated Channel Management Interval Type 0~1
0~1
GBFD111004
Radio Dedicated Channel Management Interval Type 0~1
0~1
GBFD111004
Radio Dedicated Channel Management Interval Type 0~1
0~1
GBFD111004
Radio Dedicated Channel Management Interval Type 0~1
0~1
GBFD111004
Radio Dedicated Channel Management Interval Type 0~1
0~1
GBFD112401
Cell Frequency Scan
MainDiversity(MainDiver sity), Enumeration MaximumMeanValue(M MainDiversity, Type aximumMeanValue) MaximumMeanValue
GBFD110601 GBFD510501
HUAWEI I Handover HUAWEI II Handover
Enumeration Type NO(No), YES(Yes)
NO, YES
GBFD110601 GBFD510501
HUAWEI I Handover HUAWEI II Handover
Enumeration Type NO(No), YES(Yes)
NO, YES
GBFD117301
Flex Abis
Enumeration Type NO(No), YES(Yes)
NO, YES
GBFD117301
Flex Abis
Enumeration Type NO(No), YES(Yes)
NO, YES
GBFD111202
O&M of BTS
Enumeration Type NO(No), YES(Yes)
NO, YES
GBFD112401
Cell Frequency Scan
Enumeration INTBANI(INTBANI), Type INTBANII(INTBANII)
INTBANI, INTBANII
GBFD110303
Paging
CLOSE(Forced turnoff), OPEN(Forced turnEnumeration on), AUTO(SelfType adaptive) CLOSE, OPEN, AUTO
GBFD110303
Paging
Interval Type 1~8
50~400, step: 50
GBFD110303
Paging
Interval Type 2~15
2~15
GBFD110501
Call Control
Enumeration Type OFF(Off), ON(On)
OFF, ON
GBFD113503
A5/3 Ciphering Algorithm
Enumeration Type OFF(Off), ON(On)
OFF, ON
GBFD110501 GBFD113301
Call Control Enhanced Full Rate
Enumeration Type NO(No), YES(Yes)
NO, YES
GBFD111705
GSM Flow Control
Interval Type 10~65535
10~65535
GBFD111705
GSM Flow Control
Interval Type 10~65535
10~65535
GBFD115821
EICC
Enumeration Type NO(No), YES(Yes)
NO, YES
GBFD110601 GBFD510501
HUAWEI I Handover HUAWEI II Handover
Enumeration Type NO(No), YES(Yes)
NO, YES
GBFD110601 GBFD510501
HUAWEI I Handover HUAWEI II Handover
Enumeration Type NO(No), YES(Yes)
NO, YES
GBFD113521
A5/1 Encryption Flow Enumeration Optimization Type OFF(Off), ON(On) A5/1 Encryption Flow Optimization Interval Type 1~600
GBFD113521 GBFD118201 GBFD117001
A5/1 Encryption Flow Optimization SoftSynchronized Network Enumeration Flex MAIO Type OFF(Off), ON(On)
OFF, ON
GBFD113521
A5/1 Encryption Flow Enumeration Optimization Type OFF(Off), ON(On)
OFF, ON
GBFD113521
A5/1 Encryption Flow Enumeration Optimization Type OFF(Off), ON(On)
OFF, ON
GBFD110501 GBFD510502
Call Control Handover Reestablishment
NO, YES
GBFD111004
Radio Dedicated Channel Management Interval Type 0~70
GBFD113521
Enumeration Type NO(No), YES(Yes)
OFF, ON
1~600
0~70
GBFD110501
Call Control
Interval Type 2~4
GBFD116801
Voice Quality Index (Uplink VQI)
DISABLE(Disable), ENABLE(Enable), Enumeration UNSUPPORT(Unsuppo DISABLE, ENABLE, Type rt) UNSUPPORT
GBFD510104
Multi-site Cell
OnlyCurPwrLoc(Only Current Working Location TRXes be Turned On), Enumeration ALLPwrLoc(All Location Type TRXes be Turned On) OnlyCurPwrLoc, ALLPwrLoc
GBFD116801
Voice Quality Index (Uplink VQI)
Enumeration Type NO(No), YES(Yes)
NO, YES
GBFD111606
Power Optimization Based on Channel Type
Enumeration Type NO(No), YES(Yes)
NO, YES
GBFD118103
Network Support Enumeration SAIC Type OFF(Off), ON(On)
OFF, ON
2~4
GBFD118201
SoftSynchronized Network
Enumeration Type NO(No), YES(Yes)
GBFD114401
Frequency Hopping (RF hopping, baseband hopping) Multi-band Sharing One BSC Multi-band Sharing One BSC Multi-band Sharing One BSC
GBFD111003
Radio Common Channel Management Interval Type 1~20
GBFD113701 GBFD114401 GBFD114401
NO, YES
CA_MA(CA+MA), Frequency_List(Freque ncy List), Enumeration OPTIMIZED_CA_MA(O CA_MA, Frequency_List, Type ptimized CA+MA) OPTIMIZED_CA_MA
Interval Type 0~1
0~1
Interval Type 0~1
0~1
Interval Type 0~1
0~1
1~20
GBFD111203
O&M of BSC
Enumeration NO(Not Allowed), Type YES(Allowed)
GBFD110601 GBFD510501
HUAWEI I Handover HUAWEI II Handover
Enumeration Type NO(Close), YES(Open) NO, YES
NO, YES
GBFD110303
Paging
Interval Type 0~255
0~63750, step: 250
GBFD111203
O&M of BSC
Enumeration DISABLE(DISABLE), Type ENABLE(ENABLE)
DISABLE, ENABLE
GBFD111203
O&M of BSC
Interval Type 0~255
0~255
GBFD111203
O&M of BSC
Interval Type 0~100
0~100
GBFD111203
O&M of BSC
Enumeration DISABLE(DISABLE), Type ENABLE(ENABLE)
DISABLE, ENABLE
GBFD111203
O&M of BSC
Interval Type 0~255
0~255
GBFD111203
O&M of BSC
Interval Type 0~255
0~255
GBFD111203
O&M of BSC
Interval Type 0~15
0~15
GBFD111203
O&M of BSC
Enumeration Type NO(No), YES(Yes)
NO, YES
None
None
Enumeration Type NO(No), YES(Yes)
NO, YES
GBFD111203
O&M of BSC
Enumeration Type OFF(Off), ON(On)
OFF, ON
GBFD111203
O&M of BSC
Interval Type 0~100
0~100
GBFD114101
GPRS
Interval Type 0~100
0~100
Interval Type 1~64
1~64
GBFD114401
GPRS Multi-band Sharing One BSC
Interval Type 0~1
0~1
GBFD511301
Cell Reselection Between GSM Enumeration and LTE Type NO(No), YES(Yes)
GBFD114101
NO, YES
GBFD114801 GBFD115501
Discontinuous MSC_STRATEGY(MSC Transmission Strategy), (DTX) Downlink Enumeration BSC_STRATEGY(BSC MSC_STRATEGY, AMR FR Type Strategy) BSC_STRATEGY
GBFD511701
Radio Measurement Data Interface for Navigation
Enumeration Type OFF(Off), ON(On)
OFF, ON
MRFD210301
Configuration Management
Enumeration BYNAME(By Name), Type BYID(By Index)
BYNAME, BYID
MRFD210301
Configuration Management
Interval Type 0~2047
0~2047
MRFD210301
Configuration Management
String Type
1~64 characters
GBFD114101
GPRS
Interval Type 8~30
None
8~30
GBFD114101
GPRS
Interval Type 2~5
2~5
GBFD114101 GBFD119205
GPRS Dynamically Adjusting the RRBP Frequency
Interval Type 3~10
3~10
MRFD210301
Configuration Management
Enumeration BYNAME(By Name), Type BYID(By Index)
BYNAME, BYID
MRFD210301
Configuration Management
String Type
1~64 characters
None
MRFD210301
Configuration Management
Interval Type 0~2047
0~2047
MRFD210301
Configuration Management
Enumeration BYNAME(By Name), Type BYID(By Index)
BYNAME, BYID
MRFD210301
Configuration Management
Interval Type 32768~65535
32768~65535
MRFD210301
Configuration Management
String Type
None
1~64 characters
MRFD210301
Configuration Management
String Type
None
1~64 characters
MRFD210301
Configuration Management
String Type
None
1~64 characters
GBFD111202
O&M of BTS
Interval Type 0~2047
0~2047
GBFD111202
O&M of BTS
String Type
None
1~64 characters
MRFD210301
Configuration Management
Enumeration BYNAME(By Name), Type BYID(By Index)
BYNAME, BYID
MRFD210301
Configuration Management
Interval Type 32768~65535
32768~65535
MRFD210301
Configuration Management
String Type
None
1~64 characters
MRFD210301
Configuration Management
String Type
None
1~64 characters
MRFD210301
Configuration Management
String Type
None
1~64 characters
MRFD210301
Configuration Management
String Type
None
1~64 characters
MRFD210301
Configuration Management
Enumeration BYNAME(By Name), Type BYID(By Index)
BYNAME, BYID
MRFD210301
Configuration Management
Interval Type 0~2047
0~2047
MRFD210301
Configuration Management
String Type
1~64 characters
None
GBFD111804
Assignment and Immediate Assignment Interval Type 500~60000 A Interface Protocol Process Interval Type 1000~30000
GBFD110601 GBFD510501
HUAWEI I Handover HUAWEI II Handover
Interval Type 500~60000
500~60000
GBFD110601 GBFD510501
HUAWEI I Handover HUAWEI II Handover
Interval Type 500~60000
500~60000
GBFD110502
500~60000
1000~30000
GBFD110601 GBFD510501
HUAWEI I Handover HUAWEI II Handover
Interval Type 500~60000
500~60000
GBFD110502
Assignment and Immediate Assignment Interval Type 500~60000
500~60000
GBFD110601 GBFD510501
HUAWEI I Handover HUAWEI II Handover
500~60000
Interval Type 500~60000
GBFD110601 GBFD510501
HUAWEI I Handover HUAWEI II Handover
Interval Type 500~60000
500~60000
GBFD110501
Call Control
Interval Type 4000~33000
4000~33000
GBFD110501
Call Control
Interval Type 500~60000
500~60000
GBFD110503
Call Reestablishment Interval Type 5000~40000
5000~40000
GBFD110502
Assignment and Immediate Assignment Interval Type 0~255
0~255
GBFD115501
AMR FR
Interval Type 3000~34000
3000~34000
GBFD115502
AMR HR
Interval Type 3000~34000
3000~34000
GBFD111005
Enhanced Channel Assignment Algorithm
Interval Type 1~30
1~30
GBFD110601 GBFD510501
HUAWEI I Handover HUAWEI II Handover
Interval Type 1~30
1~30
GBFD110202 GBFD110521
Emergency Call Service (TS12) Guaranteed Emergency Call Interval Type 1~30
1~30
GBFD111203
O&M of BSC
Interval Type 0~240
0~240
GBFD110601
HUAWEI I Handover
Interval Type 500~60000
500~60000
GBFD117401
MSC Pool
GBFD111804 GBFD118602 GBFD118622
A Interface Protocol Process A over IP A IP over E1/T1 Interval Type 0~186
0~186
GBFD117401
MSC Pool
Interval Type 0~31
0~31
GBFD118701
RAN Sharing
String Type
0~255 characters
GBFD117401
MSC Pool
Interval Type 0~65535
0~65535
GBFD117401
MSC Pool
Interval Type 0~4095
0~4095
MSC Pool
OFFLOAD(Offload), Enumeration NORMAL(Normal), Type UNAVAIL(Unavailable)
OFFLOAD, NORMAL, UNAVAIL
GBFD117401
Interval Type 0~31
None
0~31
GBFD117701 GBFD117702
BSC Local Switch BTS Local Switch
NONSUPPORT(Not Support), BASIC(Basic Fun), Enumeration ENHANCED(Enhanced NONSUPPORT, BASIC, Type Fun) ENHANCED
GBFD117401
MSC Pool
Enumeration NO(Not Default DPC), Type YES(Default DPC)
NO, YES
GBFD111804
A Interface Protocol Process
Interval Type 1~300
1~300
GBFD118602
A over IP
Enumeration Type OFF(Close), ON(Open) OFF, ON
GBFD118602
A over IP
Interval Type 1~5
1~5
GBFD510301
Public Voice Group Call Service
Enumeration Type NO(No), YES(Yes)
NO, YES
GBFD510301
Public Voice Group Call Service
Enumeration Type NO(No), YES(Yes)
NO, YES
GBFD118602
A over IP
Enumeration Type TDM, IP, TDM_IP
TDM, IP, TDM_IP
GBFD118602
A over IP
Enumeration Type NO(No), YES(Yes)
NO, YES
GBFD118701
RAN Sharing
Interval Type 0~15
0~15
GBFD118701
RAN Sharing
String Type
None
0~255 characters
MRFD210301
Configuration Management
String Type
None
3 digits
MRFD210301
Configuration Management
String Type
None
2~3 digits
GBFD113601
Short Message Service Cell Broadcast (TS23)
NOTSPPRTBC(NotSup port CB), SPPRTSTANDARD(Su pportStandard CB), NOTSPPRTBC, Enumeration SPPRTSIMPLE(Support SPPRTSTANDARD, Type Simple CB) SPPRTSIMPLE
GBFD118701
RAN Sharing
Enumeration Type NO(No), YES(Yes)
NO, YES
GBFD117401
MSC Pool
Enumeration Type NO(No), YES(Yes)
NO, YES
GBFD117401
MSC Pool
Interval Type 1~10
1~10
MSC Pool
RANDOMALG(Random Algorithm), Enumeration OTHERALG(MS ID Type Algorithm) RANDOMALG, OTHERALG
GBFD117401
GBFD117401
MSC Pool
Interval Type 3~15
3~15
GBFD117401
MSC Pool
Interval Type 1~15
1~15
GBFD117401
MSC Pool
Interval Type 0~1023
0~1023
GBFD119701
SGSN Pool
Enumeration Type NO(No), YES(Yes)
NO, YES
GBFD119701
SGSN Pool
Interval Type 1~10
1~10
GBFD119701
SGSN Pool
Interval Type 0~1023
0~1023
GBFD118701
RAN Sharing
PRIM(Primary Operator), Enumeration SEC(Secondary Type Operator)
PRIM, SEC
MRFD210802
User Signaling Tracing
Enumeration Type OFF(OFF), ON(ON)
OFF, ON
MRFD210802
User Signaling Tracing
MRFD210802
User Signaling Tracing
COMMONUSRM(Com mon User Mode), Enumeration SPECUSRM(Specified Type User Mode) LU(Location Update), Bit Field SMS(Short Message Type Service), CALL(Call)
MRFD210802
User Signaling Tracing
ABNORMREC(Output Abnormal Records in BSC), ALLBSCREC(Output All Records in BSC), Enumeration ALLCELLREC(Output ABNORMREC, ALLBSCREC, Type All Records in Cells) ALLCELLREC
MRFD210802
User Signaling Tracing
Enumeration OFF(Not Output), Type ON(Output)
OFF, ON
User Signaling Tracing
OFF(Not Output), ALL(Output All), AINTF(Output A Interface Signaling), Enumeration ABISINTF(Output Abis Type Interface Signaling)
OFF, ALL, AINTF, ABISINTF
MRFD210802
MRFD210802
MRFD210802
User Signaling Tracing
User Signaling Tracing
COMMONUSRM, SPECUSRM
LU, SMS, CALL
Bit Field Type
VOICEINF(Speech Information), MR(Measurement Information), CALLAPPENDINF(Addit ional CHR Information), CALLINNERINF(CHR VOICEINF, MR, Internal Resource CALLAPPENDINF, Information) CALLINNERINF
Bit Field Type
RESINSUFF(Resource Insufficiency), UMABNORM(Abnormal Um Interface), TRAFFREJECT(Service Rejection), MSCREL(MSC Abnormal Disconnect), MSCDISCON(MSC Sending Disconnect Before Assignment), RESINSUFF, UMABNORM, BADQUALITY(Bad TRAFFREJECT, MSCREL, Quality) MSCDISCON, BADQUALITY
MRFD210802
User Signaling Tracing
Interval Type 0~100
0~100
MRFD210802
User Signaling Tracing
Enumeration OFF(Not Output), Type ON(Output)
OFF, ON
MRFD210802
User Signaling Tracing
OFF(Not Output), MRHOFAIL(Preferentiall y Output MR of HO Failure), MRHOLATEST(Prefere Enumeration ntially Output MR of OFF, MRHOFAIL, Type Latest HO) MRHOLATEST
MRFD210802
User Signaling Tracing
Enumeration OFF(Not Output), Type ON(Output)
OFF, ON
MRFD210802
User Signaling Tracing
Enumeration OFF(Not Output), Type ON(Output)
OFF, ON
MRFD210802
User Signaling Tracing
BYBTSNAME(By BTS Name), BYBTSID(By BTS Index), BYCELLNAME(By Cell Enumeration Name), BYCELLID(By Type Cell Index)
BYBTSNAME, BYBTSID, BYCELLNAME, BYCELLID
GBFD111202
O&M of BTS
Interval Type 0~2047
0~2047
GBFD111202
O&M of BTS
String Type
1~64 characters
MRFD210301
Configuration Management
Interval Type 0~2047
0~2047
MRFD210301
Configuration Management
String Type
1~64 characters
None
None
MRFD210802
User Signaling Tracing
Enumeration Type OFF(Off), ON(On)
OFF, ON
MRFD210802
User Signaling Tracing
Interval Type 0~499
0~499
GBFD111203
O&M of BSC
BYTMSI(By TMSI), BYIMSI(By IMSI), BYMSISDN(By Enumeration MSISDN), BYIMEI(By Type IMEI)
BYTMSI, BYIMSI, BYMSISDN, BYIMEI
GBFD111203
O&M of BSC
Interval Type 0~4294967294
0~4294967294
GBFD111203
O&M of BSC
String Type
None
1~15 characters
GBFD111203
O&M of BSC
String Type
None
1~32 characters
GBFD111203
O&M of BSC
String Type
None
1~15 characters
None
None
FIXED(File of a Fixed Enumeration Size), CYCLE(Periodical Type Generation of New File) FIXED, CYCLE
None
None
Interval Type 10~255
10~255
MRFD210301
Configuration Management
Interval Type 2048~12287
2048~12287
GBFD111202
O&M of BTS
String Type
None
1~64 characters
MRFD210301
Configuration Management
String Type
None
3 digits
MRFD210301
Configuration Management
String Type
MRFD210301
Configuration Management
Interval Type 1~65533, 65535
1~65533, 65535
MRFD210301
Configuration Management
Interval Type 0~65535
0~65535
MRFD210301
Configuration Management
Interval Type 0~1023
0~1023
MRFD210301
Configuration Management
Interval Type 0~7
0~7
MRFD210301
Configuration Management
Interval Type 0~7
0~7
GBFD110601 GBFD510501
HUAWEI I Handover HUAWEI II Handover
Enumeration Type NO(No), YES(Yes)
NO, YES
None
2~3 digits
GBFD110601 GBFD510501
HUAWEI I Handover HUAWEI II Handover
Enumeration Type 1, 2, 3, 4
1, 2, 3, 4
GBFD110601 GBFD510501
HUAWEI I Handover HUAWEI II Handover
Prior-1, Prior-2, Prior-3, Prior-4, Prior-5, Prior-6, Prior-7, Prior-8, Prior-9, Prior-10, Prior-11, PriorEnumeration 12, Prior-13, Prior-14, Type Prior-15, Prior-16
Prior-1, Prior-2, Prior-3, Prior-4, Prior-5, Prior-6, Prior-7, Prior-8, Prior-9, Prior-10, Prior-11, Prior12, Prior-13, Prior-14, Prior-15, Prior-16
GBFD110601 GBFD510501
HUAWEI I Handover HUAWEI II Handover
Interval Type 0~63
0~63
GBFD110601 GBFD510501
HUAWEI I Handover HUAWEI II Handover
Interval Type 0~63
0~63
GBFD110601 GBFD510501
HUAWEI I Handover HUAWEI II Handover
Interval Type 0~255
0~255
GBFD110601 GBFD510501
HUAWEI I Handover HUAWEI II Handover
Interval Type 0~63
0~63
GBFD110601 GBFD510501
HUAWEI I Handover HUAWEI II Handover
Interval Type 0~255
0~255
GBFD110601 GBFD510501
HUAWEI I Handover HUAWEI II Handover
Interval Type 0~63
0~63
GBFD110601 GBFD510501
HUAWEI I Handover HUAWEI II Handover
Interval Type 0~127
0~127
GBFD110601 GBFD510501
HUAWEI I Handover HUAWEI II Handover
Enumeration Type NO(No), YES(Yes)
NO, YES
GBFD110601 GBFD510501
HUAWEI I Handover HUAWEI II Handover
Interval Type 0~100
0~100
GBFD116201
NetworkControlled Cell Reselection (NC2)
Enumeration NO(Not support), Type YES(Support)
NO, YES
GBFD114101
GPRS
Enumeration NO(Not support), Type YES(Support)
NO, YES
GBFD114201
EGPRS
Enumeration NO(Not support), Type YES(Support)
NO, YES
MRFD210301
Configuration Management
Interval Type 0~255
0~255
MRFD210301
Configuration Management
Interval Type 0~15
0~15
GBFD118701
RAN Sharing
String Type
None
MRFD210301
Configuration Management
BYNAME(By name), Enumeration BYID(By index), Type BYCGI(By CGI)
BYNAME, BYID, BYCGI
MRFD210301
Configuration Management
String Type
None
1~3 characters
MRFD210301
Configuration Management
String Type
None
1~3 characters
MRFD210301
Configuration Management
Interval Type 1~65533, 65535
1~65533, 65535
MRFD210301
Configuration Management
Interval Type 0~65535
0~65535
MRFD210301
Configuration Management
String Type
1~64 characters
MRFD210301
Configuration Management
Interval Type 5048~8047
5048~8047
GBFD111202
O&M of BTS
String Type
None
1~64 characters
MRFD210301
Configuration Management
String Type
None
3 digits
MRFD210301
Configuration Management
String Type
None
2~3 digits
None
0~255 characters
MRFD210301
Configuration Management
Interval Type 1~65533, 65535
1~65533, 65535
MRFD210301
Configuration Management
Interval Type 0~65535
0~65535
MRFD210301
Configuration Management
Interval Type 0~4095
0~4095
MRFD211402
MBSC Load Balancing
Interval Type 0~16, 255
0~16, 255
GBFD110601 GBFD510501
HUAWEI I Handover HUAWEI II Handover
Enumeration Type 1, 2, 3, 4
1, 2, 3, 4
GBFD114301 GBFD114302
GSM/WCDMA Interoperability GSM/TDSCDMA Interoperability
Interval Type 0~16383
0~16383
GBFD114301 GBFD114302
GSM/WCDMA Interoperability GSM/TDSCDMA Interoperability
Interval Type 0~511
0~511
GBFD114301
GSM/WCDMA Interoperability
Enumeration Type NO(No), YES(Yes)
NO, YES
GBFD114301 GBFD114302
GSM/WCDMA Interoperability GSM/TDSCDMA Interoperability
Enumeration Type FDD(FDD), TDD(TDD)
FDD, TDD
GBFD114302
GSM/TDSCDMA Interoperability
SyncCase1(Sync case Enumeration 1), SyncCase2(Sync Type case 2)
SyncCase1, SyncCase2
GBFD114301
GSM/WCDMA Interoperability
Interval Type 0~49
0~49
GBFD114301
GSM/WCDMA Interoperability
Interval Type 0~49
0~49
GBFD114301
GSM/WCDMA Interoperability
Interval Type 0~49
0~49
GBFD114301
Interval Type 0~63
0~63
GBFD114302
GSM/WCDMA Interoperability GSM/TDSCDMA Interoperability
Interval Type 0~63
0~63
GBFD114301 GBFD114302
GSM/WCDMA Interoperability GSM/TDSCDMA Interoperability
Interval Type 0~63
0~63
GBFD114301 GBFD114302
GSM/WCDMA Interoperability GSM/TDSCDMA Interoperability
Interval Type 0~63
0~63
GBFD110601 GBFD510501
HUAWEI I Handover HUAWEI II Handover
Enumeration Type NO(No), YES(Yes)
NO, YES
GBFD110601 GBFD510501
HUAWEI I Handover HUAWEI II Handover
Interval Type 0~100
0~100
GBFD118701
RAN Sharing
String Type
0~255 characters
MRFD210301
Configuration Management
Interval Type 0~255
0~255
MRFD210301
Configuration Management
Enumeration BYNAME(By Name), Type BYID(By Index)
BYNAME, BYID
MRFD210301
Configuration Management
String Type
1~64 characters
None
None
GBFD511301
Cell Reselection Between GSM and LTE Interval Type 8048~11047
8048~11047
GBFD511301
Cell Reselection Between GSM and LTE String Type
None
1~64 characters
GBFD511301
Cell Reselection Between GSM and LTE String Type
None
3 digits
GBFD511301
Cell Reselection Between GSM and LTE String Type
None
2~3 digits
GBFD511301
Cell Reselection Between GSM Enumeration MACRO(MACRO), and LTE Type HOME(HOME)
MACRO, HOME
GBFD511301
Cell Reselection Between GSM and LTE Interval Type 0~268435455
0~268435455
GBFD511301
Cell Reselection Between GSM and LTE Interval Type 1~65533, 65535
1~65533, 65535
GBFD511301
Cell Reselection Between GSM and LTE Interval Type 0~65535
0~65535
GBFD511301
Cell Reselection Between GSM and LTE Interval Type 0~511
0~511
GBFD511301
Cell Reselection Between GSM Enumeration and LTE Type FDD(FDD), TDD(TDD)
FDD, TDD
GBFD118701
RAN Sharing
0~255 characters
String Type
None
MRFD210301 GBFD511301
Configuration Enumeration BYNAME(By Name), Management Type BYID(By Index) Cell Reselection Between GSM and LTE String Type None
GBFD115404
Lb Interface
Interval Type 0~15
GBFD118701
RAN Sharing
String Type
GBFD115404
Lb Interface
GBFD111804 GBFD118602 GBFD118622
A Interface Protocol Process A over IP A IP over E1/T1 Interval Type 0~186
0~186
GBFD115404
Lb Interface
Interval Type 0~1000
0~1000
GBFD115404
Lb Interface
Interval Type 0~1000
0~1000
GBFD115404
Lb Interface
Interval Type 0~300
0~300
GBFD115404
Lb Interface
Interval Type 0~300
0~300
BYNAME, BYID
1~64 characters
0~15
None 0~255 characters NOTSUPPORT(Not Enumeration Support), INNER(Inner), Type OUTER(Outer) NOTSUPPORT, INNER, OUTER
MRFD210301
Configuration Management
Enumeration BYNAME(By Name), Type BYID(By Index)
BYNAME, BYID
GBFD110601 GBFD510501
HUAWEI I Handover HUAWEI II Handover
Interval Type 0~2047
0~2047
MRFD210301
Configuration Management
String Type
1~64 characters
MRFD210301
Configuration Management
Interval Type 0~12287
0~12287
GBFD117002
IBCA (Interference Based Channel Allocation)
String Type
1~64 characters
MRFD210301
Configuration Management
Interval Type 0~12287
0~12287
GBFD117002
IBCA (Interference Based Channel Allocation)
String Type
1~64 characters
MRFD211402
MBSC Load Balancing
MRFD211402
None
None
None
0~16
MBSC Load Balancing
Interval Type 0~16 INNER(Internal RNC), Enumeration EXTERNAL(External Type RNC)
MRFD211402
MBSC Load Balancing
Interval Type 0~11
0~11
MRFD211402
MBSC Load Balancing
Interval Type 0~27
0~27
MRFD211402
MBSC Load Balancing
Interval Type 0~7
0~7
MRFD211402
MBSC Load Balancing
Interval Type 0~11
0~11
INNER, EXTERNAL
MRFD211402
MBSC Load Balancing
Interval Type 0~27
0~27
MRFD211402
MBSC Load Balancing
Interval Type 0~7
0~7
None
None
OFF(Disable the golbal route management), Enumeration ON(Enable the golbal Type route management) OFF, ON
MRFD210301
Configuration Management
Enumeration BYNAME(By Name), Type BYID(By Index)
GBFD511301
Cell Reselection Between GSM and LTE Interval Type 0~2047
0~2047
GBFD511301
Cell Reselection Between GSM and LTE String Type
1~64 characters
GBFD511301
Cell Reselection Between GSM and LTE Interval Type 8048~11047
None
BYNAME, BYID
8048~11047
GBFD511301
Cell Reselection Between GSM and LTE String Type
GBFD511301
Cell Reselection UNSUPPORT(UNSUPP Between GSM Enumeration ORT), and LTE Type SUPPORT(SUPPORT) UNSUPPORT, SUPPORT
GBFD511301
Cell Reselection UNSUPPORT(UNSUPP Between GSM Enumeration ORT), and LTE Type SUPPORT(SUPPORT) UNSUPPORT, SUPPORT
GBFD511301
Cell Reselection UNSUPPORT(UNSUPP Between GSM Enumeration ORT), and LTE Type SUPPORT(SUPPORT) UNSUPPORT, SUPPORT
None
1~64 characters
GBFD511301
GBFD111203
Cell Reselection Between GSM and LTE Interval Type 0~7, 255
0~7, 255
OFF(Off), ON_WITH_SDCCH(On with SDCCH), Enumeration ON_WITHOUT_SDCC OFF, ON_WITH_SDCCH, Type H(On without SDCCH) ON_WITHOUT_SDCCH
GBFD110801
O&M of BSC Processing of Measurement Report
Interval Type 1~255
1~255
GBFD110802
Pre-processing of Measurement Report Interval Type 1~255
1~255
GBFD111203
O&M of BSC
Enumeration BYBTSID(By BTS ID), Type BYCELLID(By Cell ID)
BYBTSID, BYCELLID
GBFD111202
O&M of BTS
Interval Type 0~2047
0~2047
MRFD210301
Configuration Management
Interval Type 0~2047
0~2047
GBFD111203
O&M of BSC
Enumeration Type OFF(Off), ON(On)
OFF, ON
MRFD211402
MBSC Load Balancing
Interval Type 0~16
0~16
MRFD211402
MBSC Load Balancing
String Type
1~64 characters
MRFD211402
MBSC Load Balancing
Enumeration Type NO(No), YES(Yes)
GBFD111804 GBFD118602 GBFD118622
A Interface Protocol Process A over IP A IP over E1/T1 Interval Type 0~186
0~186
MRFD211402
MBSC Load Balancing
0~4
MRFD211402
MBSC Load Enumeration NO(No Support), Balancing Type YES(Support) GSM and UMTS Load Balancing Based on Iur-g Interval Type 1~5
GBFD511103
None
Interval Type 0~4
NO, YES
NO, YES
1~5
MRFD211404
MBSC Handover based on Load Enumeration NO(No Support), Enhancement Type YES(Support)
NO, YES
MRFD211402
MBSC Load Balancing
NO, YES
Enumeration NO(No Support), Type YES(Support)
CELLCAPCLASS(Cell Capacity Info), NACCRELATED(NACC CELLCAPCLASS, Info) NACCRELATED
MRFD211402
MBSC Load Balancing
Bit Field Type
MRFD211402
MBSC Load Balancing
Interval Type 0~86400
0~86400
MRFD211402
MBSC Load Balancing
Interval Type 1~60
1~60
MRFD210502
BSC/RNC Clock Interval Type 0~65534
0~65534
MRFD210502
Enumeration BSC/RNC Clock Type BSC(BSC)
BSC
MRFD210502
BSC/RNC Clock Interval Type 1~60
1~60
MRFD210502
BSC/RNC Clock Interval Type 1~60
1~60
MRFD210502
Enumeration BSC/RNC Clock Type DEG(DEG), SEC(SEC) DEG, SEC
MRFD210502
Enumeration MET(Metric), BSC/RNC Clock Type IMP(Imperial)
MET, IMP
MRFD210502
MRFD210502 MRFD210502
MRFD210502
MRFD210502 MRFD210502
BSC/RNC Clock Interval Type -90000000~90000000
-90~90, step: 0.000001
BSC/RNC Clock Interval Type 180000000~180000000 -180~180, step: 0.000001 BSC/RNC Clock Interval Type -1000~10000
-1000~10000
BSC/RNC Clock String Type
None
-90:00:00.000~90:00:00.000
BSC/RNC Clock String Type
None
-180:00:00.000~180:00:00.000
BSC/RNC Clock Interval Type -3281~32810
-3281~32810
MRFD210502
BSC/RNC Clock Interval Type 1~60
1~60
MRFD210502
BSC/RNC Clock Interval Type 1~60
1~60
None
Enumeration Type OFF(OFF), ON(ON)
OFF, ON
None
None
COMMONUSRM(Com mon User Mode), Enumeration SPECUSRM(Specified Type User Mode)
COMMONUSRM, SPECUSRM
None
None
Enumeration OFF(Not Output), Type ON(Output)
OFF, ON
None
None
Enumeration OFF(Not Output), Type ON(Output)
OFF, ON
None
None
None
Enumeration OFF(Not Output), Type ON(Output)
OFF, ON
None
None
Enumeration OFF(Not Output), Type ON(Output)
OFF, ON
None
None
Enumeration OFF(Not Output), Type ON(Output)
OFF, ON
MRFD210301
Configuration Management
Enumeration BYNAME(By Name), Type BYID(By Index)
BYNAME, BYID
MRFD210301
Configuration Management
Interval Type 0~2047
0~2047
MRFD210301
Configuration Management
String Type
1~64 characters
None
None
Enumeration Type OFF(OFF), ON(ON)
None
OFF, ON
None
None
Interval Type 0~499
0~499
GBFD111203
O&M of BSC
String Type
1~15 characters
GBFD113725
BSC Node Redundancy
REHOSTRIGHTNOW( ReHostRightNow), REHOSTDELAY(ReHos tDelay), REHOSTRIGHTNOW, Enumeration REHOSTWHEN(ReHos REHOSTDELAY, Type tWhen) REHOSTWHEN
GBFD113725
BSC Node Redundancy
Interval Type 1~3600
1~3600
GBFD113725
BSC Node Redundancy
Compound Type
00:00:00~23:59:59
MRFD210301
Configuration Management
Enumeration BYNAME(By Name), Type BYID(By Index)
BYNAME, BYID
MRFD210301
Configuration Management
String Type
None
0~5000 characters
MRFD210301
Configuration Management
String Type
None
0~5000 characters
None
hour, min, sec
GBFD113602
Simplified Cell Broadcast
LAC_CI(CELL IMME), Enumeration PLMN(ALL), LAC(LAC), Type CI(CELL) LAC_CI, PLMN, LAC, CI
GBFD113602
Simplified Cell Broadcast
Interval Type 1~1023
1~1023
GBFD113602
Simplified Cell Broadcast
Interval Type 0~15
0~15
GBFD113602
Simplified Cell Broadcast
Interval Type 0~65535
0~65535
GBFD113602
GBFD113602
Simplified Cell Broadcast
GERMAN(GERMAN), ENGLISH(ENGLISH), ITALIAN(ITALIAN), FRENCH(FRENCH), SPANISH(SPANISH), DUTCH(DUTCH), SWEDISH(SWEDISH), DANISH(DANISH), PORTUGUESE(PORT UGUESE), FINNISH(FINNISH), NORWEGIAN(NORWE GIAN), GREEK(GREEK), TURKISH(TURKISH), HUNGARIAN(HUNGAR IAN), POLISH(POLISH), GB2312(GB2312), KOI8R(Cyrillic KOI8-R), KOI8U(Cyrillic KOI8-U), GERMAN, ENGLISH, ITALIAN, KOI8(Cyrillic KOI8), FRENCH, SPANISH, DUTCH, WINDOWSSWEDISH, DANISH, 1251(Cyrillic Windows), PORTUGUESE, FINNISH, ASMO_449(Arabic NORWEGIAN, GREEK, ASMO), WINDOWSTURKISH, HUNGARIAN, 1256(Arabic Windows), POLISH, GB2312, KOI8-R, KOI8WINDOWS-874(Thai U, KOI8, WINDOWS-1251, Windows), WINDOWS- ASMO_449, WINDOWS-1256, 1253(Greek Windows), WINDOWS-874, WINDOWSWINDOWS1253, WINDOWS-1254, 1254(Turkish Windows), WINDOWS-1255, WINDOWSWINDOWS1257, WINDOWS-1250, 1255(Hebrew WINDOWS-1252, BINARY, Enumeration Windows), WINDOWS- UCS2, RCS-1, RCS-2, RCS-3, Type 1257(Baltic Windows), RCS-4, RCS-5
Simplified Cell Broadcast
1~615 characters(GB2312, KOI8R, KOI8-U, KOI8, WINDOWS1251, ASMO_449, WINDOWS1256, WINDOWS-874, WINDOWS-1253, WINDOWS1254, WINDOWS-1255, WINDOWS-1257, WINDOWS1250, WINDOWS-1252, UCS2), 1~2462 characters(BINARY), 1~1395 characters(others)
Any Type
None
GBFD113602
Simplified Cell Broadcast
Interval Type 0~65535
0~65535
GBFD113602
Simplified Cell Broadcast
Interval Type 2~3600
2~3600
GBFD113602
Simplified Cell Broadcast
Compound Type
year, month, day, hour, 1970-1-1 00:00:00~2538-12-31 min, sec 23:59:59
GBFD113602
Simplified Cell Broadcast
Compound Type
year, month, day, hour, 1970-1-1 00:00:00~2538-12-31 min, sec 23:59:59
MRFD210301
Configuration Management
Interval Type 0~4095
0~4095
GBFD110101
Frequency Band Interval Type 0~1023
0~1023
MRFD210301
Configuration Management
Enumeration BYNAME(By Name), Type BYID(By Index)
BYNAME, BYID
MRFD210301
Configuration Management
Interval Type 0~2047
0~2047
MRFD210301
Configuration Management
String Type
1~64 characters
None
MRFD210301
Configuration Management
Enumeration Type NO(No), YES(Yes)
NO, YES
MRFD210301
Configuration Management
Interval Type 0~71
0~71
MRFD210301
Configuration Management
Interval Type 0~4095
0~4095
GBFD111202
O&M of BTS
Lock(Lock), Enumeration Unlock(Unlock), Type Shutdown(Shutdown)
Lock, Unlock, Shutdown
MRFD210301
Configuration Management
Interval Type 0~4095
0~4095
GBFD113101
PDCH Dynamic Adjustment Interval Type 0~8
0~8
GBFD117301
Flex Abis
Interval Type 0~32
0~32
MRFD210301
Configuration Management
Interval Type 0~4095
0~4095
GBFD118401
Abis Transmission Optimization
Interval Type 0~15
0~15
MRFD210301
Configuration Management
Interval Type 0~4095
0~4095
MRFD210301
Configuration Management
Interval Type 0~7
0~7
Configuration Management
TCHFR(TCH Full Rate), TCHHR(TCH Half Rate), SDCCH8(SDCCH8), MBCCH(Main BCCH), CBCCH(Combined BCCH), BCH(BCH), BCCH_CBCH(BCCH+C BCH), SDCCH_CBCH(SDCCH +CBCH), PBCCH_PDTCH(PBCC H+PDTCH), PCCCH_PDTCH(PCCC H+PDTCH), PDTCH(PDTCH), Enumeration DPDCH(Dynamic Type PDCH)
TCHFR, TCHHR, SDCCH8, MBCCH, CBCCH, BCH, BCCH_CBCH, SDCCH_CBCH, PBCCH_PDTCH, PCCCH_PDTCH, PDTCH, DPDCH
MRFD210301
GBFD114201
EGPRS
GPRS(GPRS Channel), EGPRSNORCH(EGPR S Normal Channel), EGPRSPRICH(EGPRS Priority Channel), EGPRSSPECH(EGPRS Special Channel), GPRS, EGPRSNORCH, Enumeration NONGPRS(Non-GPRS EGPRSPRICH, EGPRSSPECH, Type Channel) NONGPRS
GBFD111005
Enhanced Channel Assignment Algorithm
Interval Type 0~7
0~7
MRFD210301
Configuration Management
Interval Type 0~4095
0~4095
MRFD210301
Configuration Management
Interval Type 0~7
0~7
GBFD111202
O&M of BTS
Lock(Lock), Enumeration Unlock(Unlock), Type Shutdown(Shutdown)
Lock, Unlock, Shutdown
MRFD210301
Configuration Management
Interval Type 0~4095
0~4095
MRFD210301
Configuration Management
Interval Type 0~7
0~7
GBFD113701
Frequency Hopping (RF hopping, baseband hopping)
Interval Type 0~63, 255
0~63, 255
GBFD113701
Frequency Hopping (RF hopping, baseband hopping)
Interval Type 0~63
0~63
MRFD210301
Configuration Management
Interval Type 0~4095
0~4095
MRFD210301
MRFD210301
Configuration Management
Interval Type 0~13
0~13
Configuration Management
80W(80W), 63W(63W), 60W(60W), 55W(55W), 50W(50W), 45W(45W), 40W(40W), 31W(31W), 30W(30W), 27W(27W), 26W(26W), 25W(25W), 24W(24W), 21W(21W), 20W(20W), 19W(19W), 18W(18W), 17W(17W), 16W(16W), 15W(15W), 14W(14W), 13_3W(13.3W), 13W(13W), 12_5W(12.5W), 12W(12W), 11_5W(11.5W), 11W(11W), 10W(10W), 9_5W(9.5W), 9W(9W), 8_5W(8.5W), 8W(8W), 7_5W(7.5W), 7W(7W), 6_5W(6.5W), 6W(6W), 5_5W(5.5W), 5W(5W), 4_5W(4.5W), 4W(4W), 3_7W(3.7W), 3_1W(3.1W), 3W(3W), 2_5W(2.5W), 2W(2W), Enumeration 200mW(200mW), Type DEFAULT(Default)
80W, 63W, 60W, 55W, 50W, 45W, 40W, 31W, 30W, 27W, 26W, 25W, 24W, 21W, 20W, 19W, 18W, 17W, 16W, 15W, 14W, 13_3W, 13W, 12_5W, 12W, 11_5W, 11W, 10W, 9_5W, 9W, 8_5W, 8W, 7_5W, 7W, 6_5W, 6W, 5_5W, 5W, 4_5W, 4W, 3_7W, 3_1W, 3W, 2_5W, 2W, 200mW, DEFAULT
GBFD111005
Enhanced Channel Assignment Algorithm
L0(Level0), L1(Level1), L2(Level2), L3(Level3), Enumeration L4(Level4), L5(Level5), Type L6(Level6), L7(Level7) L0, L1, L2, L3, L4, L5, L6, L7
GBFD111605
Active Backup Power Control
Enumeration DISABLE(Disable), Type ENABLE(Enable)
GBFD113402
Dynamic Adjustment Between FR and Enumeration HR Type NO(No), YES(Yes)
NO, YES
GBFD114201
EGPRS
Interval Type 0~50
0~10, step:0.2
Configuration Management
DB0(0.0dB), DB2(0.2dB), DB4(-0.4dB), DB6(-0.6dB), DB8(0.8dB), DB10(-1.0dB), DB12(-1.2dB), DB14(1.4dB), DB16(-1.6dB), Enumeration DB18(-1.8dB), Type Default(Default)
DB0, DB2, DB4, DB6, DB8, DB10, DB12, DB14, DB16, DB18, Default
MRFD210301
DISABLE, ENABLE
Configuration Management
INDEPENDENT(Indepe ndent Receiver), DIVIDING(Dividing Receiver), FOURDIVERSITY(Four Diversity Receiver), INDEPENDENT, DIVIDING, Enumeration MAINDIVERSITY(Main FOURDIVERSITY, Type Diversity), NONE(None) MAINDIVERSITY, NONE
MRFD210301
Configuration Management
NOCOMB(No Combination), PBT(PBT), WBANDCOMB(Wideba nd Combination), DIVERSITY(Transmit Diversity), DDIVERSITY(Dynamic Transmit Diversity), DPBT(DPBT), DTIC(Transmit Independency or NOCOMB, PBT, WBANDCOMB, Enumeration Combination), DIVERSITY, DDIVERSITY, Type NONE(none) DPBT, DTIC, NONE
GBFD111602
TRX Power Amplifier Intelligent Shutdown
Enumeration Type NO(No), YES(Yes)
NO, YES
GBFD111005
Enhanced Channel Assignment Algorithm
Interval Type 0~50
0~50
MRFD210301
MRFD210301
Configuration Management
Enumeration LOOSE(Loose), Type TIGHT(Tight)
GBFD111602
TRX Power Amplifier Intelligent Shutdown
L0(Level0), L1(Level1), L2(Level2), L3(Level3), Enumeration L4(Level4), L5(Level5), Type L6(Level6), L7(Level7) L0, L1, L2, L3, L4, L5, L6, L7
GBFD111005
Enhanced Channel Assignment Algorithm
Interval Type 0~50
0~50
GBFD111005
Enhanced Channel Assignment Algorithm
Interval Type 0~50
0~50
GBFD114201
EGPRS
Interval Type 0~50
0~10, step:0.2
GBFD114201
EGPRS
Interval Type 0~50
0~10, step:0.2
LOOSE, TIGHT
MRFD210301
Configuration Management
Interval Type 0~4095
0~4095
GBFD111705
GSM Flow Control
Interval Type 30~100
30~100
GBFD111705
GSM Flow Control
Interval Type 20~90
20~90
GBFD111705
GSM Flow Control
Interval Type 0~100
0~100
GBFD111705
GSM Flow Control
Interval Type 0~100
0~100
MRFD210301
Configuration Management
Interval Type 0~4095
0~4095
GBFD113701
Frequency Hopping (RF hopping, baseband hopping)
NO_FH(No Frequency Hopping), BaseBand_FH(Baseban d Frequency Hopping), Enumeration RF_FH(RF Frequency Type Hopping) NO_FH, BaseBand_FH, RF_FH
MRFD210301
Configuration Management
Interval Type 0~4095
GBFD113201
Concentric Cell
OVERLAID(Overlaid Subcell), Enumeration UNDERLAID(Underlaid Type Subcell), NONE(None) OVERLAID, UNDERLAID, NONE
MRFD210301
Configuration Management
Interval Type 0~4095
0~4095
GBFD111202
O&M of BTS
Enumeration Type NO(No), YES(Yes)
NO, YES
0~4095
GBFD111004
Radio Dedicated Channel Management Interval Type 5~126
5~126
GBFD111004
Radio Dedicated Channel Management Interval Type 5~100
5~100
GBFD111004
Radio Dedicated Channel Management Interval Type 0~80
0~80
GBFD111004
Radio Dedicated Channel Management Interval Type 1~255
5~1275, step:5
GBFD111202
O&M of BTS
Enumeration Type NO(No), YES(Yes)
NO, YES
GBFD111202
O&M of BTS
Interval Type 1~255
5~1275, step:5
GBFD111202
O&M of BTS
Interval Type 0~24
0~24
GBFD111202
O&M of BTS
GBFD110801 GBFD110802
Processing of Measurement Report Pre-processing of Measurement Report Interval Type 0~254
0~254
GBFD110801 GBFD110802
Processing of Measurement Report Pre-processing of Measurement Report Interval Type 10~254
10~254
GBFD110801 GBFD110802
Processing of Measurement Report Pre-processing of Measurement Report Interval Type 20~100
20~100
GBFD511701
Radio Measurement Data Interface for Navigation
IP Address Type
0.0.0.0~255.255.255.255
GBFD511701
Radio Measurement Data Interface for Navigation
CATEGORY1(Category 1), CATEGORY2(Category 2), CATEGORY3(Category 3), Enumeration CATEGORY4(Category CATEGORY1, CATEGORY2, Type 4) CATEGORY3, CATEGORY4
MRFD210301
Configuration Management
Interval Type 0~11
Interval Type 0~24
None
0~24
0~11
None
None
Interval Type 0~5, 8~27
0~5, 8~27
None
None
IP Address Type
None
0.0.0.0~255.255.255.255
None
None
IP Address Type
None
0.0.0.0~255.255.255.255
ECHOREPLY(Ping_repl y), UNREACH(Unreachabl e), SOURCEQUENCH(Sou rce_quench), REDIRECT(Redirect), ECHO(Ping_request), ROUTERADVERT(Rout er_advertisement), ROUTERSOLICIT(Rout er_solicitation), TIMXCEED(Time_exce eded), PARAMPROB(Paramet er_problem), TSTAMP(Timestamp_re quest), TSTAMPREPLY(Timest amp_reply), IREQ(Information_requ est), IREQREPLY(Informatio n_reply), MASKREQ(Address_m ask_request), MASKREPLY(Address_ mask_reply)
ECHOREPLY, UNREACH, SOURCEQUENCH, REDIRECT, ECHO, ROUTERADVERT, ROUTERSOLICIT, TIMXCEED, PARAMPROB, TSTAMP, TSTAMPREPLY, IREQ, IREQREPLY, MASKREQ, MASKREPLY
None
None
Bit Field Type
GBFD118702
MOCN Shared Cell
Interval Type 0~1023
0~1023
GBFD118702
MOCN Shared Cell
String Type
1~64 characters
None
GBFD118702
MOCN Shared Cell
String Type
None
15-bit decimal numerals
GBFD118702
MOCN Shared Cell
String Type
None
15-bit decimal numerals
GBFD118703
IMSI-Based Handover
Interval Type 0~2047
0~2047
GBFD118703
IMSI-Based Handover
Interval Type 0~65535
0~65535
GBFD118702
MOCN Shared Cell
Interval Type 0~1023
0~1023
GBFD118702
MOCN Shared Cell
Interval Type 0~4095
0~4095
GBFD118702
MOCN Shared Cell
Interval Type 0~65535
0~65535
GBFD118702
MOCN Shared Cell
Interval Type 0~1023
0~1023
GBFD118702
MOCN Shared Cell
Interval Type 0~31
0~31
MRFD210301
Configuration Management
Interval Type 0~11
0~11
None
None
Interval Type 0~5, 8~27
0~5, 8~27
None
None
Enumeration FG2a, GOUa, FG2c, Type GOUc, POUc
FG2a, GOUa, FG2c, GOUc, POUc
None
None
Enumeration Type Hub(Hub), Leaf(Leaf)
Hub, Leaf
None
Interval Type 0~988, 1024~1535
FG2a/GOUa board:0~119;FG2c board:0~489, 512~767;GOUc board:0~499, 512~767;POUc(IP)board:0~988, 1024~1535
GBFD118605
IP QOS
ETHER, Enumeration IPLOGICPORT, Type TRUNK, PPP, MP
ETHER, IPLOGICPORT, TRUNK, PPP, MP
None
None
Interval Type 0~11
0~11
None
None
Interval Type 512~1535
512~1535
None
None
Interval Type 0~11
0~11
None
None
Interval Type 0~499
0~499
None
None
Interval Type 0~167
0~167
None
GBFD118605
IP QOS
Enumeration Type SHARE, EXCLUSIVE
SHARE, EXCLUSIVE
GBFD118605
IP QOS
Enumeration Type OFF(OFF), ON(ON)
OFF, ON
GBFD118605
IP QOS
Interval Type 1~1562
64~100000, step:64
GBFD118605
IP QOS
Interval Type 1~1562
64~100000, step:64
GBFD118605
IP QOS
Interval Type 0~100
0~100
GBFD118605
IP QOS
Interval Type 1~1562
64~100000, step:64
GBFD118605
IP QOS
Interval Type 4500~32767
4500~32767
GBFD118605 GBFD111202
IP QOS O&M of BTS
Interval Type 0~100
0~100
GBFD118605
IP QOS
Interval Type 0~100
0~100
GBFD118605
IP QOS
Interval Type 0~1000
0~1000
GBFD118605
IP QOS
Interval Type 1~100
100~10000, step:100
GBFD118605
IP QOS
Interval Type 1~100
1~100
GBFD118605
IP QOS
Interval Type 100~1000
100~1000
GBFD118605
IP QOS
Interval Type 0~1000
0~1, step:0.001
GBFD118605
IP QOS
Interval Type 1~100
100~10000, step:100
GBFD118605
IP QOS
Interval Type 0~10000
0~10000
GBFD118605
IP QOS
Interval Type 1~100
1~100
GBFD118605
IP QOS
Interval Type 0~100
0~100
GBFD118605
IP QOS
Interval Type 0~15
0~15
GBFD118605
IP QOS
Interval Type 0~15
0~15
GBFD118605 MRFD211503
IP QOS GSM and UMTS CoTransmission Resources Management on Enumeration MBSC Type OFF(OFF), ON(ON)
OFF, ON
GBFD118605
IP QOS
Interval Type 0~1999
0~1999
GBFD118605
IP QOS
Interval Type 20~99
20~99
GBFD118605
IP QOS
Interval Type 20~99
20~99
GBFD118605
None
IP QOS
None
Interval Type 0~199
0~199
Interval Type 0~988, 1024~1535
FG2a/GOUa:0~119;FG2c board:0~489, 512~767;GOUc board:0~499, 512~767;POUc(IP)board:0~988, 1024~1535
Interval Type 0~988, 1024~1535
FG2a/GOUa board:0~119;FG2c board:0~489, 512~767;GOUc board:0~499, 512~767;POUc(IP)board:0~988, 1024~1535
None
None
GBFD118604 GBFD118610
Abis MUX UDP MUX for A Enumeration UDPMUX, ABISMUX, Transmission Type ATERMUX
UDPMUX, ABISMUX, ATERMUX
None
None
Interval Type 0~4599
0~4599
None
None
Interval Type 0~65535
0~65535
GBFD118604 GBFD118610
Abis MUX UDP MUX for A Enumeration Transmission Type NO(NO), YES(YES)
GBFD118604 GBFD118610
Abis MUX UDP MUX for A Bit Field Transmission Type
BE(BE), AF11(AF11), AF12(AF12), AF13(AF13), AF21(AF21), AF22(AF22), AF23(AF23), AF31(AF31), AF32(AF32), AF33(AF33), AF41(AF41), AF42(AF42), AF43(AF43), EF(EF)
NO, YES
BE, AF11, AF12, AF13, AF21, AF22, AF23, AF31, AF32, AF33, AF41, AF42, , AF43, EF
GBFD118604 GBFD118610
Abis MUX UDP MUX for A Transmission Interval Type 16~1023
16~1023
GBFD118604 GBFD118610
Abis MUX UDP MUX for A Transmission Interval Type 24~1031
24~1031
GBFD118604 GBFD118610
Abis MUX UDP MUX for A Transmission Interval Type 1~30
1~30
GBFD118604 GBFD118610
Abis MUX UDP MUX for A Enumeration NORTPCOMP, Transmission Type RTPCOMP
NORTPCOMP, RTPCOMP
GBFD118604 GBFD118610
Abis MUX UDP MUX for A Enumeration NORTPCOMP, Transmission Type RTPCOMP
NORTPCOMP, RTPCOMP
GBFD118604 GBFD118610
Abis MUX UDP MUX for A Transmission Interval Type 0~12999
0~12999
GBFD118604 GBFD118610
Abis MUX UDP MUX for A Enumeration UDPMUX, ABISMUX, Transmission Type ATERMUX
UDPMUX, ABISMUX, ATERMUX
GBFD118601 GBFD118602 GBFD118605 GBFD118611 GBFD118622 GBFD118601 GBFD118602 GBFD118605 GBFD118611 GBFD118622
Abis over IP A over IP IP QOS Abis IP over E1/T1 A IP over E1/T1 Interval Type 0~4599
0~4599
GBFD118605
Abis over IP A over IP IP QOS Abis IP over E1/T1 A IP over E1/T1 Interval Type 0~65535 0~65535 ABIS(Abis Interface), A(A Interface), ATER(ATER Interface), Enumeration IUR_G(IUR_G IP QOS Type Interface) ABIS, A, ATER, IUR_G
GBFD118605
IP QOS
GBFD118601 GBFD118602 GBFD118605 GBFD118611 GBFD118622
QoS(QoS), BE(BE), AF11(AF11), AF12(AF12), AF13(AF13), AF21(AF21), AF22(AF22), AF23(AF23), Abis over IP AF31(AF31), A over IP AF32(AF32), IP QOS AF33(AF33), Abis IP over AF41(AF41), E1/T1 Enumeration AF42(AF42), A IP over E1/T1 Type AF43(AF43), EF(EF)
Enumeration Type IP(IP)
IP
QoS, BE, AF11, AF12, AF13, AF21, AF22, AF23, AF31, AF32, AF33, AF41, AF42, AF43, EF
GBFD118605
IP QOS
IP Address Type
None
0.0.0.0~255.255.255.255
GBFD118605
IP QOS
IP Address Type
None
0.0.0.0~255.255.255.255
GBFD118601 GBFD118602 GBFD118605 GBFD118611 GBFD118622
Abis over IP A over IP IP QOS Abis IP over E1/T1 IP Address A IP over E1/T1 Type
None
0.0.0.0~255.255.255.255
GBFD118605
IP QOS
Interval Type 1~3000000
1~3000000
GBFD118605
IP QOS
Interval Type 1~3000000
1~3000000
IP QOS
NULL(NULL), IPLGCPORT(IP Logic Port), Enumeration RSCGRP(Resource Type Group)
NULL, IPLGCPORT, RSCGRP
GBFD118605
GBFD118605
IP QOS
Interval Type 0~5, 8~27
0~5, 8~27
GBFD118605
IP QOS
Interval Type 0~988
0~988
GBFD118605
IP QOS
Interval Type 0~2047
0~2047
GBFD118605
IP QOS
Interval Type 0~199
0~199
GBFD118605
IP QOS
Enumeration DISABLE(Disable), Type ENABLE(Enable)
DISABLE, ENABLE
GBFD118611 GBFD118622
Abis IP over E1/T1 A IP over E1/T1 Interval Type 2~4094
GBFD118605
IP QOS
Enumeration ENABLED(Enabled), Type DISABLED(Disabled)
ENABLED, DISABLED
GBFD118605
IP QOS
IP Address Type
0.0.0.0~255.255.255.255
None
2~4094
GBFD118605
IP QOS
Interval Type 1~60
1~60
GBFD118605
IP QOS
Interval Type 1~5
1~5
GBFD118605
IP QOS
Interval Type 44~1024
44~1024
None
None
Interval Type 0~4599
0~4599
None
None
Interval Type 0~65535
0~65535
MRFD210301
Configuration Management
None GBFD118609
None Interval Type 0~5, 8~27 IP Fault Detection Based on BFD Interval Type 0~511
MRFD210301
Configuration Management
Interval Type 0~11
0~11
None
None
Interval Type 0~5, 8~27
0~5, 8~27
GBFD118611 GBFD118622
Abis IP over E1/T1 IP Address A IP over E1/T1 Type
None
0.0.0.0~255.255.255.255
None
None
IP Address Type
None
0.0.0.0~255.255.255.255
GBFD118611 GBFD118622
Abis IP over E1/T1 IP Address A IP over E1/T1 Type
None
0.0.0.0~255.255.255.255
None
None
Enumeration Type HIGH, LOW
HIGH, LOW
None
None
String Type
1~250 characters
MRFD210301
Configuration Management
Interval Type 0~11
0~11
None
None
Interval Type 0~5, 8~27
0~5, 8~27
None
None
IP Address Type
0.0.0.0~255.255.255.255
Interval Type 0~11
None
None
0~11
0~5, 8~27 0~31(FG2a/GOUa), 0~511(FG2c/GOUc)
GBFD118609 MRFD210103
IP Fault Detection Based on BFD IP Address Link aggregation Type
None
0.0.0.0~255.255.255.255
None
None
IP Address Type
None
0.0.0.0~255.255.255.255
GBFD118609
IP Fault Detection Based on BFD Interval Type 0~511
0~511
MRFD210301
Configuration Management
Interval Type 0~11
0~11
MRFD210301
Configuration Management
Interval Type 0~27
0~27
Enumeration NORMAL(Normal), Type FORCE(Force)
NORMAL, FORCE
String Type
None
1~63 characters
String Type
None
1~63 characters
MRFD210401
BSC/RNC Software Management BSC/RNC Software Management BSC/RNC Software Management
GBFD118702
MOCN Shared Cell
Interval Type 0~1023
0~1023
MRFD210301
Configuration Management
String Type
None
3 digits
MRFD210301
Configuration Management
String Type
None
2~3 digits
MRFD210301
Configuration Management
Interval Type 1~65533, 65535
1~65533, 65535
GBFD118702
MOCN Shared Cell
String Type
0~255 characters
MRFD210401 MRFD210401
None
GBFD118702
MOCN Shared Cell
String Type
None
0~255 characters
GBFD118702
MOCN Shared Cell
String Type
None
0~255 characters
Abis over IP Flex Abis
CLOSE(Close), PSDOWN(PS Downspeeding), AMRC(AMRC), CSPH(CS Preference Enumeration TCHH), CSFHHO(CS Type TCHF-TCHH HO)
CLOSE, PSDOWN, AMRC, CSPH, CSFHHO
Abis over IP Flex Abis
CLOSE(Close), PSDOWN(PS Downspeeding), AMRC(AMRC), CSPH(CS Preference Enumeration TCHH), CSFHHO(CS Type TCHF-TCHH HO)
CLOSE, PSDOWN, AMRC, CSPH, CSFHHO
Abis over IP Flex Abis
CLOSE(Close), PSDOWN(PS Downspeeding), AMRC(AMRC), CSPH(CS Preference Enumeration TCHH), CSFHHO(CS Type TCHF-TCHH HO)
CLOSE, PSDOWN, AMRC, CSPH, CSFHHO
GBFD118601 GBFD117301
Abis over IP Flex Abis
CLOSE(Close), PSDOWN(PS Downspeeding), AMRC(AMRC), CSPH(CS Preference Enumeration TCHH), CSFHHO(CS Type TCHF-TCHH HO)
CLOSE, PSDOWN, AMRC, CSPH, CSFHHO
MRFD210304
Faulty Management
Interval Type 90~99
90~99
MRFD210304
Faulty Management
Interval Type 70~95
70~95
None
None
String Type
0~100 characters
None
None
MRFD210301
Configuration Management
GBFD118601 GBFD117301
GBFD118601 GBFD117301
GBFD118601 GBFD117301
None
Enumeration Type ON(ON), OFF(OFF) LFB(Load from OMU Enumeration and write flash), Type CL(Consult Load)
ON, OFF
LFB, CL
GBFD111203 MRFD210305
O&M of BSC Security Management
Interval Type 7~365
7~365
GBFD111203 MRFD210305
O&M of BSC Security Management
Interval Type 10000~50000
10000~50000
GBFD118602 GBFD118622
A over IP A IP over E1/T1 Interval Type 0~186
0~186
GBFD118602 GBFD118622
A over IP A IP over E1/T1 Interval Type 0~186
0~186
GBFD111804 GBFD118602 GBFD118622
A Interface Protocol Process A over IP A IP over E1/T1 Interval Type 0~186
0~186
M3UA_SGP(M3UA SGP), M3UA_IPSP(M3UA IPSP), M3UA_SS7SP(M3UA Enumeration SS7SP), Type M3UA_SP(M3UA SP)
GBFD118602
A over IP
GBFD118602 GBFD118622
A over IP A IP over E1/T1 Interval Type 0~4294967295
0~4294967295
GBFD118602
A over IP
1~49 characters
String Type
None
M3UA_SGP, M3UA_IPSP, M3UA_SS7SP, M3UA_SP
GBFD118602 GBFD118622
A over IP A IP over E1/T1 Interval Type 0~186
0~186
GBFD111804
A Interface Protocol Process
0~4
GBFD118602 GBFD118622
M3UA_ASP(M3UA_AS P), A over IP Enumeration M3UA_IPSP(M3UA_IPS A IP over E1/T1 Type P) M3UA_ASP, M3UA_IPSP
GBFD118602 GBFD118622
A over IP A IP over E1/T1 Interval Type 0~4294967295
0~4294967295
GBFD118602
A over IP
String Type
1~49 characters
GBFD111804
A Interface Protocol Process
Interval Type 0~186
0~186
GBFD118602 GBFD118622
A over IP A IP over E1/T1 Interval Type 0~186
0~186
Interval Type 0~4
None
A over IP
B0000(B0000), B0001(B0001), B0010(B0010), B0011(B0011), B0100(B0100), B0101(B0101), B0110(B0110), B0111(B0111), B1000(B1000), B1001(B1001), B1010(B1010), B1011(B1011), B1100(B1100), B1101(B1101), Enumeration B1110(B1110), Type B1111(B1111)
A over IP
M3UA_OVERRIDE_MO D(Active/Standby Mode), M3UA_LOADSHARE_ Enumeration MOD(Load Sharing M3UA_OVERRIDE_MOD, Type Mode) M3UA_LOADSHARE_MOD
GBFD118602
A over IP
M3UA_ASP(M3UA_AS P), Enumeration M3UA_IPSP(M3UA_IPS Type P) M3UA_ASP, M3UA_IPSP
GBFD118602 GBFD118622
A over IP A IP over E1/T1 Interval Type 1~10
1~10
GBFD118602
A over IP
String Type
1~49 characters
GBFD111804
A Interface Protocol Process
Interval Type 0~186
GBFD118602
GBFD118602
None
B0000, B0001, B0010, B0011, B0100, B0101, B0110, B0111, B1000, B1001, B1010, B1011, B1100, B1101, B1110, B1111
0~186
GBFD118602
A over IP
Interval Type 0~15
0~15
GBFD118602
A over IP
Interval Type 0~11
0~11
GBFD118602
A over IP
0, 2, 4, 8, 10, 12, 14, 16, 0, 2, 4, 8, 10, 12, 14, 16, 18, 20, Interval Type 18, 20, 22, 24, 26 22, 24, 26
GBFD118602 GBFD118622
A over IP A IP over E1/T1 Interval Type 0~1199
0~1199
GBFD111804 GBFD118602 GBFD118622
A Interface Protocol Process A over IP A IP over E1/T1 Interval Type 0~99
0~99
GBFD118602 GBFD118622
M3UA_MASTER_MOD( M3UA_MASTER_MOD) , A over IP Enumeration M3UA_SLAVE_MOD(M M3UA_MASTER_MOD, A IP over E1/T1 Type 3UA_SLAVE_MOD) M3UA_SLAVE_MOD
GBFD118602
A over IP
GBFD118602 GBFD118622
A over IP A IP over E1/T1 Interval Type 0~186
0~186
GBFD111804
A Interface Protocol Process
0~186
String Type
None
Interval Type 0~186
1~31 characters
GBFD111804 GBFD118602 GBFD118622
A Interface Protocol Process A over IP A IP over E1/T1 Interval Type 0~99
0~99
GBFD118602
A over IP
String Type
1~31 characters
None
None
Interval Type 0~14
0~14
None
None
Interval Type 500~5000
500~5000(MEASRST), 500~2000(HOSTRST)
MRFD210301
Configuration Management
Interval Type 0~11
0~11
None
None
Interval Type 0~5, 8~27
0~5, 8~27
None
None
Enumeration Type PEUa, POUc
PEUa, POUc
GBFD118611 GBFD118622
Abis IP over E1/T1 Enumeration A IP over E1/T1 Type IP, Abis_IP
IP, Abis_IP
GBFD118611 GBFD118622
Abis IP over E1/T1 A IP over E1/T1 Interval Type 0~167
0~31(PEUa), 0~167(POUc)
GBFD118611 GBFD118622
Abis IP over E1/T1 Enumeration A IP over E1/T1 Type MLPPP, MCPPP
MLPPP, MCPPP
None
GBFD118611 GBFD118622
Abis IP over E1/T1 Enumeration A IP over E1/T1 Type NO(NO), YES(YES)
NO, YES
GBFD118611 GBFD118622
Abis IP over E1/T1 IP Address A IP over E1/T1 Type
None
0.0.0.0~255.255.255.255
GBFD118611 GBFD118622
Abis IP over E1/T1 IP Address A IP over E1/T1 Type
None
0.0.0.0~255.255.255.255
GBFD118611 GBFD118622
Abis IP over E1/T1 IP Address A IP over E1/T1 Type
None
0.0.0.0~255.255.255.255
GBFD118611 GBFD118622
Abis IP over E1/T1 IP Address A IP over E1/T1 Type
None
0.0.0.0~255.255.255.255
GBFD118611 GBFD118622
Abis IP over E1/T1 Enumeration LONG(LONG), A IP over E1/T1 Type SHORT(SHORT)
LONG, SHORT
GBFD118611 GBFD118622
Abis IP over E1/T1 A IP over E1/T1 Interval Type 4, 8
4, 8
GBFD118611 GBFD118622
Abis IP over E1/T1 A IP over E1/T1 Interval Type 128~1024
128~1024
GBFD118611 GBFD118622
No_HC(No_HC), UDP/IP_HC(UDP/IP_H Abis IP over C), E1/T1 Enumeration RTP/UDP/IP_HC(RTP/ No_HC, UDP/IP_HC, A IP over E1/T1 Type UDP/IP_HC) RTP/UDP/IP_HC
GBFD118611 GBFD118622
Abis IP over E1/T1 Enumeration Disable(Disable), A IP over E1/T1 Type Enable(Enable)
Disable, Enable
GBFD118611 GBFD118622
Abis IP over E1/T1 Enumeration Disable(Disable), A IP over E1/T1 Type Enable(Enable)
Disable, Enable
GBFD118611 GBFD118622
Abis IP over E1/T1 Enumeration Disable(Disable), A IP over E1/T1 Type Enable(Enable)
Disable, Enable
None
None
1~746
Interval Type 1~746
GBFD118611 GBFD118622
Abis IP over E1/T1 A IP over E1/T1 Interval Type 1~1500
1~1500
None
None
1~1500
GBFD118611 GBFD118622
Abis IP over E1/T1 Enumeration A IP over E1/T1 Type OFF(OFF), ON(ON)
Interval Type 1~1500
OFF, ON
GBFD118611 GBFD118622
Abis IP over E1/T1 A IP over E1/T1 Interval Type 0~1999
0~1999
GBFD118611 GBFD118622 GBFD111202
Abis IP over E1/T1 A IP over E1/T1 O&M of BTS Interval Type 0~100
0~100
GBFD118611 GBFD118622
Abis IP over NO_V(NO_V), E1/T1 Enumeration PAP_V(PAP_V), A IP over E1/T1 Type CHAP_V(CHAP_V)
NO_V, PAP_V, CHAP_V
GBFD118611 GBFD118622
Abis IP over E1/T1 Enumeration SERVER(SERVER), A IP over E1/T1 Type CLIENT(CLIENT)
SERVER, CLIENT
GBFD118611 GBFD118622
Abis IP over E1/T1 A IP over E1/T1 String Type
None
1~63 characters
GBFD118611 GBFD118622
Abis IP over E1/T1 A IP over E1/T1 String Type
None
1~15 characters
GBFD118611 GBFD118622
Abis IP over E1/T1 A IP over E1/T1 Interval Type 0~199
None
None
Enumeration Type OFF(OFF), ON(ON)
None
None
O1E3_R5E4(OCCUR:1 E-3, RECOVERY:5E-4), O5E4_R1E4(OCCUR:5 E-4, RECOVERY:1E-4), O1E4_R5E5(OCCUR:1 E-4, RECOVERY:5E-5), O5E5_R1E5(OCCUR:5 E-5, RECOVERY:1E-5), O1E5_R5E6(OCCUR:1 E-5, RECOVERY:5E-6), O1E3_R5E4, O5E4_R1E4, Enumeration O5E6_R1E6(OCCUR:5 O1E4_R5E5, O5E5_R1E5, Type E-6, RECOVERY:1E-6) O1E5_R5E6, O5E6_R1E6
GBFD118611 GBFD118622
Abis IP over E1/T1 Enumeration A IP over E1/T1 Type OFF(OFF), ON(ON)
0~199
OFF, ON
OFF, ON
GBFD118611 GBFD118622
ERR_PFM_5E6(OCCU R:5E-6), ERR_PFM_1E5(OCCU R:1E-5), ERR_PFM_5E5(OCCU R:5E-5), ERR_PFM_1E4(OCCU R:1E-4), ERR_PFM_5E4(OCCU R:5E-4), ERR_PFM_1E3(OCCU Abis IP over R:1E-3), E1/T1 Enumeration ERR_PFM_5E3(OCCU A IP over E1/T1 Type R:5E-3)
ERR_PFM_5E6, ERR_PFM_1E5, ERR_PFM_5E5, ERR_PFM_1E4, ERR_PFM_5E4, ERR_PFM_1E3, ERR_PFM_5E3
GBFD118611 GBFD118622
ERR_PFM_1E6(RECO VERY:1E-6), ERR_PFM_5E6(RECO VERY:5E-6), ERR_PFM_1E5(RECO VERY:1E-5), ERR_PFM_5E5(RECO VERY:5E-5), ERR_PFM_1E4(RECO VERY:1E-4), ERR_PFM_5E4(RECO Abis IP over VERY:5E-4), E1/T1 Enumeration ERR_PFM_1E3(RECO A IP over E1/T1 Type VERY:1E-3)
ERR_PFM_1E6, ERR_PFM_5E6, ERR_PFM_1E5, ERR_PFM_5E5, ERR_PFM_1E4, ERR_PFM_5E4, ERR_PFM_1E3
GBFD118611 GBFD118622
Abis IP over E1/T1 A IP over E1/T1 Interval Type 0~167
0~31(PEUa), 0~167(POUc)
GBFD118611 GBFD118622
Abis IP over E1/T1 A IP over E1/T1 Interval Type 4, 8
4, 8
GBFD118611 GBFD118622
Abis IP over E1/T1 A IP over E1/T1 Interval Type 1~746
1~746
GBFD118611 GBFD118622
Abis IP over E1/T1 A IP over E1/T1 Interval Type 1~1500
1~1500
GBFD118611 GBFD118622
Abis IP over E1/T1 A IP over E1/T1 Interval Type 1~1500
1~1500
GBFD118611 GBFD118622
ERR_PFM_5E6(OCCU R:5E-6), ERR_PFM_1E5(OCCU R:1E-5), ERR_PFM_5E5(OCCU R:5E-5), ERR_PFM_1E4(OCCU R:1E-4), ERR_PFM_5E4(OCCU R:5E-4), ERR_PFM_1E3(OCCU Abis IP over R:1E-3), E1/T1 Enumeration ERR_PFM_5E3(OCCU A IP over E1/T1 Type R:5E-3)
ERR_PFM_5E6, ERR_PFM_1E5, ERR_PFM_5E5, ERR_PFM_1E4, ERR_PFM_5E4, ERR_PFM_1E3, ERR_PFM_5E3
GBFD118611 GBFD118622
ERR_PFM_1E6(RECO VERY:1E-6), ERR_PFM_5E6(RECO VERY:5E-6), ERR_PFM_1E5(RECO VERY:1E-5), ERR_PFM_5E5(RECO VERY:5E-5), ERR_PFM_1E4(RECO VERY:1E-4), ERR_PFM_5E4(RECO Abis IP over VERY:5E-4), E1/T1 Enumeration ERR_PFM_1E3(RECO A IP over E1/T1 Type VERY:1E-3)
ERR_PFM_1E6, ERR_PFM_5E6, ERR_PFM_1E5, ERR_PFM_5E5, ERR_PFM_1E4, ERR_PFM_5E4, ERR_PFM_1E3
GBFD118611 GBFD118622
Abis IP over E1/T1 A IP over E1/T1 Interval Type 0~167
0~31(PEUa), 0~167(POUc)
MRFD210301
Configuration Management
0~11
Interval Type 0~11
None
None
Interval Type 0~5, 8~27
0~5, 8~27
None
None
Enumeration Type PEUa, POUc
PEUa, POUc
GBFD118611 GBFD118622
Abis IP over E1/T1 A IP over E1/T1 Interval Type 0~167
0~31(PEUa), 0~167(POUc)
GBFD118611 GBFD118622
Abis IP over E1/T1 A IP over E1/T1 Interval Type 0~499
0~499
GBFD118611 GBFD118622
Abis IP over E1/T1 A IP over E1/T1 Interval Type 0~335
0~31(PEUa), 0~251(E1 of POUc), 0~335(T1 of POUc)
TS1(Time_slot_1), TS2(Time_slot_2), TS3(Time_slot_3), TS4(Time_slot_4), TS5(Time_slot_5), TS6(Time_slot_6), TS7(Time_slot_7), TS8(Time_slot_8), TS9(Time_slot_9), TS10(Time_slot_10), TS11(Time_slot_11), TS12(Time_slot_12), TS13(Time_slot_13), TS14(Time_slot_14), TS15(Time_slot_15), TS16(Time_slot_16), TS17(Time_slot_17), TS18(Time_slot_18), TS19(Time_slot_19), TS20(Time_slot_20), TS21(Time_slot_21), TS22(Time_slot_22), TS23(Time_slot_23), TS24(Time_slot_24), TS25(Time_slot_25), TS26(Time_slot_26), TS27(Time_slot_27), TS28(Time_slot_28), TS29(Time_slot_29), TS30(Time_slot_30), TS31(Time_slot_31)
TS1, TS2, TS3, TS4, TS5, TS6, TS7, TS8, TS9, TS10, TS11, TS12, TS13, TS14, TS15, TS16, TS17, TS18, TS19, TS20, TS21, TS22, TS23, TS24, TS25, TS26, TS27, TS28, TS29, TS30, TS31
GBFD118611 GBFD118622
Abis IP over E1/T1 Bit Field A IP over E1/T1 Type
GBFD118611 GBFD118622
Abis IP over E1/T1 A IP over E1/T1 Interval Type 2~5
2~5
GBFD118611 GBFD118622
Abis IP over E1/T1 A IP over E1/T1 Interval Type 1~30
1~30
GBFD118611 GBFD118622
Abis IP over E1/T1 Enumeration None(None), A IP over E1/T1 Type 16bit(16bit), 32bit(32bit) None, 16bit, 32bit
None
None
GBFD118611 GBFD118622
Abis IP over E1/T1 A IP over E1/T1 Interval Type 0~335
0~31(PEUa), 0~251(E1 of POUc), 0~335(T1 of POUc)
MRFD210301
Configuration Management
Interval Type 0~11
0~11
MRFD210301
Configuration Management
Interval Type 0~27
0~27
MRFD210301
Configuration Management
Interval Type 0~11
0~11
MRFD210301
Configuration Management
Interval Type 0~27
0~27
GBFD117401
MSC Pool
Interval Type 0~31
0~31
GBFD111804
A Interface Protocol Process
Enumeration Type NO(No), YES(Yes)
NO, YES
Enumeration Type PEUa, POUc
PEUa, POUc
GBFD111804
A Interface Protocol Process
Enumeration Type NO(No), YES(Yes)
NO, YES
GBFD111804
A Interface Protocol Process
Enumeration Type NO(No), YES(Yes)
NO, YES
GBFD111804
A Interface Protocol Process
Enumeration Type NO(No), YES(Yes)
NO, YES
GBFD111804
A Interface Protocol Process
Enumeration Type NO(No), YES(Yes)
NO, YES
GBFD111804
A Interface Protocol Process
Enumeration Type NO(No), YES(Yes)
NO, YES
GBFD111804
A Interface Protocol Process
Enumeration Type NO(No), YES(Yes)
NO, YES
GBFD111804
A Interface Protocol Process
Enumeration Type NO(No), YES(Yes)
NO, YES
GBFD111804
A Interface Protocol Process
NOTSENDING(Not sending), SENDINGPRO(sending according to protocol), Enumeration SENDING(unconditional NOTSENDING, SENDINGPRO, Type ly sending) SENDING
GBFD111804
A Interface Protocol Process
Enumeration Type NO(No), YES(Yes)
NO, YES
GBFD111804
A Interface Protocol Process
NOSENDING(Force NO Sending), SYSTEMOPT(System Optimization), Enumeration SENDING(Force NOSENDING, SYSTEMOPT, Type Sending) SENDING
GBFD111804
A Interface Protocol Process
Enumeration Type NO(No), YES(Yes)
NO, YES
GBFD111804
A Interface Protocol Process
Enumeration Type NO(No), YES(Yes)
NO, YES
GBFD111804
A Interface Protocol Process
NOTSENDING(Not sending), SENDINGPRO(sending according to protocol), Enumeration SENDING(unconditional NOTSENDING, SENDINGPRO, Type ly sending) SENDING
GBFD111804
A Interface Protocol Process
Enumeration Type NO(No), YES(Yes)
NO, YES
GBFD111804
A Interface Protocol Process
Enumeration Type NO(No), YES(Yes)
NO, YES
GBFD111804
A Interface Protocol Process
Enumeration Type NO(No), YES(Yes)
NO, YES
GBFD111804
A Interface Protocol Process
Enumeration Type NO(No), YES(Yes)
NO, YES
GBFD111804
A Interface Protocol Process
Enumeration Type NO(No), YES(Yes)
NO, YES
GBFD111804
A Interface Protocol Process
Enumeration Type NO(No), YES(Yes)
NO, YES
GBFD118602
A over IP
Enumeration Type OFF(Off), ON(On)
OFF, ON
MRFD210301
Configuration Management
Interval Type 0~11
0~11
MRFD210301
Configuration Management
Interval Type 0~27
0~27
None
None
Interval Type 0~7
0~7
GBFD111701
Board Switchover
NON-REVERTIVE(NONREVERTIVE), Enumeration REVERTIVE(REVERTI Type VE) NON-REVERTIVE, REVERTIVE
GBFD111701
Board Switchover
Interval Type 30~60000
30~60000
GBFD111701
Board Switchover
NOT-INDICATEEND(NOT-INDICATEEnumeration END), INDICATEType END(INDICATE-END)
NOT-INDICATE-END, INDICATEEND
GBFD111701
Board Switchover
Enumeration Type DISABLE, ENABLE
DISABLE, ENABLE
GBFD111701
Board Switchover
Enumeration 1E-3, 1E-4, 1E-5, 1E-6, 1E-3, 1E-4, 1E-5, 1E-6, 1E-7, 1EType 1E-7, 1E-8, 1E-9 8, 1E-9
GBFD111701
Board Switchover
Enumeration HIGH(HIGH), Type LOW(LOW)
GBFD111701
Board Switchover
MODE1(1:1 Protection Switching), MODE2(1+1 Unidirectional Protection Switching), MODE3(1+1 Bidirectional Protection Enumeration Switching), MODE4(Y MODE1, MODE2, MODE3, Type Line) MODE4
MRFD210301
Configuration Management
Interval Type 0~11
0~11
MRFD210301
Configuration Management
Interval Type 0~27
0~27
HIGH, LOW
None
None
Interval Type 0~7
GBFD111701
Board Switchover
CLEAR(Cleared), LOP(Lockout of Protection), FS(Forcibly switchover working link to protection link), MS(Manual switchover from working link to protection link), EXERS(Exercisely Enumeration switch working link to Type protection link) CLEAR, LOP, FS, MS, EXERS
MRFD210301
Configuration Management
Enumeration BYTLLI(By TLLI), Type BYIMSI(By IMSI)
BYTLLI, BYIMSI
GBFD114101
GPRS
Interval Type 0~4294967295
0~4294967295
GBFD111203
O&M of BSC
String Type
1~15 characters
MRFD210301
Configuration Management
Interval Type 0~2047
0~2047
GBFD111804
A Interface Protocol Process
Interval Type 0~186
0~186
GBFD111804 GBFD118602 GBFD118622
A Interface Protocol Process A over IP A IP over E1/T1 Interval Type 0~186
0~186
None
0~7
GBFD111804
A Interface Protocol Process
B0000(B0000), B0001(B0001), B0010(B0010), B0011(B0011), B0100(B0100), B0101(B0101), B0110(B0110), B0111(B0111), B1000(B1000), B1001(B1001), B1010(B1010), B1011(B1011), B1100(B1100), B1101(B1101), Enumeration B1110(B1110), Type B1111(B1111)
B0000, B0001, B0010, B0011, B0100, B0101, B0110, B0111, B1000, B1001, B1010, B1011, B1100, B1101, B1110, B1111
Enumeration Type OFF(OFF), ON(ON)
OFF, ON
String Type
1~31 characters
GBFD111804
A Interface Protocol Process A Interface Protocol Process
GBFD111804
A Interface Protocol Process
GBFD111804 GBFD115301
A Interface Protocol Process Local Multiple Signaling Points Interval Type 0~15
0~15
None
None
Interval Type 0~11
0~11
None
None
0, 2, 4, 8, 10, 12, 14, 16, 0, 2, 4, 8, 10, 12, 14, 16, 18, 20, Interval Type 18, 20, 22, 24, 26 22, 24, 26
GBFD111804
None
Interval Type 0~186
0~186
GBFD111804
A Interface Protocol Process
SEPERATE_PRINCIPA L(Principal BSC), SEPERATE_SUBORDI NATE(Subordinate BSC), TOGETHER(BSC/TC Together), Enumeration SEPERATE_BSC_INTE Type RFACE(BSC Interface)
SEPERATE_PRINCIPAL, SEPERATE_SUBORDINATE, TOGETHER, SEPERATE_BSC_INTERFACE
GBFD111203
O&M of BSC
Interval Type 0~255
0~255
TS1(Timeslot 1), TS2(Timeslot 2), TS3(Timeslot 3), TS4(Timeslot 4), TS5(Timeslot 5), TS6(Timeslot 6), TS7(Timeslot 7), TS8(Timeslot 8), TS9(Timeslot 9), TS10(Timeslot 10), TS11(Timeslot 11), TS12(Timeslot 12), TS13(Timeslot 13), TS14(Timeslot 14), TS15(Timeslot 15), TS16(Timeslot 16), TS17(Timeslot 17), TS18(Timeslot 18), TS19(Timeslot 19), TS20(Timeslot 20), TS21(Timeslot 21), TS22(Timeslot 22), TS23(Timeslot 23), TS24(Timeslot 24), TS25(Timeslot 25), TS26(Timeslot 26), TS27(Timeslot 27), TS28(Timeslot 28), TS29(Timeslot 29), TS30(Timeslot 30), TS31(Timeslot 31)
TS1, TS2, TS3, TS4, TS5, TS6, TS7, TS8, TS9, TS10, TS11, TS12, TS13, TS14, TS15, TS16, TS17, TS18, TS19, TS20, TS21, TS22, TS23, TS24, TS25, TS26, TS27, TS28, TS29, TS30, TS31
GBFD111203
O&M of BSC
Bit Field Type
GBFD111804
A Interface Protocol Process
Interval Type 0~11
0~11
GBFD111804
A Interface Protocol Process
Interval Type 0~27
0~27
GBFD111804
A Interface Protocol Process
Interval Type 0~63
0~31(EIUa/OIUa), 0~63(POUc)
GBFD111804
A Interface Protocol Process
Interval Type 0~335
0~335
TS1(Timeslot 1), TS2(Timeslot 2), TS3(Timeslot 3), TS4(Timeslot 4), TS5(Timeslot 5), TS6(Timeslot 6), TS7(Timeslot 7), TS8(Timeslot 8), TS9(Timeslot 9), TS10(Timeslot 10), TS11(Timeslot 11), TS12(Timeslot 12), TS13(Timeslot 13), TS14(Timeslot 14), TS15(Timeslot 15), TS16(Timeslot 16), TS17(Timeslot 17), TS18(Timeslot 18), TS19(Timeslot 19), TS20(Timeslot 20), TS21(Timeslot 21), TS22(Timeslot 22), TS23(Timeslot 23), TS24(Timeslot 24), TS25(Timeslot 25), TS26(Timeslot 26), TS27(Timeslot 27), TS28(Timeslot 28), TS29(Timeslot 29), TS30(Timeslot 30), TS31(Timeslot 31)
TS1, TS2, TS3, TS4, TS5, TS6, TS7, TS8, TS9, TS10, TS11, TS12, TS13, TS14, TS15, TS16, TS17, TS18, TS19, TS20, TS21, TS22, TS23, TS24, TS25, TS26, TS27, TS28, TS29, TS30, TS31
GBFD111804
A Interface Protocol Process
Bit Field Type
GBFD111804
A Interface Protocol Process
Enumeration 64K(64Kbit/s), Type 2M(2Mbit/s)
64K, 2M
GBFD111804
A Interface Protocol Process
Enumeration Type NO(NO), YES(YES)
NO, YES
GBFD111804 GBFD118602 GBFD118622 GBFD111804
A Interface Protocol Process A over IP A IP over E1/T1 Interval Type 0~99 A Interface Protocol Process Interval Type 1~15
0~99
1~15
GBFD111804
A Interface Protocol Process A Interface Protocol Process A Interface Protocol Process A Interface Protocol Process A Interface Protocol Process A Interface Protocol Process A Interface Protocol Process A Interface Protocol Process A Interface Protocol Process A Interface Protocol Process A Interface Protocol Process
GBFD111804 GBFD118602 GBFD118622
A Interface Protocol Process A over IP A IP over E1/T1 Interval Type 0~186
0~186
GBFD111804
A Interface Protocol Process
0~186
GBFD111804 GBFD111804 GBFD111804 GBFD111804 GBFD111804 GBFD111804 GBFD111804 GBFD111804 GBFD111804 GBFD111804
Interval Type 1~254
1~254
Interval Type 25000~350000
40000~50000(64k), 25000~350000(2M)
Interval Type 5000~150000
5000~150000
Interval Type 1000~2000
1000~2000
Interval Type 3000~70000
7500~9500(64k), 3000~70000(2M)
Interval Type 400~600
400~600
Interval Type 80~120
80~120
Interval Type 3000~6000
3000~6000
Interval Type 500~2000
500~2000
Interval Type 1~100
1~100
String Type
1~31 characters
None
Interval Type 0~186
GBFD111804 GBFD118602 GBFD118622 GBFD111804
A Interface Protocol Process A over IP A IP over E1/T1 Interval Type 0~99 A Interface Protocol Process String Type None
GBFD111804
A Interface Protocol Process
Interval Type 800~1200
800~1200
GBFD111804
A Interface Protocol Process
Interval Type 1400~2000
1400~2000
GBFD111804
A Interface Protocol Process
Interval Type 800~1200
800~1200
GBFD111804
A Interface Protocol Process
Interval Type 800~1200
800~1200
GBFD111804
A Interface Protocol Process
Interval Type 800~1200
800~1200
Interval Type 800~1200
800~1200
Interval Type 30000~60000
30000~60000
Interval Type 800~1500
800~1500
GBFD111804
A Interface Protocol Process A Interface Protocol Process
GBFD111804
A Interface Protocol Process
GBFD111804
0~99
1~31 characters
GBFD111804
GBFD111804 GBFD111804 GBFD111804 GBFD111804
A Interface Protocol Process A Interface Protocol Process A Interface Protocol Process A Interface Protocol Process A Interface Protocol Process
Interval Type 800~1500
800~1500
Interval Type 2000~3000
2000~3000
Interval Type 800~1500
800~1500
Interval Type 180000~360000
180000~360000
Interval Type 180000~360000
180000~360000
Interval Type 8000~12000
8000~12000
Interval Type 30000~90000
30000~90000
String Type
1~49 characters
GBFD111804
A Interface Protocol Process A Interface Protocol Process A Interface Protocol Process
GBFD111804 GBFD118602 GBFD118622
A Interface Protocol Process A over IP A IP over E1/T1 Interval Type 0~186
0~186
GBFD111804
A Interface Protocol Process
0~4
GBFD111804 GBFD111804
None
Interval Type 0~4
GBFD111804
A Interface Protocol Process
WNF(Whole Number Enumeration Format), DNF(Divided Type Number Format)
GBFD111804 GBFD111806
A Interface Protocol Process STP(Signaling Transport Point) Interval Type 1~16777215
1~16383(BIT14), 1~65535(BIT16), 1~16777215(BIT24)
GBFD111804
A Interface Protocol Process
1~11 characters
String Type
None
WNF, DNF
GBFD111804 GBFD111806
A Interface Protocol Process STP(Signaling Enumeration STP(STP), A(A), Transport Point) Type IUR_G(IUR_G), LB(LB) STP, A, IUR_G, LB
GBFD111804
A Interface Protocol Process
B0000(B0000), B0001(B0001), B0010(B0010), B0011(B0011), B0100(B0100), B0101(B0101), B0110(B0110), B0111(B0111), B1000(B1000), B1001(B1001), B1010(B1010), B1011(B1011), B1100(B1100), B1101(B1101), Enumeration B1110(B1110), Type B1111(B1111)
GBFD111804
A Interface Protocol Process
NO(NO_DIRECT_CON NECT), Enumeration YES(DIRECT_CONNE Type CT) NO, YES
GBFD111804
A Interface Protocol Process
Enumeration Type OFF(OFF), ON(ON)
GBFD111804 GBFD111806
A Interface Protocol MTP3(MTP3), Process M3UA(M3UA), STP(Signaling Enumeration MTP3_M3UA(MTP3 Transport Point) Type and M3UA)
GBFD118623
M3UA_FIRST(M3UA_FI TDM/IP Dual RST), Transmission Enumeration MTP3_FIRST(MTP3_FI over A Interface Type RST) M3UA_FIRST, MTP3_FIRST
B0000, B0001, B0010, B0011, B0100, B0101, B0110, B0111, B1000, B1001, B1010, B1011, B1100, B1101, B1110, B1111
OFF, ON
MTP3, M3UA, MTP3_M3UA
GBFD111804
None
A Interface Protocol Process
GBFD118201
None SoftSynchronized Network
MRFD210301
Enumeration ITUT(ITUT), Type ANSI(ANSI), TTC(TTC) ITUT, ANSI, TTC
Enumeration Type 250(250), 252(252)
250, 252
0~7
Configuration Management
Interval Type 0~7 BYIDX(By Cell Index), Enumeration BYNAME(By Cell Type Name)
MRFD210301
Configuration Management
Interval Type 0~2047
0~2047
MRFD210301
Configuration Management
Interval Type 0~2047
0~2047
GBFD111202
O&M of BTS
String Type
None
1~64 characters
GBFD111202
O&M of BTS
String Type
None
1~64 characters
GBFD111202
O&M of BTS
Enumeration Type NO(NO), YES(YES)
NO, YES
GBFD117401 GBFD119701
MSC Pool SGSN Pool
Interval Type 0~1023
0~1023
GBFD117401
MSC Pool
Interval Type 0~31
0~31
GBFD119701
SGSN Pool
Interval Type 0~1023
0~1023
GBFD118701
RAN Sharing
String Type
0~255 characters
None
BYIDX, BYNAME
GBFD119701
SGSN Pool
Interval Type 0~4095
0~4095
GBFD119001
Gb Interface Function
Interval Type 0~65534
0~65534
MRFD210301
Configuration Management
Interval Type 0~11
0~11
MRFD210301
Configuration Management
0, 2, 4, 8, 10, 12, 14, 16, 0, 2, 4, 8, 10, 12, 14, 16, 18, 20, Interval Type 18, 20, 22, 24, 26 22, 24, 26
GBFD119001
Gb Interface Function
GB_OVER_FR(Gb over Enumeration FR), GB_OVER_IP(Gb Type over IP) GB_OVER_FR, GB_OVER_IP
GBFD118603
Gb over IP
Enumeration STATIC(Static), Type DYNAMIC(Dynamic)
STATIC, DYNAMIC
GBFD118603
Gb over IP
IP Address Type
0.0.0.0~255.255.255.255
GBFD118603
Gb over IP
Interval Type 0~65535
0~65535
GBFD118701
RAN Sharing
String Type
0~255 characters
GBFD119701
SGSN Pool
Interval Type 0~4095
None
None
0~4095
GBFD116301
Network Assisted Cell Enumeration NO(No Support), Change (NACC) Type YES(Support)
NO, YES
GBFD119901
Streaming QoS(GBR)
Enumeration NO(No Support), Type YES(Support)
NO, YES
GBFD119502
PS Handover
Enumeration NO(No Support), Type YES(Support)
NO, YES
GBFD510002
Gb Over FR
Interval Type 0~1023
0~1023
GBFD510002
Gb Over FR
Interval Type 0~65534
0~65534
GBFD119001
Gb Interface Function
Interval Type 0~65534
0~65534
MRFD210301
Configuration Management
Interval Type 0~11
0~11
MRFD210301
Configuration Management
Interval Type 0~27
0~27
GBFD510002
Gb Over FR
Interval Type 0~511
0~511
GBFD510002
Gb Over FR
Interval Type 16~1007
16~1007
GBFD118603
Gb over IP
Interval Type 0~1023
0~1023
GBFD119001
Gb Interface Function
Interval Type 0~65534
0~65534
GBFD118603
Gb over IP
IP Address Type
0.0.0.0~255.255.255.255
None
GBFD118603
Gb over IP
1214~2001, 2005~3783, 3786~4783, 1214~2001, 2005~3783, Interval Type 4785~65000 3786~4783, 4785~65000
MRFD210301
Configuration Management
Interval Type 0~11
0~11
MRFD210301
Configuration Management
Interval Type 0~27
0~27
GBFD118603
Gb over IP
Interval Type 0~255
0~255
GBFD118603
Gb over IP
Interval Type 0~255
0~255
GBFD118603
Gb over IP
Interval Type 0~1023
0~1023
GBFD119001
Gb Interface Function
Interval Type 0~65534
0~65534
GBFD118603
Gb over IP
IP Address Type
0.0.0.0~255.255.255.255
GBFD118603
Gb over IP
Interval Type 0~65535
None
0~65535
GBFD118603
Gb over IP
Interval Type 0~255
0~255
GBFD118603
Gb over IP
Interval Type 0~255
0~255
MRFD210304
Faulty Management
ALL(Shield by Alarm ID), BOARD(Shield by Board), PORT(Shield by Enumeration Port), DSP(Shield by Type DSP) ALL, BOARD, PORT, DSP
MRFD210304
Faulty Management
Interval Type 0~11
0~11
MRFD210304
Faulty Management
Interval Type 0~27
0~27
MRFD210304
Faulty Management
Interval Type 0~335
0~335
MRFD210304
Faulty Management
Interval Type 0~47
0~47
MRFD210304
Faulty Management
ALL(All), Enumeration ONEBYONE(One by Type One)
ALL, ONEBYONE
MRFD210304
Faulty Management
Interval Type 1~65535
1~65535
GBFD111203
O&M of BSC
Enumeration Type OFF(OFF), ON(ON)
OFF, ON
GBFD111203 MRFD210305
O&M of BSC Security Management
String Type
None
1~32 characters
GBFD111202
O&M of BTS
String Type
None
1~50 characters
None
None
IP Address Type
None
0.0.0.0~255.255.255.255
None
None
IP Address Type
None
0.0.0.0~255.255.255.255
None
None
IP Address Type
None
0.0.0.0~255.255.255.255
GBFD111203 MRFD210305
O&M of BSC Security Management
String Type
None
1~110 characters
GBFD111203 MRFD210305
O&M of BSC Security Management
Password Type
None
1~32 characters
GBFD111203 MRFD210305
O&M of BSC Security Management
Password Type
None
1~32 characters
O&M of BSC Security Management
Administrators(Administ rator), Operators(Operator), Users(User), Enumeration Guests(Guest), Administrators, Operators, Users, Type Customs(Custom) Guests, Customs
GBFD111203 MRFD210305
GBFD111203 MRFD210305
O&M of BSC Security Management
Bit Field Type
G_0, G_1, G_2, G_3, G_4, G_5, G_6, G_7, G_8, G_9, G_10, G_11, G_12, G_13, G_14, G_15, G_16, G_17, G_18, G_19, G_20, G_21, G_22, G_23, G_24, G_25, G_26, G_27, G_28, G_29, G_30, G_31
G_0, G_1, G_2, G_3, G_4, G_5, G_6, G_7, G_8, G_9, G_10, G_11, G_12, G_13, G_14, G_15, G_16, G_17, G_18, G_19, G_20, G_21, G_22, G_23, G_24, G_25, G_26, G_27, G_28, G_29, G_30, G_31
GBFD111203 MRFD210305
O&M of BSC Security Management
Enumeration NOLIMIT(No Limit), Type LIMIT(Limit)
NOLIMIT, LIMIT
GBFD111203 MRFD210305
O&M of BSC Security Management
Compound Type
year, month, day
2000-1-1~2037-12-31
GBFD111203 MRFD210305
O&M of BSC Security Management
Compound Type
year, month, day
2000-1-1~2037-12-31
GBFD111203 MRFD210305
O&M of BSC Security Management
Enumeration NOLIMIT(No Limit), Type LIMIT(Limit)
NOLIMIT, LIMIT
GBFD111203 MRFD210305
O&M of BSC Security Management
Compound Type
hour, min, sec
00:00:00~23:59:59
GBFD111203 MRFD210305
O&M of BSC Security Management
Compound Type
hour, min, sec
00:00:00~23:59:59
GBFD111203 MRFD210305
O&M of BSC Security Management
Enumeration NOLIMIT(No Limit), Type LIMIT(Limit)
NOLIMIT, LIMIT
GBFD111203 MRFD210305
O&M of BSC Security Management
SUN(Sunday), MON(Monday), TUE(Tuesday), WED(Wednesday), THU(Thursday), Enumeration FRI(Friday), Type SAT(Saturday)
SUN, MON, TUE, WED, THU, FRI, SAT
GBFD111203 MRFD210305
O&M of BSC Security Management
Password Type
1~32 characters
GBFD111203 MRFD210305
O&M of BSC Security Management
Administrators(Administ rator), Operators(Operator), Users(User), Enumeration Guests(Guest), Administrators, Operators, Users, Type Customs(Custom) Guests, Customs
GBFD111203 MRFD210305
O&M of BSC Security Management
Enumeration NOLIMIT(No Limit), Type LIMIT(Limit)
None
NOLIMIT, LIMIT
GBFD111203 MRFD210305 GBFD111804
O&M of BSC Security Management A Interface Protocol Process
GBFD111804
A Interface Protocol Process
Interval Type 0~4
0~4
GBFD111804
A Interface Protocol Process
INT(INT), INTB(INTB), Enumeration NAT(NAT), Type NATB(NATB)
INT, INTB, NAT, NATB
GBFD111802 GBFD111804
14-Digit Signaling Point Code A Interface Protocol Process
BIT14(BIT14), Enumeration BIT16(BIT16), Type BIT24(BIT24)
BIT14, BIT16, BIT24
Enumeration NOLIMIT(No Limit), Type LIMIT(Limit)
NOLIMIT, LIMIT
String Type
1~49 characters
None
GBFD111804
A Interface Protocol Process
WNF(Whole Number Enumeration Format), DNF(Divided Type Number Format)
WNF, DNF
GBFD111802 GBFD111804
14-Digit Signaling Point Code A Interface Protocol Process
Interval Type 1~16777215
1~16383(BIT14), 1~65535(BIT16), 1~16777215(BIT24)
GBFD111802 GBFD111804
14-Digit Signaling Point Code A Interface Protocol Process
String Type
1~11 characters
None
A Interface Protocol Process
Enumeration Type OFF(OFF), ON(ON)
GBFD113725
BSC Node Redundancy
SINGLEHOST(SINGLE HOST), PRIMHOST(PRIMHOS T), Enumeration SLAVEHOST(SLAVEH SINGLEHOST, PRIMHOST, Type OST) SLAVEHOST
GBFD111203 MRFD210305
O&M of BSC Security Management
Enumeration Type OFF(Unlock), ON(Lock) OFF, ON
GBFD111203 MRFD210305
O&M of BSC Security Management
Enumeration Type OFF(Off), ON(On)
OFF, ON
MRFD210301
Configuration Management
Interval Type 0~11
0~11
None
None
Interval Type 0~5, 8~27
0~5, 8~27
GBFD111804
OFF, ON
None
Enumeration Type POUc, OIUa
POUc, OIUa
None
None
ALL(Select all ports), Enumeration SINGLE(Select one Type port)
ALL, SINGLE
None
None
Interval Type 0~7
0(OIUa), 0~3(POUc)
None
None
Enumeration Type SDH, SONET
SDH, SONET
None
None
LUCENT_MODE, Enumeration HUAWEI_MODE, Type ALCATEL_MODE
LUCENT_MODE, HUAWEI_MODE, ALCATEL_MODE
None
None
Enumeration Type OFF(OFF), ON(ON)
OFF, ON
None
None
Enumeration NULL, 1byte, 16byte, Type 64byte
None
None
Hexadecimal(Hex decimal), Enumeration Character_String(Chara Type cter String) Hexadecimal, Character_String
None
None
String Type
None
0~124 characters
None
None
String Type
None
0~124 characters
None
None
Enumeration Type OFF(OFF), ON(ON)
OFF, ON
None
None
Enumeration NULL, 1byte, 16byte, Type 64byte
NULL, 1byte, 16byte, 64byte
None
Hexadecimal(Hex decimal), Enumeration Character_String(Chara Type cter String) Hexadecimal, Character_String
None
None
NULL, 1byte, 16byte, 64byte
None
None
String Type
None
0~124 characters
None
None
String Type
None
0~124 characters
None
None
Enumeration Type OFF(OFF), ON(ON)
OFF, ON
None
None
Interval Type 0~15
0~15
None
None
Enumeration BASIS_OF_B1, Type BASIS_OF_B2
BASIS_OF_B1, BASIS_OF_B2
None
None
Enumeration BASIS_OF_B1, Type BASIS_OF_B2
BASIS_OF_B1, BASIS_OF_B2
None
None
None
O1E3_R1E4(OCCUR:1 E-3, RECOVERY:1E-4), O1E4_R1E5(OCCUR:1 E-4, RECOVERY:1E-5), O1E5_R1E6(OCCUR:1 E-5, RECOVERY:1E-6), O1E6_R1E7(OCCUR:1 E-6, RECOVERY:1E-7), O1E7_R1E8(OCCUR:1 E-7, RECOVERY:1E-8), O1E8_R1E9(OCCUR:1 E-8, RECOVERY:1E-9), O1E9_R1E10(OCCUR: 1E-9, RECOVERY:1E10), O1E10_R1E11(OCCUR :1E-10, RECOVERY:1E11), O1E11_R1E12(OCCUR Enumeration :1E-11, RECOVERY:1EType 12)
O1E3_R1E4, O1E4_R1E5, O1E5_R1E6, O1E6_R1E7, O1E7_R1E8, O1E8_R1E9, O1E9_R1E10, O1E10_R1E11, O1E11_R1E12
None
O1E3_R1E4(OCCUR:1 E-3, RECOVERY:1E-4), O1E4_R1E5(OCCUR:1 E-4, RECOVERY:1E-5), O1E5_R1E6(OCCUR:1 E-5, RECOVERY:1E-6), O1E6_R1E7(OCCUR:1 E-6, RECOVERY:1E-7), O1E7_R1E8(OCCUR:1 E-7, RECOVERY:1E-8), O1E8_R1E9(OCCUR:1 E-8, RECOVERY:1E-9), O1E9_R1E10(OCCUR: 1E-9, RECOVERY:1E10), O1E10_R1E11(OCCUR :1E-10, RECOVERY:1E11), O1E11_R1E12(OCCUR Enumeration :1E-11, RECOVERY:1EType 12)
O1E3_R1E4, O1E4_R1E5, O1E5_R1E6, O1E6_R1E7, O1E7_R1E8, O1E8_R1E9, O1E9_R1E10, O1E10_R1E11, O1E11_R1E12
None
O1E4_R1E5(OCCUR:1 E-4, RECOVERY:1E-5), O1E5_R1E6(OCCUR:1 E-5, RECOVERY:1E-6), O1E6_R1E7(OCCUR:1 E-6, RECOVERY:1E-7), O1E7_R1E8(OCCUR:1 E-7, RECOVERY:1E-8), O1E8_R1E9(OCCUR:1 E-8, RECOVERY:1E-9), O1E9_R1E10(OCCUR: 1E-9, RECOVERY:1E10), O1E10_R1E11(OCCUR Enumeration :1E-10, RECOVERY:1EType 11)
O1E4_R1E5, O1E5_R1E6, O1E6_R1E7, O1E7_R1E8, O1E8_R1E9, O1E9_R1E10, O1E10_R1E11
None
None
O1E4_R1E5(OCCUR:1 E-4, RECOVERY:1E-5), O1E5_R1E6(OCCUR:1 E-5, RECOVERY:1E-6), O1E6_R1E7(OCCUR:1 E-6, RECOVERY:1E-7), O1E7_R1E8(OCCUR:1 E-7, RECOVERY:1E-8), O1E8_R1E9(OCCUR:1 E-8, RECOVERY:1E-9), O1E9_R1E10(OCCUR: 1E-9, RECOVERY:1E10), O1E10_R1E11(OCCUR Enumeration :1E-10, RECOVERY:1EType 11)
O1E4_R1E5, O1E5_R1E6, O1E6_R1E7, O1E7_R1E8, O1E8_R1E9, O1E9_R1E10, O1E10_R1E11
None
None
Enumeration ZERO(zero), Type SPACE(space)
ZERO, SPACE
None
None
Enumeration Type AU4(AU4), AU3(AU3)
AU4, AU3
None
MRFD210301
Configuration Management
Interval Type 0~11
0~11
None
None
Interval Type 0~5, 8~27
0~5, 8~27
None
None
Interval Type 0~3
0(OIUa), 0~3(POUc)
None
NO_LOOP(NO_LOOP), LOCAL_LOOP(LOCAL_ LOOP), Enumeration REMOTE_LOOP(REM NO_LOOP, REMOTE_LOOP, Type OTE_LOOP) LOCAL_LOOP
None
GBFD111202
O&M of BTS
Enumeration Type NO(No), YES(Yes)
NO, YES
MRFD210206
Tree Topology
Enumeration Type NO(No), YES(Yes)
NO, YES
GBFD111803
A Interface Circuit Management
Interval Type 0~65535
0~65535
GBFD114101
GPRS
Interval Type 0~65535
0~65535
GBFD111101
System Information Sending
Enumeration Type NO(No), YES(Yes)
NO, YES
GBFD111101
System Information Sending
Enumeration Type NO(No), YES(Yes)
NO, YES
GBFD111101
System Information Sending
Enumeration Type NO(No), YES(Yes)
NO, YES
GBFD111705
GSM Flow Control
Enumeration Type NO(No), YES(Yes)
NO, YES
GBFD110601 GBFD510501
HUAWEI I Handover HUAWEI II Handover
Interval Type 0~15
0~15
GBFD111804
A Interface Protocol Process
Enumeration Type NO(No), YES(Yes)
NO, YES
GBFD111203
O&M of BSC
Enumeration Type NO(No), YES(Yes)
NO, YES
GBFD111101
System Information Sending
Enumeration Type NO(No), YES(Yes)
NO, YES
GBFD116901
Flex Ater
Enumeration Type NO(No), YES(Yes)
NO, YES
GBFD114101
GPRS
Enumeration Type NO(No), YES(Yes)
NO, YES
GBFD114101
GPRS
Enumeration Type NO(No), YES(Yes)
NO, YES
GBFD114101
GPRS
Enumeration Type NO(No), YES(Yes)
NO, YES
GBFD114101
GPRS
Enumeration Type NO(No), YES(Yes)
NO, YES
GBFD114101
GPRS
Interval Type 0~100
0~100
O&M of BTS
Enumeration Type NO(No), YES(Yes)
NO, YES
GBFD111202
GBFD111202
O&M of BTS
Interval Type 0~65535
0~65535
GBFD116901
Flex Ater
Interval Type 80~100
80~100
GBFD116901
Flex Ater
Enumeration Close(Close), Type Open(Open)
Close, Open
GBFD510901
GSM and UMTS Neighboring Cell Automatic Optimization Interval Type 0~127
0~127
GBFD510901
GSM and UMTS Neighboring Cell Automatic Optimization Interval Type 0~63
0~63
GBFD116801
Voice Quality Index (Uplink VQI)
Interval Type 0~250
0~250
GBFD116401
End-to-End MS Signaling Tracing
Enumeration Type NO(No), YES(Yes)
NO, YES
GBFD116401
End-to-End MS Signaling Tracing
Enumeration Type NO(No), YES(Yes)
NO, YES
GBFD116401
End-to-End MS Signaling Tracing
Enumeration Type NO(No), YES(Yes)
NO, YES
GBFD111803
A Interface Circuit Management
Enumeration Type NO(No), YES(Yes)
NO, YES
GBFD113401
Half Rate Speech
Enumeration Type NO(No), YES(Yes)
NO, YES
GBFD110501
Call Control
Enumeration Type NO(No), YES(Yes)
NO, YES
GBFD510901
GSM and UMTS Neighboring Cell Automatic Optimization Interval Type 0~127
0~127
GBFD510901
GSM and UMTS Neighboring Cell Automatic Optimization Interval Type 0~127
0~127
GBFD510901
GSM and UMTS Neighboring Cell Automatic Optimization Interval Type 0~127
0~127
GBFD510901
GSM and UMTS Neighboring Cell Automatic Optimization Interval Type 0~127
0~127
GBFD510901
GSM and UMTS Neighboring Cell Automatic Optimization Interval Type 0~127
0~127
GBFD510901
GSM and UMTS Neighboring Cell Automatic Optimization Interval Type 0~127
0~127
GBFD510901
GSM and UMTS Neighboring Cell Automatic Optimization Interval Type 0~127
0~127
GBFD510901
GSM and UMTS Neighboring Cell Automatic Optimization Interval Type 0~127
0~127
GBFD111005
Enhanced Channel Assignment Algorithm System Information Sending System Information Sending
Enumeration Type NO(No), YES(Yes)
NO, YES
Enumeration Type NO(No), YES(Yes)
NO, YES
Enumeration Type NO(No), YES(Yes)
NO, YES
Enumeration Type NO(No), YES(Yes)
NO, YES
GBFD111101
Enhanced Multi Level Precedence and Preemption(EM LPP) System Information Sending
Enumeration Type NO(No), YES(Yes)
NO, YES
GBFD111705
GSM Flow Control
Enumeration CLOSE(Close), Type OPEN(Open)
CLOSE, OPEN
MRFD210301
Configuration Management
Interval Type 0~65535
0~65535
MRFD210301
Configuration Management
Interval Type 0~65535
0~65535
MRFD210301
Configuration Management
Interval Type 0~65535
0~65535
MRFD210301
Configuration Management
Interval Type 0~65535
0~65535
MRFD210301
Configuration Management
Interval Type 0~65535
0~65535
MRFD210301
Configuration Management
Interval Type 0~4294967295
0~4294967295
GBFD111101 GBFD111101
GBFD115001
MRFD210301
Configuration Management
Interval Type 0~4294967295
0~4294967295
MRFD210301
Configuration Management
Interval Type 0~4294967295
0~4294967295
MRFD210301
Configuration Management
Interval Type 0~65535
0~65535
MRFD210301
Configuration Management
Interval Type 0~65535
0~65535
MRFD210301
Configuration Management
Interval Type 0~65535
0~65535
MRFD210301
Configuration Management
Interval Type 0~4294967295
0~4294967295
MRFD210301
Configuration Management
Interval Type 0~65535
0~65535
MRFD210301
Configuration Management
Interval Type 0~65535
0~65535
MRFD210301
Configuration Management
Interval Type 0~65535
0~65535
MRFD210301
Configuration Management
Interval Type 0~65535
0~65535
MRFD210301
Configuration Management
Interval Type 0~65535
0~65535
MRFD210301
Configuration Management
Interval Type 0~65535
0~65535
MRFD210301
Configuration Management
Interval Type 0~65535
0~65535
MRFD210301
Configuration Management
Interval Type 0~4294967295
0~4294967295
MRFD210301
Configuration Management
Interval Type 0~4294967295
0~4294967295
MRFD210301
Configuration Management
Interval Type 0~4294967295
0~4294967295
MRFD210301
Configuration Management
Interval Type 0~4294967295
0~4294967295
MRFD210301
Configuration Management
Interval Type 0~4294967295
0~4294967295
MRFD210301
Configuration Management
Interval Type 0~4294967295
0~4294967295
MRFD210301
Configuration Management
Interval Type 0~4294967295
0~4294967295
MRFD210301
Configuration Management
Interval Type 0~4294967295
0~4294967295
MRFD210301
Configuration Management
Interval Type 0~4294967295
0~4294967295
MRFD210301
Configuration Management
Interval Type 0~4294967295
0~4294967295
GBFD111005
Enhanced Channel Assignment Algorithm
Enumeration Type NO(No), YES(Yes)
NO, YES
GBFD110203
Point To Point Short Message Service (TS21, TS22)
Enumeration Type NO(No), YES(Yes)
NO, YES
GBFD114321
GSM/WCDMA Service Based Handover
Enumeration CLOSE(Close), Type OPEN(Open)
CLOSE, OPEN
GBFD114321
GSM/WCDMA Service Based Handover
Enumeration Type NO(No), YES(Yes)
NO, YES
GBFD111202
O&M of BTS
Interval Type 50~200
50~200
GBFD118601
Abis over IP
Enumeration DENY(Deny), Type ALLOW(Allow)
DENY, ALLOW
GBFD118601
Abis over IP
Enumeration DENY(Deny), Type ALLOW(Allow)
DENY, ALLOW
GBFD117002
IBCA (Interference Based Channel Allocation)
Interval Type 100~6000
100~6000
GBFD117002
IBCA (Interference Based Channel Allocation)
Interval Type 100~6000
100~6000
GBFD113701 GBFD511103
Frequency Hopping (RF hopping, baseband Enumeration hopping) Type OFF(Off), ON(On) GSM and UMTS Load Balancing Based on Iur-g Interval Type 0~200
OFF, ON
-100~100
GBFD116601
Abis Bypass
GBFD115001
Enhanced Multi Level Precedence and Preemption(EM Enumeration LPP) Type NO(No), YES(Yes)
Interval Type 4~255
4~255
NO, YES
GBFD115001
Enhanced Multi Level Precedence and Preemption(EM Enumeration LPP) Type NO(No), YES(Yes)
NO, YES
GBFD115001
Enhanced Multi Level Precedence and Preemption(EM Enumeration LPP) Type NO(No), YES(Yes)
NO, YES
GBFD115001
Enhanced Multi Level Precedence and Preemption(EM Enumeration LPP) Type NO(No), YES(Yes)
NO, YES
GBFD115001
Enhanced Multi Level Precedence and Preemption(EM Enumeration LPP) Type NO(No), YES(Yes)
NO, YES
GBFD115001
Enhanced Multi Level Precedence and NOT_ALLOWED(Not Preemption(EM Enumeration Allowed), LPP) Type ALLOWED(Allowed)
ALLOWED, NOT_ALLOWED
GBFD115001
Enhanced Multi Level Precedence and Preemption(EM Enumeration LPP) Type NO(No), YES(Yes)
YES, NO
GBFD115001
Enhanced Multi Level Precedence and Preemption(EM Enumeration LPP) Type NO(No), YES(Yes)
YES, NO
GBFD118702
MOCN Shared Cell
CLOSE(Close), Enumeration CNSEL(CN Select), Type BSCSEL(BSC Select)
CLOSE, CNSEL, BSCSEL
GBFD118702
MOCN Shared Cell
NOTREDIR(Not Redirect), Enumeration UNSUREOP(Unsure Type Operator), ALL(All)
NOTREDIR, UNSUREOP, ALL
GBFD118702
MOCN Shared Cell
Enumeration Type NO(No), YES(Yes)
NO, YES
GBFD118702
MOCN Shared Cell
Enumeration Type NO(No), YES(Yes)
NO, YES
GBFD118702
MOCN Shared Cell
Enumeration Type NO(No), YES(Yes)
NO, YES
GBFD115707
KPIs Based on Enumeration User Experience Type NO(No), YES(Yes)
NO, YES
GBFD115001
Enhanced Multi Level Precedence and NOT_ALLOWED(Not Preemption(EM Enumeration Allowed), LPP) Type ALLOWED(Allowed)
ALLOWED, NOT_ALLOWED
GBFD117002
IBCA (Interference Based Channel Allocation)
Interval Type 1~255
1~255
GBFD117002
IBCA (Interference Based Channel Allocation)
Interval Type 1~65535
1~65535
GBFD111705
GSM Flow Control
Interval Type 20~100
20~100
GBFD113525
DTMF Downlink Enumeration CLOSE(Close), Message Filter Type OPEN(Open)
CLOSE, OPEN
GBFD111203
O&M of BSC
Enumeration Type NO(No), YES(Yes)
NO, YES
None
None
Enumeration CLOSE(Close), Type OPEN(Open)
CLOSE, OPEN
None
None
Interval Type 0~255
0~255
None
None
Enumeration CLOSE(Close), Type OPEN(Open)
CLOSE, OPEN
None
None
Enumeration CLOSE(Close), Type OPEN(Open)
CLOSE, OPEN
None
None
Interval Type 0~65535
0~65535
None
None
Enumeration CLOSE(Close), Type OPEN(Open)
CLOSE, OPEN
MRFD210401
BSC/RNC Software Management
One_touch(execute on all boards in all Enumeration subracks), Type Step_by_Step
One_touch, Step_by_Step
BSC/RNC Software Management
SCUa, SCUb, GCUa, GCGa, PEUa, FG2a, GOUa, EIUa, OIUa, POUc, FG2c, GOUc, SPUa, XPUa, SPUb, XPUb, DPUa, DPUb, Enumeration DPUc, DPUd, DPUf, Type TNUa
SCUa, SCUb, GCUa, GCGa, PEUa, FG2a, GOUa, EIUa, OIUa, POUc, FG2c, GOUc, SPUa, XPUa, SPUb, XPUb, DPUa, DPUb, DPUc, DPUd, DPUf, TNUa
MRFD210401
Configuration Management
TDM_Switching, GCP, RGCP, MCP, GTC, GPCU, IP, FR, HDLC, TDM, GbIP, Abis_TDM, Enumeration Ater_TDM, Pb_TDM, Type A_TDM, Abis_IP
MRFD210401
BSC/RNC Software Management
MAINCPU_PATCH(Mai n programme patch), DSP_PATCH(DSP programme patch), Enumeration UCODE_PATCH(Marcr MAINCPU_PATCH, Type ocode patch) DSP_PATCH, UCODE_PATCH
None
None
Interval Type 0~11
0~11
GBFD111203
O&M of BSC
Interval Type 0~27
0~27
MRFD210301
TDM_Switching, GCP, RGCP, MCP, GTC, GPCU, IP, FR, HDLC, TDM, GbIP, Abis_TDM, Ater_TDM, Pb_TDM, A_TDM, Abis_IP
GBFD111203
O&M of BSC
Interval Type 0~335
0~335
GBFD111203
O&M of BSC
TRRS(Terrestrial Transmission), Enumeration SATEL(Satellite Type Transmission)
TRRS, SATEL
GBFD111203
O&M of BSC
Interval Type 0~65535
0~65535
GBFD111203
O&M of BSC
MODRANGETS(MOD BY RANGE OF TS), Enumeration MODSGLTS(MOD BY Type SINGLE TS)
MODRANGETS, MODSGLTS
GBFD111203
O&M of BSC
Interval Type 4~127
4~127
GBFD111203
O&M of BSC
Interval Type 4~127
4~127
GBFD111203
O&M of BSC
ALLCIC(Set all Timeslots CIC), Enumeration ALLNULL(Set all Type Timeslots Null)
ALLCIC, ALLNULL
GBFD111203
O&M of BSC
Interval Type 4~127
4~127
GBFD111203
O&M of BSC
Enumeration Type CIC(CIC), NULL(NULL) CIC, NULL
GBFD111203
O&M of BSC
Interval Type 0~31
0~31
GBFD111203
O&M of BSC
Interval Type 6144~6399
6144~6399
GBFD111203
O&M of BSC
Interval Type 0~11
0~11
GBFD111203
O&M of BSC
Interval Type 0~27
0~27
GBFD111203
O&M of BSC
Interval Type 0~335
0~335
GBFD111203
O&M of BSC
Interval Type 1~31
1~31
GBFD111203
O&M of BSC
Interval Type 0~127
0~127
GBFD111203
O&M of BSC
Interval Type 30~100
30~100
GBFD111203
O&M of BSC
Interval Type 20~90
20~90
GBFD114101
GPRS
String Type
1~50 characters
GBFD114101
GPRS
Interval Type 0~31
0~31
GBFD118701
RAN Sharing
String Type
0~255 characters
None
None
Interval Type 0~11
0~11
None
None
Interval Type 0~5, 8~27
0~5, 8~27
None
None
GBFD118605
IP QOS
BE(BE), AF11(AF11), AF12(AF12), AF13(AF13), AF21(AF21), AF22(AF22), AF23(AF23), AF31(AF31), AF32(AF32), AF33(AF33), AF41(AF41), Enumeration AF42(AF42), Type AF43(AF43), EF(EF)
GBFD118602
A over IP
Interval Type 0~63
MRFD211503
GSM and UMTS CoTransmission Resources Management on MBSC Interval Type 10~1999
None
None
Enumeration Type IP, HDLC
None
None
Interval Type 0~5
MRFD211503
GSM and UMTS CoTransmission Resources Management on MBSC Interval Type 10~150
BE, AF11, AF12, AF13, AF21, AF22, AF23, AF31, AF32, AF33, AF41, AF42, AF43, EF
0~63
10~1999
IP, HDLC
0~5
10~150
MRFD211503
GSM and UMTS CoTransmission Resources Management on MBSC Interval Type 10~150
10~150
MRFD211503
GSM and UMTS CoTransmission Resources Management on MBSC Interval Type 10~150
10~150
MRFD211503
GSM and UMTS CoTransmission Resources Management on MBSC Interval Type 10~150
10~150
MRFD211503
GSM and UMTS CoTransmission Resources Management on MBSC Interval Type 10~150
10~150
MRFD211503
GSM and UMTS CoTransmission Resources Management on MBSC Interval Type 10~150
10~150
MRFD211503
GSM and UMTS CoTransmission Resources Management on MBSC Interval Type 10~150
10~150
MRFD211503
GSM and UMTS CoTransmission Resources Management on MBSC Interval Type 10~150
10~150
MRFD211503
GSM and UMTS CoTransmission Resources Management on MBSC Interval Type 10~150
10~150
MRFD211503
GSM and UMTS CoTransmission Resources Management on MBSC Interval Type 10~150
10~150
MRFD211503
GSM and UMTS CoTransmission Resources Management on MBSC Interval Type 10~150
10~150
MRFD211503
GSM and UMTS CoTransmission Resources Management on MBSC Interval Type 10~150
10~150
MRFD211503
GSM and UMTS CoTransmission Resources Management on MBSC Interval Type 10~150
10~150
MRFD211503
GSM and UMTS CoTransmission Resources Management on MBSC Interval Type 10~150
10~150
MRFD211503
GSM and UMTS CoTransmission Resources Management on MBSC Interval Type 10~150
10~150
MRFD211503
GSM and UMTS CoTransmission Resources Management on MBSC Interval Type 10~150
10~150
MRFD211503
GSM and UMTS CoTransmission Resources Management on MBSC Interval Type 10~150
10~150
MRFD211503
GSM and UMTS CoTransmission Resources Management on MBSC Interval Type 10~150
10~150
MRFD210301
Configuration Management
Interval Type 0~11
0~11
None
None
Interval Type 0~5, 8~27
0~5, 8~27
None
None
Enumeration Type PEUa, POUc
PEUa, POUc
GBFD118611 GBFD118622
Abis IP over E1/T1 Enumeration A IP over E1/T1 Type IP, Abis_IP
IP, Abis_IP
GBFD118611 GBFD118622
Abis IP over E1/T1 A IP over E1/T1 Interval Type 0~499
0~499
GBFD118611 GBFD118622
Abis IP over E1/T1 A IP over E1/T1 Interval Type 0~335
0~335
TS1(Time_slot_1), TS2(Time_slot_2), TS3(Time_slot_3), TS4(Time_slot_4), TS5(Time_slot_5), TS6(Time_slot_6), TS7(Time_slot_7), TS8(Time_slot_8), TS9(Time_slot_9), TS10(Time_slot_10), TS11(Time_slot_11), TS12(Time_slot_12), TS13(Time_slot_13), TS14(Time_slot_14), TS15(Time_slot_15), TS16(Time_slot_16), TS17(Time_slot_17), TS18(Time_slot_18), TS19(Time_slot_19), TS20(Time_slot_20), TS21(Time_slot_21), TS22(Time_slot_22), TS23(Time_slot_23), TS24(Time_slot_24), TS25(Time_slot_25), TS26(Time_slot_26), TS27(Time_slot_27), TS28(Time_slot_28), TS29(Time_slot_29), TS30(Time_slot_30), TS31(Time_slot_31)
TS1, TS2, TS3, TS4, TS5, TS6, TS7, TS8, TS9, TS10, TS11, TS12, TS13, TS14, TS15, TS16, TS17, TS18, TS19, TS20, TS21, TS22, TS23, TS24, TS25, TS26, TS27, TS28, TS29, TS30, TS31
GBFD118611 GBFD118622
Abis IP over E1/T1 Bit Field A IP over E1/T1 Type
GBFD118611 GBFD118622
Abis IP over E1/T1 Enumeration A IP over E1/T1 Type NO(NO), YES(YES)
NO, YES
GBFD118611 GBFD118622
Abis IP over E1/T1 IP Address A IP over E1/T1 Type
None
0.0.0.0~255.255.255.255
GBFD118611 GBFD118622
Abis IP over E1/T1 IP Address A IP over E1/T1 Type
None
0.0.0.0~255.255.255.255
GBFD118611 GBFD118622
Abis IP over E1/T1 IP Address A IP over E1/T1 Type
None
0.0.0.0~255.255.255.255
GBFD118611 GBFD118622
Abis IP over E1/T1 IP Address A IP over E1/T1 Type
GBFD118611 GBFD118622
No_HC(No_HC), UDP/IP_HC(UDP/IP_H Abis IP over C), E1/T1 Enumeration RTP/UDP/IP_HC(RTP/ No_HC, UDP/IP_HC, A IP over E1/T1 Type UDP/IP_HC) RTP/UDP/IP_HC
GBFD118611 GBFD118622
Abis IP over E1/T1 Enumeration Disable(Disable), A IP over E1/T1 Type Enable(Enable)
Disable, Enable
GBFD118611 GBFD118622
Abis IP over E1/T1 Enumeration Disable(Disable), A IP over E1/T1 Type Enable(Enable)
Disable, Enable
GBFD118611 GBFD118622
Abis IP over E1/T1 Enumeration Disable(Disable), A IP over E1/T1 Type Enable(Enable)
Disable, Enable
None
0.0.0.0~255.255.255.255
GBFD118611 GBFD118622
Abis IP over E1/T1 A IP over E1/T1 Interval Type 1~746
1~746
GBFD118611 GBFD118622
Abis IP over E1/T1 A IP over E1/T1 Interval Type 1~1500
1~1500
GBFD118611 GBFD118622
Abis IP over E1/T1 A IP over E1/T1 Interval Type 1~1500
1~1500
GBFD118611 GBFD118622
Abis IP over NO_V(NO_V), E1/T1 Enumeration PAP_V(PAP_V), A IP over E1/T1 Type CHAP_V(CHAP_V)
NO_V, PAP_V, CHAP_V
GBFD118611 GBFD118622
Abis IP over E1/T1 Enumeration SERVER(SERVER), A IP over E1/T1 Type CLIENT(CLIENT)
SERVER, CLIENT
GBFD118611 GBFD118622
Abis IP over E1/T1 A IP over E1/T1 String Type
None
1~63 characters
GBFD118611 GBFD118622
Abis IP over E1/T1 A IP over E1/T1 String Type
None
1~15 characters
GBFD118611 GBFD118622
Abis IP over E1/T1 A IP over E1/T1 Interval Type 2~5
2~5
GBFD118611 GBFD118622
Abis IP over E1/T1 A IP over E1/T1 Interval Type 1~30
1~30
GBFD118611 GBFD118622
Abis IP over E1/T1 Enumeration A IP over E1/T1 Type OFF(OFF), ON(ON)
OFF, ON
GBFD118611 GBFD118622 GBFD111202
Abis IP over E1/T1 A IP over E1/T1 O&M of BTS Interval Type 0~100
0~100
GBFD118611 GBFD118622
Abis IP over E1/T1 A IP over E1/T1 Interval Type 0~1999
0~1999
GBFD118611 GBFD118622
Abis IP over E1/T1 Enumeration None(None), A IP over E1/T1 Type 16bit(16bit), 32bit(32bit) None, 16bit, 32bit
GBFD118611 GBFD118622
Abis IP over E1/T1 A IP over E1/T1 Interval Type 0~199
None
None
Enumeration Type OFF(OFF), ON(ON)
0~199
OFF, ON
O1E3_R5E4(OCCUR:1 E-3, RECOVERY:5E-4), O5E4_R1E4(OCCUR:5 E-4, RECOVERY:1E-4), O1E4_R5E5(OCCUR:1 E-4, RECOVERY:5E-5), O5E5_R1E5(OCCUR:5 E-5, RECOVERY:1E-5), O1E5_R5E6(OCCUR:1 E-5, RECOVERY:5E-6), O1E3_R5E4, O5E4_R1E4, Enumeration O5E6_R1E6(OCCUR:5 O1E4_R5E5, O5E5_R1E5, Type E-6, RECOVERY:1E-6) O1E5_R5E6, O5E6_R1E6
None
None
GBFD118611 GBFD118622
Abis IP over E1/T1 Enumeration Disable(Disable), A IP over E1/T1 Type Enable(Enable)
Disable, Enable
GBFD118611 GBFD118622
Abis IP over E1/T1 A IP over E1/T1 Interval Type 1~1500
1~1500
MRFD210301
Configuration Management
Interval Type 0~11
0~11
None
None
Interval Type 0~5, 8~27
0~5, 8~27
None
None
Enumeration Type PPP, MPGRP
PPP, MPGRP
None
None
Interval Type 0~167
0~167
GBFD118611 GBFD118622 None
Abis IP over E1/T1 A IP over E1/T1 Interval Type 0~499 0~499 Enumeration NO_LOOP(No loop), None Type SELF_LOOP(Self loop) NO_LOOP, SELF_LOOP
None
None
Interval Type 1~65535
1~65535
GBFD111203
O&M of BSC
Enumeration BYCELL(By Cell), Type BYBSC(By BSC)
BYCELL, BYBSC
MRFD210301
Configuration Management
Enumeration BYNAME(By Name), Type BYID(By Index)
BYNAME, BYID
MRFD210301
Configuration Management
Interval Type 0~2047
0~2047
MRFD210301
Configuration Management
String Type
1~64 characters
MRFD210301
Configuration Management
Interval Type 0~11
0~11
MRFD210301
Configuration Management
Interval Type 0~27
0~27
GBFD114101
GPRS
Interval Type 0~21
0~21
GBFD118601
Abis over IP
Interval Type 0~15
0~15
GBFD118601
Abis over IP
Interval Type 0~15
0~15
GBFD118601
Abis over IP
Interval Type 0~15
0~15
GBFD118601
Abis over IP
Interval Type 0~15
0~15
GBFD118601
Abis over IP
Interval Type 0~15
0~15
GBFD118601
Abis over IP
Interval Type 0~15
0~15
None
GBFD118601
Abis over IP
Interval Type 0~15
0~15
GBFD118601
Abis over IP
Interval Type 0~15
0~15
GBFD118601
Abis over IP
Interval Type 0~15
0~15
GBFD118601
Abis over IP
Interval Type 0~15
0~15
GBFD118601
Abis over IP
Interval Type 0~15
0~15
GBFD119001
Gb Interface Function
Interval Type 0~65534
0~65534
GBFD119001
Gb Interface Function
Interval Type 2~65534
2~65534
MRFD210301
Configuration Management
Enumeration BYNAME(By Name), Type BYID(By Index)
BYNAME, BYID
MRFD210301
Configuration Management
Interval Type 0~2047
0~2047
MRFD210301
Configuration Management
String Type
None
1~64 characters
MRFD210305
Security Management
Interval Type 6~32
6~32 characters
MRFD210305
Security Management
Bit Field Type
LOWERCASE(Lowerca se), UPPERCASE(Uppercas e), DIGIT(Digit), SPECHAR(Special LOWERCASE, UPPERCASE, character) DIGIT, SPECHAR
MRFD210305
Security Management
Interval Type 1~255
1~255
MRFD210305
Security Management
Interval Type 1~65535
1~65535
MRFD210305
Security Management
Interval Type 1~60
1~60
MRFD210305
Security Management
Interval Type 1~999
1~999
MRFD210305
Security Management
Interval Type 1~255
1~255
MRFD210305
Security Management
Interval Type 1~10
1~10
MRFD210301
Configuration Management
Interval Type 0~11
0~11
MRFD210304
Faulty Management
Bit Field Type
BIT0(NO.1_48V_INPUT_ALARM), BIT1(NO.2_48V_INPUT_ALARM), BIT6(NO.1_OUTPUT_C ONTROL_SWITCH_AL ARM), BIT7(NO.2_OUTPUT_C ONTROL_SWITCH_AL ARM), BIT8(NO.3_OUTPUT_C ONTROL_SWITCH_AL ARM), BIT9(NO.4_OUTPUT_C ONTROL_SWITCH_AL ARM), BIT14(NO.1_EXTERAL _BOOLEAN_VALUE_S ENSOR_ALARM), BIT15(NO.2_EXTERAL _BOOLEAN_VALUE_S ENSOR_ALARM), BIT16(NO.3_EXTERAL _BOOLEAN_VALUE_S ENSOR_ALARM), BIT17(NO.4_EXTERAL _BOOLEAN_VALUE_S ENSOR_ALARM), BIT22(NO.5_OUTPUT_ CONTROL_SWITCH_A LARM), BIT23(NO.6_OUTPUT_ CONTROL_SWITCH_A LARM), BIT24(NO.7_OUTPUT_
BIT0, BIT1, BIT6, BIT7, BIT8, BIT9, BIT14, BIT15, BIT16, BIT17, BIT22, BIT23, BIT24, BIT25, BIT29, BIT30, BIT31
BIT0(NO.12_OUTPUT_ CONTROL_SWITCH_A LARM), BIT1(NO.13_OUTPUT_ CONTROL_SWITCH_A LARM), BIT2(NO.14_OUTPUT_ CONTROL_SWITCH_A LARM), BIT3(NO.15_OUTPUT_ CONTROL_SWITCH_A LARM), BIT4(NO.16_OUTPUT_ CONTROL_SWITCH_A LARM), BIT5(NO.17_OUTPUT_ CONTROL_SWITCH_A LARM), BIT6(NO.18_OUTPUT_ CONTROL_SWITCH_A LARM), BIT7(NO.19_OUTPUT_ CONTROL_SWITCH_A LARM), BIT8(NO.20_OUTPUT_ CONTROL_SWITCH_A LARM), BIT9(NO.3_48V_INPUT_ALARM), BIT10(NO.4_48V_INPUT_ALARM), BIT11(NO.5_48V_INPUT_ALARM), BIT0, BIT1, BIT2, BIT3, BIT4, BIT12(NO.6_BIT5, BI16, BIT7, BIT8, BIT9, 48V_INPUT_ALARM) BIT10, BIT11, BIT12
MRFD210304
Faulty Management
Bit Field Type
MRFD210301
Configuration Management
Interval Type 0~11
0~11
MRFD210304
Faulty Management
Interval Type 55~59
55~59
MRFD210304
Faulty Management
Interval Type 40~45
40~45
MRFD210304
Faulty Management
Interval Type 55~59
55~59
MRFD210304
Faulty Management
Interval Type 40~45
40~45
MRFD210304
Faulty Management
Interval Type 55~59
55~59
MRFD210304
Faulty Management
Interval Type 40~45
40~45
MRFD210304
Faulty Management
Interval Type 55~59
55~59
MRFD210304
Faulty Management
Interval Type 40~45
40~45
MRFD210304
Faulty Management
Interval Type 55~59
55~59
MRFD210304
Faulty Management
Interval Type 40~45
40~45
MRFD210304
Faulty Management
Interval Type 55~59
55~59
MRFD210304
Faulty Management
Interval Type 40~45
40~45
MRFD210301
Configuration Management
Interval Type 0~11
0~11
None
None
Interval Type 0~5, 8~27
0~5, 8~27
None
None
Interval Type 0~63
0~63
None
None
Interval Type 0~63
0~63
None
None
Interval Type 0~63
0~63
None
None
Interval Type 0~63
0~63
None
None
Interval Type 0~63
0~63
GBFD111202
O&M of BTS
Enumeration Type OFF(OFF), ON(ON)
OFF, ON
GBFD111202
O&M of BTS
Interval Type 0~63
0~63
MRFD210301
Configuration Management
Enumeration Type OFF(OFF), ON(ON)
OFF, ON
GBFD118702
MOCN Shared Cell
Interval Type 0~255
0~255
GBFD118702
MOCN Shared Cell
Interval Type 0~255
0~255
MRFD210301
Configuration Management
SINGLE(Select single rolllback point), Enumeration ALL(Select all rollback Type point)
SINGLE, ALL
MRFD210301
Configuration Management
String Type
None
1~250 characters
MRFD210301
Configuration Management
String Type
None
0~250 characters
None
None
Interval Type 0~11
GBFD118605
IP QOS
0, 2, 4, 8, 10, 12, 14, 16, 0, 2, 4, 8, 10, 12, 14, 16, 18, 20, Interval Type 18, 20, 22, 24, 26 22, 24, 26
GBFD118605
IP QOS
Interval Type 0~2047
0~2047
GBFD118605
IP QOS
Enumeration Type IP(IP)
IP
GBFD118605
IP QOS
Enumeration Type NO(NO), YES(YES)
NO, YES
GBFD118605
IP QOS
Interval Type 0~2047
0~2047
None
None
Enumeration Type SHARE(SHARE)
SHARE
IP QOS
FULL_DUPLEX(Full Duplex), Enumeration HALF_DUPLEX(Half Type Duplex)
FULL_DUPLEX, HALF_DUPLEX
GBFD118605
0~11
GBFD118605
IP QOS
Interval Type 0~4000000
0~4000000
GBFD118605
IP QOS
Interval Type 0~4000000
0~4000000
GBFD118605
IP QOS
Interval Type 0~4000000
0~4000000
None
None
Interval Type 0~199
0~199
GBFD118605
IP QOS
Interval Type 0~199
0~199
GBFD111804
A Interface Protocol Process
Interval Type 60~600
60~600
GBFD111804
A Interface Protocol Process
Interval Type 180~1260
180~1260
GBFD111203
O&M of BSC
String Type
GBFD111203
O&M of BSC
String Type
GBFD111203
None
1~50 characters
1~50 characters
O&M of BSC
None DISABLED(Prohibit to Enumeration Use), Type ENABLED(Available)
None
None
Interval Type 0~11
0~11
None
None
0, 2, 4, 8, 10, 12, 14, 16, 0, 2, 4, 8, 10, 12, 14, 16, 18, 20, Interval Type 18, 20, 22, 24, 26 22, 24, 26
GBFD118602 GBFD118622
A over IP A IP over E1/T1 Interval Type 0~1199
DISABLED, ENABLED
0~1199
GBFD118602 GBFD118622
SERVER(SERVER A over IP Enumeration MOD), CLIENT(CLIENT A IP over E1/T1 Type MOD) SERVER, CLIENT
GBFD118602
A over IP
Enumeration M3UA(M3UA), Type BBAP(BBAP)
M3UA, BBAP
GBFD118602
A over IP
Interval Type 0~63
0~63
GBFD118602 GBFD118622
A over IP A IP over E1/T1 Interval Type 1024~65535
1024~65535
GBFD118602 GBFD118622
A over IP IP Address A IP over E1/T1 Type
None
0.0.0.0~255.255.255.255
GBFD118602 GBFD118622
A over IP IP Address A IP over E1/T1 Type
None
0.0.0.0~255.255.255.255
GBFD118602 GBFD118622
A over IP IP Address A IP over E1/T1 Type
None
0.0.0.0~255.255.255.255
GBFD118602 GBFD118622
A over IP IP Address A IP over E1/T1 Type
None
0.0.0.0~255.255.255.255
GBFD118602 GBFD118622
A over IP A IP over E1/T1 Interval Type 1024~65535
1024~65535
None
None
Enumeration Type NO(NO), YES(YES)
NO, YES
None
None
Interval Type 0~5, 8~27
0~5, 8~27
None
None
Interval Type 0~988
0~988
GBFD118602
A over IP
Interval Type 50~60000
50~60000
GBFD118602
A over IP
Interval Type 50~60000
50~60000
GBFD118602
A over IP
Interval Type 50~60000
50~60000
GBFD118602
A over IP
Interval Type 0~100
0~100
GBFD118602
A over IP
Interval Type 0~100
0~100
GBFD118602
A over IP
Interval Type 1000~600000
1000~600000
GBFD118602
A over IP
Interval Type 0~254
0~254
GBFD118602
A over IP
Interval Type 0~254
0~254
GBFD118602
A over IP
Enumeration Type NO(NO), YES(YES)
NO, YES
GBFD118602
A over IP
Enumeration Type NO(NO), YES(YES)
NO, YES
GBFD118602
A over IP
Enumeration ALDER32(ALDER32), Type CRC32(CRC32)
ALDER32, CRC32
GBFD118602
A over IP
Interval Type 500~1500
500~1500
None
None
Enumeration DISABLE(DISABLE), Type ENABLE(ENABLE)
DISABLE, ENABLE
None
None
Interval Type 2~4094
2~4094
None
None
Enumeration DISABLE(DISABLE), Type ENABLE(ENABLE)
DISABLE, ENABLE
None
None
Interval Type 2~4094
2~4094
GBFD118602 GBFD118622
UNAVAILABLE(UNAVAI LABLE), A over IP Enumeration AVAILABLE(AVAILABL A IP over E1/T1 Type E) UNAVAILABLE, AVAILABLE
GBFD118602
A over IP
Enumeration Type NO(NO), YES(YES)
NO, YES
GBFD118602
A over IP
Interval Type 1~254
1~254
GBFD118602
A over IP
Enumeration Type NO(NO), YES(YES)
YES, NO
None
None
Interval Type 1000~600000
1000~600000
None
None
Interval Type 0~254
0~254
None
None
Interval Type 0~254
0~254
None
None
Interval Type 1024~65535
1024~65535
GBFD118602
A over IP
Interval Type 1024~65535
1024~65535
GBFD113725
BSC Node Redundancy
Interval Type 1024~65535
1024~65535
MRFD210301
Configuration Management
Interval Type 0~11
0~11
MRFD210301
Configuration Management
Interval Type 6~7
6~7
MRFD210301
Configuration Management
Interval Type 0~11
0~11
MRFD210301
Configuration Management
Enumeration Type CLOSE, OPEN
CLOSE, OPEN
GBFD114701
SemiPermanent Connection
Interval Type 0~255
0~255
GBFD114701
SemiPermanent Connection
Enumeration MTP2(MTP2), Type OTHER(OTHER)
MTP2, OTHER
GBFD114701
SemiPermanent Connection
8K(8Kbit/s), 16K(16Kbit/s), 32K(32Kbit/s), Enumeration 64K(64Kbit/s), Type 2M(2Mbit/s)
GBFD113726
TC Pool
Interval Type 0~15
0~15
GBFD111203
O&M of BSC
Interval Type 0~255
0~255
GBFD114701
SemiPermanent Connection
Interval Type 0~11
0~11
GBFD114701
SemiPermanent Connection
Interval Type 0~27
0~27
Interval Type 0~335
0~335
Interval Type 0~255
0~255
GBFD114701 GBFD114701
SemiPermanent Connection SemiPermanent Connection
8K, 16K, 32K, 64K, 2M
TS0(Timeslot 0), TS1(Timeslot 1), TS2(Timeslot 2), TS3(Timeslot 3), TS4(Timeslot 4), TS5(Timeslot 5), TS6(Timeslot 6), TS7(Timeslot 7), TS8(Timeslot 8), TS9(Timeslot 9), TS10(Timeslot 10), TS11(Timeslot 11), TS12(Timeslot 12), TS13(Timeslot 13), TS14(Timeslot 14), TS15(Timeslot 15), TS16(Timeslot 16), TS17(Timeslot 17), TS18(Timeslot 18), TS19(Timeslot 19), TS20(Timeslot 20), TS21(Timeslot 21), TS22(Timeslot 22), TS23(Timeslot 23), TS24(Timeslot 24), TS25(Timeslot 25), TS26(Timeslot 26), TS27(Timeslot 27), TS28(Timeslot 28), TS29(Timeslot 29), TS30(Timeslot 30), TS31(Timeslot 31)
TS0, TS1, TS2, TS3, TS4, TS5, TS6, TS7, TS8, TS9, TS10, TS11, TS12, TS13, TS14, TS15, TS16, TS17, TS18, TS19, TS20, TS21, TS22, TS23, TS24, TS25, TS26, TS27, TS28, TS29, TS30, TS31
GBFD114701
SemiPermanent Connection
Bit Field Type
GBFD114701
SemiPermanent Connection
Interval Type 0~11
0~11
GBFD114701
SemiPermanent Connection
Interval Type 0~27
0~27
GBFD114701
SemiPermanent Connection
Interval Type 0~335
0~335
GBFD114701
SemiPermanent Connection
Interval Type 0~255
0~255
TS0(Timeslot 0), TS1(Timeslot 1), TS2(Timeslot 2), TS3(Timeslot 3), TS4(Timeslot 4), TS5(Timeslot 5), TS6(Timeslot 6), TS7(Timeslot 7), TS8(Timeslot 8), TS9(Timeslot 9), TS10(Timeslot 10), TS11(Timeslot 11), TS12(Timeslot 12), TS13(Timeslot 13), TS14(Timeslot 14), TS15(Timeslot 15), TS16(Timeslot 16), TS17(Timeslot 17), TS18(Timeslot 18), TS19(Timeslot 19), TS20(Timeslot 20), TS21(Timeslot 21), TS22(Timeslot 22), TS23(Timeslot 23), TS24(Timeslot 24), TS25(Timeslot 25), TS26(Timeslot 26), TS27(Timeslot 27), TS28(Timeslot 28), TS29(Timeslot 29), TS30(Timeslot 30), TS31(Timeslot 31)
TS0, TS1, TS2, TS3, TS4, TS5, TS6, TS7, TS8, TS9, TS10, TS11, TS12, TS13, TS14, TS15, TS16, TS17, TS18, TS19, TS20, TS21, TS22, TS23, TS24, TS25, TS26, TS27, TS28, TS29, TS30, TS31
GBFD114701
SemiPermanent Connection
Bit Field Type
GBFD114701
SemiPermanent Connection
MTP2(MTP2), Enumeration OTHER(OTHER), Type TCSTM1(TCSTM1)
MTP2, OTHER, TCSTM1
GBFD114701
SemiPermanent Connection
Enumeration Type NO, YES
NO, YES
MRFD210301
Configuration Management
String Type
1~20 characters
None
GBFD118603
Gb over IP
IP Address Type
None
0.0.0.0~255.255.255.255
GBFD118603
Gb over IP
IP Address Type
None
0.0.0.0~255.255.255.255
GBFD118603
Gb over IP
IP Address Type
None
0.0.0.0~255.255.255.255
GBFD118603
Gb over IP
IP Address Type
None
0.0.0.0~255.255.255.255
GBFD118701
RAN Sharing
String Type
None
0~255 characters
GBFD119701
SGSN Pool
Interval Type 0~4095
0~4095
GBFD119701
GBFD119701
SGSN Pool
UNISTALL(Uninstall), Enumeration ALLOW(Allow), Type DENY(Deny)
UNISTALL, ALLOW, DENY
SGSN Pool
Interval Type 0~65535
0~65535
GBFD118603
Gb over IP
Interval Type 1~100
1~100
GBFD118603
Gb over IP
IP Address Type
0.0.0.0~255.255.255.255
GBFD118603
Gb over IP
Interval Type 1~100
1~100
GBFD118603
Gb over IP
Interval Type 0~1
0~1
GBFD118703
IMSI-Based Handover
Interval Type 0~65535
0~65535
GBFD118701
RAN Sharing
String Type
None
0~255 characters
GBFD118703
IMSI-Based Handover
String Type
None
1~64 characters
GBFD118703
IMSI-Based Handover
Interval Type 0~1023
0~1023
GBFD118703
IMSI-Based Handover
Interval Type 0~65535
0~65535
MRFD210301
Configuration Management
String Type
3 digits
None
None
MRFD210301
Configuration Management
String Type
MRFD210301
Configuration Management
Interval Type 1~65533, 65535
1~65533, 65535
None
None
Enumeration Type ON(ON), OFF(OFF)
ON, OFF
None
None
Enumeration Type ON(ON), OFF(OFF)
ON, OFF
None
None
Enumeration Type ON(ON), OFF(OFF)
ON, OFF
None
None
Enumeration Type ON(ON), OFF(OFF)
ON, OFF
MRFD210301
Configuration Management
Enumeration BYTLLI(By TLLI), Type BYIMSI(By IMSI)
BYTLLI, BYIMSI
GBFD114101
GPRS
Interval Type 0~4294967295
0~4294967295
GBFD111203
O&M of BSC
String Type
1~15 characters
GBFD119001
Gb Interface Function
MSLOST(RADIO_STS_ MS_LOST), QUALITYBAD(RADIO_ STS_QUALITY_BAD), CELLRESELECT(RADI Enumeration O_STS_CELL_RESELE MSLOST, QUALITYBAD, Type CT) CELLRESELECT
GBFD111203
O&M of BSC
Interval Type 1~60
1~60
GBFD111203
O&M of BSC
Interval Type 123~65534
123~65534
None
None
2~3 digits
GBFD118702
MOCN Shared Cell
Interval Type 0~65535
0~65535
GBFD118702
MOCN Shared Cell
String Type
1~64 characters
GBFD118702
MOCN Shared Cell
Interval Type 0~1023
0~1023
GBFD118702
MOCN Shared Cell
Interval Type 0~65535
0~65535
MRFD210301
Configuration Management
String Type
None
3 digits
MRFD210301
Configuration Management
String Type
None
2~3 digits
MRFD210301
Configuration Management
Interval Type 1~65533, 65535
None
1~65533, 65535
GBFD111203
O&M of BSC
Interval Type 0~11
0~11
GBFD111203
O&M of BSC
Interval Type 0~11
0~11
GBFD111203
O&M of BSC
Interval Type 0~5
0~5
GBFD111203
O&M of BSC
Interval Type 0~5
0~5
GBFD111203
O&M of BSC
Interval Type 0~23
0~23
GBFD111203
O&M of BSC
Enumeration Type OFF(OFF), ON(ON)
OFF, ON
GBFD111203
O&M of BSC
Enumeration Type OFF(OFF), ON(ON)
OFF, ON
GBFD111203
O&M of BSC
Enumeration Type OFF(OFF), ON(ON)
OFF, ON
GBFD111203
O&M of BSC
Enumeration Type OFF(OFF), ON(ON)
OFF, ON
GBFD111203
O&M of BSC
Enumeration Type OFF(OFF), ON(ON)
OFF, ON
GBFD111203
O&M of BSC
Enumeration Type OFF(OFF), ON(ON)
OFF, ON
GBFD111203
O&M of BSC
Interval Type 0~4294967295
0~4294967295
GBFD111203
O&M of BSC
Interval Type 0~4294967295
0~4294967295
GBFD111203
O&M of BSC
Interval Type 0~4294967295
0~4294967295
GBFD111203
O&M of BSC
0~4294967295
MRFD210305
Security Management
Interval Type 0~4294967295 NONE(Verify None), Enumeration PEER(Verify Peer Type Certificate)
NONE, PEER
GBFD111203
O&M of BSC
String Type
GBFD111203
O&M of BSC
Interval Type 1~50
1~50
GBFD111203
O&M of BSC
Any Type
Valid command string, without the ';'at the end of the string.
GBFD111203
O&M of BSC
Interval Type 0~19
0~19
None
None
Interval Type 1~124, 128~189
1~124, 128~189
MRFD210301
Configuration Management
String Type
1~249 characters
MRFD210301
Configuration Management
Enumeration Type NO(NO), YES(YES)
NO, YES
MRFD210301
Configuration Management
Enumeration Type EPS, TCS
EPS, TCS
MRFD210301
Configuration Management
Enumeration Type NO(NO), YES(YES)
NO, YES
MRFD210301
Configuration Management
Enumeration Type GO(GSM Only)
GO
MRFD210301
Configuration Management
Enumeration SCUa(SCUa), Type SCUb(SCUb)
SCUa, SCUb
MRFD210301
Configuration Management
Enumeration Type NO(NO), YES(YES)
NO, YES
MRFD210301
Configuration Management
Interval Type 0~11
0~11
None
None
None
1~50 characters
GBFD111203
O&M of BSC
String Type
GBFD111203
O&M of BSC
GBFD111203
O&M of BSC
Interval Type 1~50 DISABLED(Prohibit to Enumeration Use), Type ENABLED(Available)
GBFD111203
O&M of BSC
Any Type
GBFD111203
O&M of BSC
ONTIME(Fixed Time), DAILY_T(Day Based Scheduling), DAILY_C(Day Based Duration), WEEKLY_T(Week Based Scheduling), WEEKLY_C(Week Based Duration), MONTHLY_T(Month Based Scheduling), Enumeration MONTHLY_C(Month Type Based Duration)
ONTIME, DAILY_T, DAILY_C, WEEKLY_T, WEEKLY_C, MONTHLY_T, MONTHLY_C
GBFD111203 MRFD210305
O&M of BSC Security Management
Compound Type
2000-1-1~2037-12-31
None
None
year, month, date
1~50 characters
1~50
DISABLED, ENABLED
Valid command string, without the ';'at the end of the string.
GBFD111203 MRFD210305
O&M of BSC Security Management
Compound Type
GBFD111203
O&M of BSC
Interval Type 1~100
1~100
O&M of BSC
MON_1(No.1), MON_2(No.2), MON_3(No.3), MON_4(No.4), MON_5(No.5), MON_6(No.6), MON_7(No.7), MON_8(No.8), MON_9(No.9), MON_10(No.10), MON_11(No.11), MON_12(No.12), MON_13(No.13), MON_14(No.14), MON_15(No.15), MON_16(No.16), MON_17(No.17), MON_18(No.18), MON_19(No.19), MON_20(No.20), MON_21(No.21), MON_22(No.22), MON_23(No.23), MON_24(No.24), MON_25(No.25), MON_26(No.26), MON_27(No.27), MON_28(No.28), MON_29(No.29), Enumeration MON_30(No.30), Type MON_31(No.31)
MON_1~MON_31
GBFD111203
year, month, date
2000-1-1~2037-12-31
GBFD111203
O&M of BSC
SUN(Sunday), MON(Monday), TUE(Tuesday), WED(Wednesday), THU(Thursday), Enumeration FRI(Friday), Type SAT(Saturday)
GBFD111203
O&M of BSC
Compound Type
hour, min
00:00~23:59
GBFD111203
O&M of BSC
Compound Type
hour, min
00:00~23:59
GBFD111203
O&M of BSC
Compound Type
hour, min
00:00~23:59
GBFD111203
O&M of BSC
Compound Type
hour, min
00:00~23:59
GBFD111203
O&M of BSC
Compound Type
hour, min
00:00~23:59
GBFD111203
O&M of BSC
Compound Type
hour, min
00:00~23:59
GBFD111203
O&M of BSC
Compound Type
hour, min
00:00~23:59
GBFD111203
O&M of BSC
Interval Type 1~1440
1~1440
GBFD111203
O&M of BSC
Compound Type
00:00~23:59
hour, min
SUN, MON, TUE, WED, THU, FRI, SAT
O&M of BSC
DISABLED(Prohibit to Enumeration Use), Type ENABLED(Available)
DISABLED, ENABLED
GBFD111203
O&M of BSC
Compound Type
year, month, date
2000-1-1~2037-12-31
GBFD111203
O&M of BSC
Compound Type
year, month, date
2000-1-1~2037-12-31
GBFD111203
O&M of BSC
Interval Type 1~100
1~100
GBFD111203
O&M of BSC
Compound Type
hour, min
00:00~23:59
GBFD111203
O&M of BSC
Compound Type
hour, min
00:00~23:59
GBFD111203
O&M of BSC
Compound Type
hour, min
00:00~23:59
GBFD111203
O&M of BSC
Compound Type
hour, min
00:00~23:59
GBFD111203
O&M of BSC
Compound Type
hour, min
00:00~23:59
GBFD111203
O&M of BSC
Compound Type
hour, min
00:00~23:59
GBFD111203
GBFD111203
O&M of BSC
Compound Type
GBFD111203
O&M of BSC
Interval Type 1~1440
1~1440
GBFD111203
O&M of BSC
Compound Type
hour, min
00:00~23:59
MRFD210301
Configuration Management
String Type
None
1~250 characters
MRFD210301
Configuration Management
String Type
None
1~250 characters
MRFD210301
Configuration Management
String Type
None
1~250 characters
MRFD210301
Configuration Management
String Type
None
1~250 characters
MRFD210301
Configuration Management
String Type
None
1~250 characters
MRFD210301
Configuration Management
Interval Type 0~11
0~11
MRFD210301
Configuration Management
Interval Type 0~27
0~27
MRFD210301
Configuration Management
Interval Type 0~47
0~47
GBFD118602
A over IP
Enumeration Type A0, U1
A0, U1
GBFD118602
A over IP
Interval Type 0~255
0~255
hour, min
00:00~23:59
GBFD115602
Acoustic Echo Cancellation(AE Enumeration C) Type OFF(Off), ON(On)
OFF, ON
GBFD115602
Acoustic Echo Cancellation(AE C) Interval Type 0~1000
0~1000
GBFD115602
Acoustic Echo Cancellation(AE C) Interval Type 0~600
0~600
GBFD115602
Acoustic Echo Cancellation(AE C) Interval Type 0~60
0~60
GBFD115603
OFF(Off), UPLINK(On for uplink), Automatic Noise Enumeration DOWNLINK(On for Restraint (ANR) Type dnlink)
OFF, UPLINK, DOWNLINK
GBFD115601
MODE0(Baseline version), Automatic Level Enumeration MODE1(Optimized Control (ALC) Type version)
MODE0, MODE1
GBFD115601
RELATIVELEVEL(Relati ve level), Automatic Level Enumeration ABSOLUTELEVEL(Abs RELATIVELEVEL, Control (ALC) Type olute level) ABSOLUTELEVEL
GBFD115601
RELATIVE_0(Relative mode level 0), RELATIVE_1(Relative mode level 1), RELATIVE_2(Relative mode level 2), RELATIVE_3(Relative mode level 3), RELATIVE_4(Relative mode level 4), RELATIVE_5(Relative mode level 5), ABSOLUTE_0(Absolute mode level 0), ABSOLUTE_1(Absolute mode level 1), ABSOLUTE_2(Absolute mode level 2), ABSOLUTE_3(Absolute mode level 3), ABSOLUTE_4(Absolute mode level 4), Automatic Level Enumeration ABSOLUTE_5(Absolute Control (ALC) Type mode level 5)
RELATIVE_0, RELATIVE_1, RELATIVE2, RELATIVE_3, RELATIVE_4, RELATIVE_5, ABSOLUTE_0, ABSOLUTE_1, ABSOLUTE_2, ABSOLUTE_3, ABSOLUTE_4, ABSOLUTE_5
GBFD115601
Automatic Level Control (ALC) Interval Type -60~0, 32767
-60~0, 32767
GBFD115601
Automatic Level Enumeration Control (ALC) Type OFF(Off), ON(On)
OFF, ON
GBFD115601
FIXEDLEVEL(Fixed level mode), ADAPTIVE(Adaptive mode), Automatic Level Enumeration FIXEDGAIN(Fixed gain FIXEDLEVEL, ADAPTIVE, Control (ALC) Type mode) FIXEDGAIN
GBFD115601
Automatic Level Control (ALC) Interval Type -23~-4
-23~-4
GBFD115601
Automatic Level Control (ALC) Interval Type -23~-4
-23~-4
GBFD115601
Automatic Level Control (ALC) Interval Type -23~-4
-23~-4
GBFD115601
Automatic Level Control (ALC) Interval Type -12~12
GBFD115601 GBFD115703
Automatic Level Control (ALC) Interval Type 3~12 Automatic Noise Compensation Enumeration (ANC) Type OFF(Off), ON(On)
GBFD115603
Automatic Noise Restraint (ANR) Interval Type 10~30
10~30
GBFD115603
Automatic Noise Restraint (ANR) Interval Type 3~30
3~30
GBFD115601
OFF(Off), UPLINK(On for uplink), DOWNLINK(On for Automatic Level Enumeration downlink), BOTH(On for OFF, UPLINK, DOWNLINK, Control (ALC) Type uplink and downlink) BOTH
GBFD115601
Automatic Level Control (ALC) Interval Type 0~30
GBFD115701
TFO
GBFD115602
Acoustic Echo Cancellation(AE C) Interval Type 1~10
1~10
GBFD115602
Acoustic Echo Cancellation(AE C) Interval Type 10~100
10~100
Enumeration Type OFF(Off), ON(On)
-12~12
3~12
OFF, ON
0~30
OFF, ON
GBFD115704
Enhancement Packet Loss Concealment(E Enumeration PLC) Type OFF(Off), ON(On)
OFF, ON
GBFD111203
O&M of BSC
Enumeration Type OFF(Off), ON(On)
OFF, ON
GBFD110001
GBSS12.0 System Improvement
Enumeration Type OFF(Off), ON(On)
OFF, ON
GBFD110001
GBSS12.0 System Improvement
Enumeration Type OFF(Off), ON(On)
OFF, ON
Enumeration Type OFF(Off), ON(On)
OFF, ON
Enumeration Type OFF(Off), ON(On)
OFF, ON
Enumeration Type OFF(Off), ON(On)
OFF, ON
GBFD110001
GBSS12.0 System Improvement GBSS12.0 System Improvement
GBFD110001
GBSS12.0 System Improvement
GBFD110001
GBFD118602
A over IP
Enumeration Type OFF(Off), ON(On)
OFF, ON
MRFD210301
Configuration Management
Interval Type 0~11
0~11
MRFD210301
Configuration Management
Interval Type 0~27
0~27
MRFD210301
Configuration Management
Interval Type 0~47
0~47
GBFD111203
O&M of BSC
Enumeration Type OFF(Off), ON(On)
OFF, ON
GBFD111203
O&M of BSC
Interval Type 0~169
0~169
GBFD111203
O&M of BSC
Enumeration A(A Interface), Type ABIS(Abis Interface)
A, ABIS
GBFD111203
O&M of BSC
Interval Type 0~600
0~600
MRFD210301
Configuration Management
Interval Type 0~11
0~11
MRFD210301
Configuration Management
Interval Type 0~27
0~27
MRFD210301
Configuration Management
Interval Type 0~47
0~47
MRFD210301
Configuration Management
GTC(Normal voice coding/decoding), UTC(Optimized handover on the Iur-g Enumeration interface), ITC(Packet Type Conversion)
GTC, UTC, ITC
None
None
Interval Type 0~255
0~255
None
None
IP Address Type
None
0.0.0.0~255.255.255.255
None
None
IP Address Type
None
0.0.0.0~255.255.255.255
None
None
Interval Type 0~11
0~11
None
None
Interval Type 0~5, 8~27
0~5, 8~27
GBFD111203
O&M of BSC
Compound Type
year, month, day
2000-1-1~2037-12-31
GBFD111203
O&M of BSC
Compound Type
hour, min, sec
00:00:00~23:59:59
MRFD210301
Configuration Management
Interval Type 0~11
0~11
None
Enumeration Type OFF(OFF), ON(ON)
OFF, ON
None
None
None
Enumeration Type OFF(OFF), ON(ON)
OFF, ON
None
None
Enumeration Type OFF(OFF), ON(ON)
OFF, ON
None
None
Enumeration Type OFF(OFF), ON(ON)
OFF, ON
None
None
Enumeration Type OFF(OFF), ON(ON)
OFF, ON
None
None
Enumeration Type OFF(OFF), ON(ON)
OFF, ON
None
None
Interval Type 0~4294967295
0~4294967295
None
None
Interval Type 0~4294967295
0~4294967295
None
None
Interval Type 0~4294967295
0~4294967295
None
None
Interval Type 0~4294967295
0~4294967295
None
None
Interval Type 0~4294967295
0~4294967295
None
None
Interval Type 0~4294967295
0~4294967295
None
None
Interval Type 0~4294967295
0~4294967295
None
None
Interval Type 0~4294967295
0~4294967295
None
None
Interval Type 0~4294967295
0~4294967295
GBFD118605
IP QOS
Interval Type 1~33
1~33
GBFD118605
IP QOS
String Type
1~31 characters
None
GBFD118605
IP QOS
Interval Type 0~100
0~100
GBFD118605
IP QOS
Interval Type 0~100
0~100
GBFD118605
IP QOS
Interval Type 0~100
0~100
GBFD118605
IP QOS
Interval Type 0~100
0~100
GBFD118605
IP QOS
Interval Type 0~100
0~100
GBFD118605
IP QOS
Interval Type 0~100
0~100
None
None
Interval Type 10~199
10~199
GBFD118605
IP QOS
Enumeration IP(IP), HDLC(HDLC), Type TDM(TDM)
IP, HDLC, TDM
GBFD118605
IP QOS
PERCENTAGE(Percent age), Enumeration BANDWIDTH(Band Type Width) PERCENTAGE, BANDWIDTH
GBFD118605
IP QOS
Interval Type 0~200000
0~200000
GBFD118605
IP QOS
Interval Type 0~200000
0~200000
GBFD118605
IP QOS
Interval Type 0~200000
0~200000
GBFD118605
IP QOS
Interval Type 0~200000
0~200000
GBFD118605
IP QOS
Interval Type 0~200000
0~200000
GBFD118605
IP QOS
Interval Type 0~200000
0~200000
GBFD118605
IP QOS
Interval Type 0~200000
0~200000
GBFD118605
IP QOS
Interval Type 0~200000
0~200000
GBFD118605
IP QOS
Interval Type 0~200000
0~200000
GBFD118605
IP QOS
Interval Type 0~200000
0~200000
GBFD118605
IP QOS
Interval Type 0~100
0~100
GBFD118605
IP QOS
Interval Type 0~100
0~100
GBFD118605
IP QOS
Interval Type 0~100
0~100
GBFD118605
IP QOS
Interval Type 0~100
0~100
GBFD118605
IP QOS
Interval Type 0~100
0~100
GBFD118605
IP QOS
Interval Type 0~100
0~100
GBFD118605
IP QOS
Interval Type 0~100
0~100
GBFD118605
IP QOS
Interval Type 0~100
0~100
GBFD118605
IP QOS
Interval Type 0~100
0~100
GBFD118605
IP QOS
Interval Type 0~100
0~100
GBFD118605
IP QOS
Interval Type 0~100
0~100
GBFD118605
IP QOS
Interval Type 0~100
0~100
GBFD118605
IP QOS
Interval Type 0~100
0~100
GBFD118605
IP QOS
Interval Type 14~163
14~163
GBFD118605
IP QOS
String Type
1~31 characters
None
GBFD118605
IP QOS
ABIS(Abis Interface), A(A Interface), ATER(ATER Interface), Enumeration IUR_G(IUR_G Type Interface) ABIS, A, ATER, IUR_G
GBFD118605
IP QOS
Enumeration Type IP(IP), HDLC(HDLC)
IP QOS
BE, AF11, AF12, AF13, AF21, AF22, AF23, BE, AF11, AF12, AF13, AF21, Enumeration AF31, AF32, AF33, AF22, AF23, AF31, AF32, AF33, Type AF41, AF42, AF43, EF AF41, AF42, AF43, EF
GBFD118605
IP, HDLC
GBFD118605
IP QOS
BE, AF11, AF12, AF13, AF21, AF22, AF23, BE, AF11, AF12, AF13, AF21, Enumeration AF31, AF32, AF33, AF22, AF23, AF31, AF32, AF33, Type AF41, AF42, AF43, EF AF41, AF42, AF43, EF
GBFD118605
IP QOS
BE, AF11, AF12, AF13, AF21, AF22, AF23, BE, AF11, AF12, AF13, AF21, Enumeration AF31, AF32, AF33, AF22, AF23, AF31, AF32, AF33, Type AF41, AF42, AF43, EF AF41, AF42, AF43, EF
GBFD118605
IP QOS
BE, AF11, AF12, AF13, AF21, AF22, AF23, BE, AF11, AF12, AF13, AF21, Enumeration AF31, AF32, AF33, AF22, AF23, AF31, AF32, AF33, Type AF41, AF42, AF43, EF AF41, AF42, AF43, EF
GBFD118605
IP QOS
Interval Type 0~7
0~7
GBFD118605
IP QOS
Interval Type 0~7
0~7
GBFD118605
IP QOS
Interval Type 0~7
0~7
GBFD118605
IP QOS
Interval Type 0~7
0~7
MRFD210301
Configuration Management
Interval Type 0~4095
0~4095
O&M of BTS
TRX(TRX), TRU(TRU/DTRU), QTRU(QTRU), DRRU(DRRU), DRFU(DRFU), MRRU(MRRU), MRFU(MRFU), GRFU(GRFU), GRRU(GRRU), TRX, TRU, QTRU, DRRU, Enumeration BTS3900B(BTS3900B), DRFU, MRRU, MRFU, GRFU, Type BTS3900E(BTS3900E) GRRU, BTS3900B, BTS3900E
GBFD111202
GBFD111202
O&M of BTS
Interval Type 0~7
GBFD111202
O&M of BTS
RXUNAME(By RXU Name), RXUPOS(By Enumeration RXU Position No), Type SRNSN(By Subrack No) RXUNAME, RXUPOS, SRNSN
GBFD111202
O&M of BTS
Interval Type 0~62
0~62
GBFD111202
O&M of BTS
Interval Type 0~254
0~254
GBFD111202
O&M of BTS
Interval Type 0~23
0~23
GBFD111202
O&M of BTS
String Type
1~64 characters
GBFD111202
O&M of BTS
Interval Type 0~249
0~249
GBFD111202
O&M of BTS
Interval Type 1~6
1~6
GBFD111202
O&M of BTS
Enumeration Type A(A), B(B)
A, B
MRFD210301
Configuration Management
Interval Type 0~11
0~11
None
None
Interval Type 0~5, 8~27
0~5, 8~27
None
0~7
None
None
Interval Type 0~335
TS1(Time_slot_1), TS2(Time_slot_2), TS3(Time_slot_3), TS4(Time_slot_4), TS5(Time_slot_5), TS6(Time_slot_6), TS7(Time_slot_7), TS8(Time_slot_8), TS9(Time_slot_9), TS10(Time_slot_10), TS11(Time_slot_11), TS12(Time_slot_12), TS13(Time_slot_13), TS14(Time_slot_14), TS15(Time_slot_15), TS16(Time_slot_16), TS17(Time_slot_17), TS18(Time_slot_18), TS19(Time_slot_19), TS20(Time_slot_20), TS21(Time_slot_21), TS22(Time_slot_22), TS23(Time_slot_23), TS24(Time_slot_24), TS25(Time_slot_25), TS26(Time_slot_26), TS27(Time_slot_27), TS28(Time_slot_28), TS29(Time_slot_29), TS30(Time_slot_30), TS31(Time_slot_31)
None
None
Bit Field Type
None
None
Interval Type 0~335
0~335
TS1, TS2, TS3, TS4, TS5, TS6, TS7, TS8, TS9, TS10, TS11, TS12, TS13, TS14, TS15, TS16, TS17, TS18, TS19, TS20, TS21, TS22, TS23, TS24, TS25, TS26, TS27, TS28, TS29, TS30, TS31
0~335
TS1(Time_slot_1), TS2(Time_slot_2), TS3(Time_slot_3), TS4(Time_slot_4), TS5(Time_slot_5), TS6(Time_slot_6), TS7(Time_slot_7), TS8(Time_slot_8), TS9(Time_slot_9), TS10(Time_slot_10), TS11(Time_slot_11), TS12(Time_slot_12), TS13(Time_slot_13), TS14(Time_slot_14), TS15(Time_slot_15), TS16(Time_slot_16), TS17(Time_slot_17), TS18(Time_slot_18), TS19(Time_slot_19), TS20(Time_slot_20), TS21(Time_slot_21), TS22(Time_slot_22), TS23(Time_slot_23), TS24(Time_slot_24), TS25(Time_slot_25), TS26(Time_slot_26), TS27(Time_slot_27), TS28(Time_slot_28), TS29(Time_slot_29), TS30(Time_slot_30), TS31(Time_slot_31)
None
None
Bit Field Type
None
None
Interval Type 0~65535
TS1, TS2, TS3, TS4, TS5, TS6, TS7, TS8, TS9, TS10, TS11, TS12, TS13, TS14, TS15, TS16, TS17, TS18, TS19, TS20, TS21, TS22, TS23, TS24, TS25, TS26, TS27, TS28, TS29, TS30, TS31
0~65535
GBFD116101 MRFD210301
GMT-1200(GMT-12:00), GMT-1100(GMT-11:00), GMT-1000(GMT-10:00), GMT-0930(GMT-09:30), GMT-0900(GMT-09:00), GMT-0800(GMT-08:00), GMT-0700(GMT-07:00), GMT-0600(GMT-06:00), GMT-0500(GMT-05:00), GMT-0430(GMT-04:30), GMT-0400(GMT-04:00), GMT-0330(GMT-03:30), GMT-0300(GMT-03:00), GMT-0200(GMT-02:00), GMT-0100(GMT-01:00), GMT(GMT), GMT+0100(GMT+01:00 ), GMT+0200(GMT+02:00 ), GMT+0300(GMT+03:00 ), GMT+0330(GMT+03:30 ), GMT+0400(GMT+04:00 ), GMT+0430(GMT+04:30 ), GMT+0500(GMT+05:00 ), Support of GMT+0530(GMT+05:30 Daylight Saving ), Time GMT+0545(GMT+05:45 Configuration Enumeration ), Management Type GMT+0600(GMT+06:00
GMT-1200(GMT-12:00), GMT1100(GMT-11:00), GMT1000(GMT-10:00), GMT0930(GMT-09:30), GMT0900(GMT-09:00), GMT0800(GMT-08:00), GMT0700(GMT-07:00), GMT0600(GMT-06:00), GMT0500(GMT-05:00), GMT0430(GMT-04:30), GMT0400(GMT-04:00), GMT0330(GMT-03:30), GMT0300(GMT-03:00), GMT0200(GMT-02:00), GMT0100(GMT-01:00), GMT(GMT), GMT+0100(GMT+01:00), GMT+0200(GMT+02:00), GMT+0300(GMT+03:00), GMT+0330(GMT+03:30), GMT+0400(GMT+04:00), GMT+0430(GMT+04:30), GMT+0500(GMT+05:00), GMT+0530(GMT+05:30), GMT+0545(GMT+05:45), GMT+0600(GMT+06:00), GMT+0630(GMT+06:30), GMT+0700(GMT+07:00), GMT+0800(GMT+08:00), GMT+0845(GMT+08:45), GMT+0900(GMT+09:00), GMT+0930(GMT+09:30), GMT+1000(GMT+10:00), GMT+1030(GMT+10:30), GMT+1100(GMT+11:00), GMT+1130(GMT+11:30),
GBFD116101 MRFD210301
Support of Daylight Saving Time Configuration Enumeration Management Type NO(NO), YES(YES)
YES, NO
GBFD116101 MRFD210301
Support of Daylight Saving DATE(Input with date), Time WEEK(Input with week), Configuration Enumeration DATEWEEK(Input with Management Type date and week) DATE, WEEK, DATEWEEK
GBFD116101 MRFD210301
JAN(January), FEB(February), MAR(March), APR(April), MAY(May), JUN(June), JUL(July), Support of AUG(August), Daylight Saving SEP(September), Time OCT(October), Configuration Enumeration NOV(November), Management Type DEC(December)
JAN, FEB, MAR, APR, MAY, JUN, JUL, AUG, SEP, OCT, NOV, DEC
GBFD116101 MRFD210301
Support of Daylight Saving Time Configuration Management Interval Type 1~31
1~31
GBFD116101 MRFD210301
Support of FIRST(First), Daylight Saving SECOND(Second), Time THIRD(Third), Configuration Enumeration FOURTH(Fourth), Management Type LAST(Last)
FIRST, SECOND, THIRD, FOURTH, LAST
GBFD116101 MRFD210301
SUN(Sunday), MON(Monday), Support of TUE(Tuesday), Daylight Saving WED(Wednesday), Time THU(Thursday), Configuration Enumeration FRI(Friday), Management Type SAT(Saturday)
SUN, MON, TUE, WED, THU, FRI, SAT
GBFD116101 MRFD210301
Support of Daylight Saving Time Configuration Compound Management Type
00:00:00~23:59:59
GBFD116101 MRFD210301
Support of Daylight Saving DATE(Input with date), Time WEEK(Input with week), Configuration Enumeration DATEWEEK(Input with Management Type date and week) DATE, WEEK, DATEWEEK
GBFD116101 MRFD210301
JAN(January), FEB(February), MAR(March), APR(April), MAY(May), JUN(June), JUL(July), Support of AUG(August), Daylight Saving SEP(September), Time OCT(October), Configuration Enumeration NOV(November), Management Type DEC(December)
hour, min, sec
JAN, FEB, MAR, APR, MAY, JUN, JUL, AUG, SEP, OCT, NOV, DEC
GBFD116101 MRFD210301
Support of Daylight Saving Time Configuration Management Interval Type 1~31
1~31
GBFD116101 MRFD210301
Support of FIRST(First), Daylight Saving SECOND(Second), Time THIRD(Third), Configuration Enumeration FOURTH(Fourth), Management Type LAST(Last)
FIRST, SECOND, THIRD, FOURTH, LAST
GBFD116101 MRFD210301
SUN(Sunday), MON(Monday), Support of TUE(Tuesday), Daylight Saving WED(Wednesday), Time THU(Thursday), Configuration Enumeration FRI(Friday), Management Type SAT(Saturday)
SUN, MON, TUE, WED, THU, FRI, SAT
GBFD116101 MRFD210301
Support of Daylight Saving Time Configuration Compound Management Type
00:00:00~23:59:59
hour, min, sec
GBFD116101 MRFD210301
Support of Daylight Saving Time Configuration Management Interval Type -120~-1, 1~120
-120~-1, 1~120
MRFD210301
Configuration Management
Enumeration BYTLLI(By TLLI), Type BYIMSI(By IMSI)
BYTLLI, BYIMSI
GBFD114101
GPRS
Interval Type 0~4294967295
0~4294967295
GBFD111203
O&M of BSC
String Type
1~15 characters
GBFD118702
MOCN Shared Cell
Interval Type 0~31
0~31
GBFD118702
MOCN Shared Cell
String Type
0~255 characters
GBFD118702
MOCN Shared Cell
Interval Type 0~100
0~100
GBFD118702
MOCN Shared Cell
String Type
0~255 characters
GBFD118702
MOCN Shared Cell
Interval Type 0~100
0~100
GBFD118702
MOCN Shared Cell
String Type
0~255 characters
GBFD118702
MOCN Shared Cell
Interval Type 0~100
0~100
MRFD210301
Configuration Management
Interval Type 0~11
0~11
None
None
Interval Type 0~5, 8~27
0~5, 8~27
None
None
None
None
GBFD118611 GBFD118622
Abis IP over E1/T1 IP Address A IP over E1/T1 Type
GBFD118611 GBFD118622
Abis IP over E1/T1 A IP over E1/T1 Interval Type 2~4094
2~4094
MRFD210301
Configuration Management
Interval Type 0~11
0~11
MRFD210301
Configuration Management
Interval Type 0~27
0~27
MRFD210301
Configuration Management
Interval Type 0~3
0~3
MRFD210301
Configuration Management
Enumeration CLOSE(Close), Type OPEN(Open)
CLOSE, OPEN
MRFD210301
Configuration Management
Interval Type 0~11
0~11
MRFD210301
Configuration Management
Interval Type 0~27
0~27
MRFD210301
Configuration Management
Interval Type 0~7
0~7
MRFD210301
Configuration Management
Interval Type 0~8191
0~8191
MRFD210301
Configuration Management
IP Address Type
None
0.0.0.0~255.255.255.255
MRFD210301
Configuration Management
IP Address Type
None
0.0.0.0~255.255.255.255
None
0.0.0.0~255.255.255.255
Unit
Default Value
Recommended Value
Impact
Parameter Relationship
Access
None
None
None
None
None
Read & Write
None
None
None
BSC6900
None
Read & Write
None
None
None
BSC
None
Read & Write
None
None
None
BSC
None
Read & Write
None
None
None
BSC
None
Read & Write
None
None
None
Adjacent node
None
Read & Write
None
None
None
BSC6900
None
Read & Write
Adjacent node
The TRMMAP index is configured by setting the value of "TMI" in "ADD TRMMAP".
Read & Write
Adjacent node
The factor table index is configured by setting the value of "FTI" in "ADD TRMFACTOR".
Read & Write
None
None
None
None
None
None
None
None
None
Adjacent node
None
Read & Write
None
None
None
None
None
Read & Write
None
None
None
Adjacent node
None
Read & Write
None
None
None
Adjacent node
None
Read & Write
None
None
None
Adjacent node
None
Read & Write
None
None
None
BSC6900
None
Read & Write
None
None
None
E1/T1 link None
Read & Write
None
None
None
E1/T1 link None
Read & Write
None
None
None
E1/T1 link None
Read & Write
None
None
None
E1/T1 link None
Read & Write
None
None
ALLCIC
E1/T1 link None
Read & Write
None
None
None
When the value of "OPMODE" is MODSGLCIC, the value of TSN needs to be Read & E1/T1 link set. Write
None
None
None
E1/T1 link None
Read & Write
None
When the value of "OPOMODE" is MODSGLCIC, the value of E1/T1 link CICNO needs to be set.
Read & Write
None
None
None
0
0 E1/T1 link None
Read & Write
E1/T1 link None
Read & Write
None
None
None
None
None
None
None
None
None
Read & E1/T1 link None Write When SUBBSC is selected for "BSC flag", this parameter Read & E1/T1 link should be set. Write
None
None
None
BSC6900
None
Read & Write
None
None
None
BSC6900
None
Read & Write
None
OFF
None
BSC6900
None
Read & Write
None
None
None
BSC6900
None
Read & Write
None
None
None
BSC6900
None
Read & Write
None
NO
None
BSC6900
None
Read & Write
None
None
None
BSC6900
None
Read & Write
None
None
None
BSC6900
None
Read & Write
d
3 None
BSC6900
None
Read & Write
bit
4 None
BSC6900
None
Read & Write
None
None
None
BSC6900
None
Read & Write
None
None
None
BSC6900
None
Read & Write
None
None
None
BSC6900
None
Read & Write
None
None
None
BSC6900
None
Read & Write
None
None
None
BSC6900
None
Read & Write
None
BSC6900
None
Read & Write
None
40 None
BSC6900
None
Read & Write
None
10 None
BSC6900
None
Read & Write
None
5 None
BSC6900
None
Read & Write
None
None
None
4 None
BSC6900
None
Read & Write
None
20 None
BSC6900
None
Read & Write
None
3 None
BSC6900
None
Read & Write
10 None
BSC6900
None
Read & Write
second
5 None
BSC6900
None
Read & Write
second
10 None
BSC6900
None
Read & Write
second
5 None
BSC6900
None
Read & Write
min
5 None
BSC6900
None
Read & Write
min
second
5 None
BSC6900
None
Read & Write
second
5 None
BSC6900
None
Read & Write
None
40
40 BSC6900
None
Read & Write
min
10
10 BSC6900
None
Read & Write
3 None
BSC6900
None
Read & Write
15 None
BSC6900
None
Read & Write
5 None
BSC6900
None
Read & Write
d
min
d
None
NO
None
BSC6900
None
Read & Write
None
None
None
BSC6900
None
Read & Write
None
None
None
BSC
None
Read & Write
2 MSC
None
Read & Write
MSC
None
Read & Write
None
None
2
NO
NO
None
NO
NO
MSC
None
Read & Write
None
OFF
OFF
MSC
None
Read & Write
None
NO
NO
MSC
None
Read & Write
None
CLOSE
CLOSE
MSC
None
Read & Write
None
YES
YES
MSC
None
Read & Write
None
MSC_STRATEG Y MSC_STRATEGY
BSC
In the upgrade from the BSC6000 to the BSC6900, the setting of this parameter depends on the setting of "Speech Version Changing Optimizing in Handover" in the BSC6000. If "Speech Version Changing Optimizing in Handover" is set to ON(On), this parameter is set to MSC Strategy after upgrade; if "Speech Version Changing Optimizing in Handover" is set to OFF(Off), this parameter is set to Speech Version of Originating Cell Preferred after upgrade. After the upgrade from versions earlier than BSC6900V900R11SP720 to BSC6900V900R11SP720 or later, this parameter is set to Speech Version of Originating Read & Cell Preferred. Write
None
None
None
None
None
Read & Write
s
0 None
BSC6900
None
Read & Write
None
0 None
None
None
Read & Write
None
0 None
None
None
Read & Write
%
0 None
BSC6900
None
Read & Write
%
None
None
0 None
ENABLE
ENABLE
None
None
Read & Write
BSC6900
None
BSC6900
If you set "Switch of stat blinking alarm" to "ENABLE", you need to set "Alarm switch Read & of blinking filter" to "ENABLE". Write
BSC6900
If you set "Switch of stat blinking alarm" to "ENABLE", you need to set "Alarm switch Read & of blinking filter" to "ENABLE". Write
s
None
d
900 None
BSC6900
None
Read & Write
150000 None
BSC6900
None
Read & Write
90 None
BSC6900
None
Read & Write
None
None
None
BSC6900
None
Read & Write
None
None
ON
BSC6900
None
Read & Write
None
None
None
None
None
Read & Write
None
None
None
None
None
Read & Write
None
CLOSE
None
None
None
Read & Write
None
None
None
None
None
Read & Write
None
None
None
None
None
Read & Write
None
HIGH
None
None
None
Read & Write
90 None
None
None
Read & Write
None
None
10 None
None
None
Read & Write
None
None
None
BSC6900
None
Read & Write
None
unshielded
None
BSC6900
None
Read & Write
None
Read & Write
None
ON
d
None
90
BSC6900
90 BSC6900
This parameter is valid when SW is ON in SET ASWPARA. This parameter is valid when SW is OFF in SET ASWPARA.
Read & Write Read & Write
None
ON
ON
BSC6900
None
None
None
MTP3 link None
Read & Write
None
None
None
Transport channel
None
Read & Write
None
None
None
Transport channel
None
Read & Write
None
None
None
Transport channel
None
Read & Write
None
None
None
Control plane link
None
Read & Write
None
None
None
Control plane link
None
Read & Write
None
None
None
Control plane link
None
Read & Write
None
None
None
ATERCON SL None
Read & Write
None
None
None
MTP3 link None
Read & Write
None
None
None
E1/T1 link None
Read & Write
None
ATERCON SL None
Read & Write
None
None
ATERCON SL None
Read & Write
90
ATERCON 90 SL None
Read & Write
None
80
ATERCON 80 SL None
Read & Write
None
16 16(TRRS), 48(SATEL)
ATERCON SL None
Read & Write
None
E1/T1 link None
Read & Write
None
TRRS
None
None
None
TRRS
None
None
None
When configure TC data, for example, select TC for "BM/TC config Flag", or MTP2 for "Application Type", the Read & E1/T1 link parameter should be set. Write
None
None
None
MTP3 link None
Read & Write
None
None
None
BSC6900
None
Read & Write
None
None
None
E1/T1 link None
Read & Write
None
None
None
E1/T1 link None
Read & Write
None
None
None
E1/T1 link None
Read & Write
None
None
None
E1/T1 link None
Read & Write
None
None
None
None
None
Read & Write
None
None
None
ATERCON SL None
Read & Write
None
None
None
ATERCON SL None
Read & Write
None
None
None
When configure TC data, for example, select TC for "BM/TC config Flag", or MTP2 for "Application Type", the Read & E1/T1 link parameter should be set. Write
None
None
None
MTP3 link None
Read & Write
None
None
None
E1/T1 link None
Read & Write
None
None
None
ATERCON SL None
Read & Write
None
TRRS
TRRS
ATERCON SL None
Read & Write
90
90 BSC
None
Read & Write
None
80
ATERCON 80 SL None
Read & Write
None
16 16(TRRS), 48(SATEL)
ATERCON SL None
Read & Write
None
None
None
None
None
None
Read & Write
None
None
None
None
None
Read & Write
None
None
None
E1/T1 port None
Read & Write
None
None
None
BC
Read & Write
None
None
None
None
BC
None
Read & Write
None
Q933
Q933
BC
None
Read & Write
6 BC
None
Read & Write
None
6
None
3
3 BC
None
Read & Write
None
4
4 BC
None
Read & Write
10
10 BC
None
Read & Write
s
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
None
None
Read & Write
None
None
None
None
None
Read & Write
None
None
None
None
None
Read & Write
None
None
None
BSC6900
None
Read & Write
None
None
None
None
None
Read & Write
None
None
None
None
None
Read & Write
None
None
None
None
None
Read & Write
None
None
None
Board
None
Read & Write
None
None
None
None
None
Read & Write
None
None
None
None
None
Read & Write
None
None
None
None
None
Read & Write
None
None
None
None
None
Read & Write
None
None
None
Board
None
Read & Write
None
None
None
None
None
Read & Write
None
None
None
None
None
Read & Write
None
None
None
None
None
Read & Write
None
None
None
None
None
Read & Write
None
YES
None
None
None
Read & Write
None
None
None
BSC6900
None
Read & Write
None
None
None
BSC6900
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BSC6900
None
Read & Write
None
None
None
BSC6900
None
Read & Write
None
None
None
BSC6900
None
Read & Write
None
None
None
BSC6900
None
Read & Write
None
None
None
BSC6900
None
Read & Write
None
None
None
BTS
None
Read & Write
BSC6900
The TRMMAP index is configured by setting the value of "TMI" in "ADD TRMMAP".
Read & Write
None
None
None
None
None
None
BTS
None
Read & Write
Read & Write
Read & Write
None
None
None
BSC6900
The Factor table index is configured by setting the value of "FTI" in "ADD TRMFACTOR".
None
None
None
BTS
None
The Flow control parameter index is configured by setting the value of "FCINDEX" in "ADD Read & PORTFLOWCTRLPARA". Write
None
None
None
BSC6900
None
None
None
BTS
None
None
None
None
None
BSC6900
None
Read & Write
None
None
None
BSC6900
None
Read & Write
None
None
None
BSC6900
None
Read & Write
None
None
None
BSC6900
None
Read & Write
0 None
Read & None Write The TRM load threshold index is configured by setting the value of "TRMLOADTHINDEX" in "ADD TRMLOADTH". The TRM load threshold parameter must meet the following conditions: forward congestion recovery threshold < logical port bandwidth, backward congestion recovery threshold < logical Read & port bandwidth. Write
None
DISABLE
None
BSC6900
None
Read & Write
None
None
None
BSC6900
None
Read & Write
None
None
None
BSC6900
None
Read & Write
None
None
None
BSC6900
None
Read & Write
None
None
None
BSC6900
None
Read & Write
None
None
None
Cell
None
Read & Write
None
2
2 Cell
None
Read & Write
None
0
0 Cell
None
Read & Write
120
120 Cell
None
Read & Write
s
None
None
None
BSC6900
None
Read & Write
None
None
None
BSC
None
Read & Write
s
20
20 MSC
None
Read & Write
s
60
60 MSC
None
Read & Write
30 BSC
This parameter is used with "T18 -s" in flow control over the A interface. The value of this parameter should be smaller than "T18 -s".
Read & Write
60 MSC
This parameter is used with "T17 -s" in flow control over the A interface. The value of this parameter should be greater than "T17 -s".
Read & Write
s
s
30
60
None
0 None
BSC
None
Read & Write
None
86 None
BSC
None
Read & Write
None
"GSM_PHASE_2" is recommended in common scenarios. If AMR services, inter-RAT handover, eMLPP, or A over IP mode needs to be supported, "GSM_PHASE_2Plus" is GSM_PHASE_2 recommended. BSC
Generally, the value of this parameter is equal to "Um Interface Tag" and "Um Interface Tag".
Read & Write
None
It is recommended that the value of this parameter is the same as GSM_PHASE_2 that for "A Interface Tag". BSC
Generally, the value of this parameter is equal to "A Interface Tag" and "Abis Interface Tag".
Read & Write
None
It is recommended that the value of this parameter is the same as GSM_PHASE_2 that for "A Interface Tag". BSC
The value of this parameter is the same as those of "Um Interface Tag" and "A Read & Interface Tag". Write
None
NO
NO
BSC
None
Read & Write
None
DCS1800
DCS1800
BSC
None
Read & Write
None
SEPARATE
SEPARATE
BSC
None
Read & Write
None
None
None
BSC
None
Read & Write
None
None
None
BSC
None
Read & Write
None
None
None
BSC
None
Read & Write
None
None
None
BSC
None
Read & Write
None
None
None
BSC
None
Read & Write
None
None
None
BSC
None
Read & Write
None
None
None
BSC
None
Read & Write
None
None
None
BSC
None
Read & Write
None
None
None
BSC
None
Read & Write
None
None
None
BSC
None
Read & Write
None
None
None
BSC
None
Read & Write
None
None
None
BSC
None
Read & Write
None
None
None
BSC
None
Read & Write
None
None
None
BSC
None
Read & Write
None
None
None
BSC
None
Read & Write
None
None
None
BSC
None
Read & Write
None
None
None
BSC
None
Read & Write
None
None
None
BSC
None
Read & Write
None
None
None
BSC
None
Read & Write
None
None
None
BSC
None
Read & Write
None
None
None
BSC
None
Read & Write
None
None
None
BSC
None
Read & Write
None
None
None
BSC
None
Read & Write
None
None
None
BSC
None
Read & Write
None
None
None
BSC
None
Read & Write
None
YES
YES
BSC
None
Read & Write
None
OFF
OFF
BSC
None
Read & Write
None
min
255
255 BSC
None
Read & Write
10
10 BSC
None
Read & Write
None
ON
ON
BSC
None
Read & Write
None
NO
NO
BSC
None
Read & Write
None
NO
NO
BSC
None
Read & Write
None
None
None
BSC
None
Read & Write
None
None
None
BSC
None
Read & Write
BSC
RMTTCATERTRANSMODE must be set when "ISTCCENTRAL" in the "ADD SUBRACK" command is set Read & to YES. Write
None
STANDALONET C STANDALONETC
None
10
10 BSC
None
Read & Write
None
ON
ON
BSC
None
Read & Write
None
ON
ON
BSC
None
Read & Write
None
None
None
Cell
None
Read & Write
None
TDM
TDM
BSC
None
Read & Write
None
Read & Write
None
NO
NO
BSC
BSC
None
Read & Write
80
80 BSC
None
Read & Write
min
3
3 BSC
None
Read & Write
frame
0
0 BSC
None
Read & Write
s
5
5 BSC
None
Read & Write
12 BSC
None
Read & Write
None
PERIOD_LOCA TION_UPDATE1&NORMAL_LO CATION_UPDA PERIOD_LOCATION_U TEPDATE1&IMSI_ATTAC 1&NORMAL_LOCATION H-1&SMS_UPDATE1&CALL_SETUP- 1&IMSI_ATTACH1&PAGING_RE 1&SMS-1&CALL_SETUPSPONSE1&PAGING_RESPONSE1&IMSI_DETAC 1&IMSI_DETACHH-1&OTHERS-1 1&OTHERS-1 BSC
None
Read & Write
None
OFF
None
OFF
%
min
None
OFF
12
None
None
None
Read & Write
0 None
None
None
Read & Write
None
None
None
None
None
None
Read & Write
NO
BSC
None
Read & Write
BSC
This parameter is set only when "BSCDynSwitchTrxPAAllow" is set to YES.
Read & Write
BSC
When "BSCDynSwitchTrxPAAllow" is set to YES, the value of "EndTimeTACloseTrxPA" must be set.
Read & Write
300 BSC
None
Read & Write
BSC
None
Read & Write
2 BSC
None
Read & Write
BSC
None
Read & Write
BSC
The setting of this parameter must meet the following condition: "EndMonthDSTPA" is the same as or is later than Read & "StartMonthDSTPA". Write
None
None
None
None
300
NO
None
None
None
NO
s
None
0 None
NO
2
None
None
None
None
None
None
None
None
None
None
None
None
None
BSC
The setting of this parameter must meet the following condition: When "EndMonthDSTPA" and "StartMonthDSTPA" are set to the same value, "EndDayDSTPA" must be Read & later than "StartDayDSTPA". Write
BSC
The setting of this parameter must meet the following condition: "EndMonthDSTPA" is the same as or is later than Read & "StartMonthDSTPA". Write
BSC
The setting of this parameter must meet the following condition: When "EndMonthDSTPA" and "StartMonthDSTPA" are set to the same value, "EndDayDSTPA" must be Read & later than "StartDayDSTPA". Write
None
YES
YES
BSC
None
Read & Write
None
YES
YES
BSC
None
Read & Write
ms
1000
1000 BSC
None
Read & Write
None
660
660 BSC
None
Read & Write
None
None
660
YES
YES
660 BSC
None
Read & Write
BSC
None
Read & Write
1000
1000 BSC
None
Read & Write
None
100
100 BSC
None
Read & Write
None
200
200 BSC
None
Read & Write
None
2
2 BSC
None
Read & Write
BSC
None
Read & Write
1000
1000 BSC
None
Read & Write
500
500 BSC
None
Read & Write
%
75
75 BSC
None
Read & Write
%
80
80 BSC
None
Read & Write
%
85
85 BSC
None
Read & Write
ms
None
ms
None
YES
YES
None
NO
NO
BSC
None
Read & Write
None
ABIS
ABIS
BSC
None
Read & Write
None
YES
YES
BSC
None
Read & Write
None
YES
YES
BSC
None
Read & Write
None
YES
YES
BSC
None
Read & Write
BSC
None
Read & Write
None
YES
YES
%
5
5 BSC
None
Read & Write
%
5
5 BSC
None
Read & Write
%
5
5 BSC
None
Read & Write
%
10
10 BSC
None
Read & Write
%
10
10 BSC
None
Read & Write
%
10
10 BSC
None
Read & Write
%
90
90 BSC
None
Read & Write
%
85
85 BSC
None
Read & Write
%
80
80 BSC
None
Read & Write
%
None
75
NO
NO
75 BSC
None
Read & Write
BSC
None
Read & Write
%
90
90 BSC
None
Read & Write
%
95
95 BSC
None
Read & Write
None
Read & Write
None
LEVEL0
LEVEL0
None
None
%
YES
YES
75
None
Read & Write
75 SCTP link None
Read & Write
BSC
s
%
None
%
15
15 None
None
Read & Write
80
80 None
None
Read & Write
1
1 None
None
Read & Write
This parameter is valid only when "Allow Flow Control Upon A Interface Signaling Congestion" is enabled.
Read & Write
15
15 None
None
10
10 None
None
Read & Write
None
3000
3000 None
None
Read & Write
5000
5000 None
None
Read & Write
5
5 Board
None
Read & Write
%
20
20 Board
None
Read & Write
s
1
1 Board
Not More than "Jitter Adjust Maximal Time"
Read & Write
s
10
10 Board
Not Less than "Jitter Adjust Minimal Time"
Read & Write
None
Read & Write
None
packet
ms
40ms
40ms
Board
None
5
5 BSC
None
Read & Write
s
3
3 BSC
None
Read & Write
None
4
4 BSC
None
Read & Write
10
10 BSC
None
Read & Write
s
None
s
s
None
None
INNER
3
3 BSC
None
Read & Write
10
10 BSC
None
Read & Write
30
30 BSC
None
Read & Write
3
3 BSC
None
Read & Write
BSC
None
Read & Write
None
None
OPEN
OPEN
BSC
None
Read & Write
None
NOTSUPPORT
NOTSUPPORT
BSC
None
Read & Write
None
NOTSUPPORT
NOTSUPPORT
BSC
None
Read & Write
None
None
None
s
bit
NOTSUPPORT
NOTSUPPORT
NOTALLOW
NOTALLOW
NOTSUPPORT
NOTSUPPORT
4
256
Read & Write
BSC
None
BSC
This parameter is valid only when "SUPPORTEDA" is set Read & to "SUPPORT". Write
BSC
This parameter is valid only when "NC2SPT" in "SET GCELLGPRS" is set to "YES" and "NCO" in "SET GCELLPSBASE" is set to Read & "NC2". Write
4 BSC
256 BSC
This parameter is valid only when "NC2LoadResel" is set to "SUPPORT".
Read & Write
This parameter is valid only when "AqmSwitch" is set to "OPEN".
Read & Write
bit
384
bit
None
packet
packet
1024
CLOSE
CLOSE
20
10
384 BSC
This parameter is valid only when "AqmSwitch" is set to "OPEN".
Read & Write
1024 BSC
This parameter is valid only when "AqmSwitch" is set to "OPEN".
Read & Write
None
Read & Write
20 BSC
This parameter is valid only when "AqmSwitch" is set to "OPEN".
Read & Write
10 BSC
This parameter is valid only when "AqmSwitch" is set to "OPEN".
Read & Write
BSC
packet
20
packet
None
None
20
ALLTLLI
ALLTLLI
15
20 BSC
This parameter is valid only when "AqmSwitch" is set to "OPEN".
Read & Write
20 BSC
This parameter is valid only when "AqmSwitch" is set to "OPEN".
Read & Write
BSC
None
Read & Write
15 BSC
None
Read & Write
None
32
32 BSC
None
Read & Write
None
20
20 BSC
None
Read & Write
None
32
32 BSC
None
Read & Write
None
1
1 BSC
None
Read & Write
None
2
2 BSC
None
Read & Write
None
5
5 BSC
None
Read & Write
BSC
None
Read & Write
4500
4500 BSC
None
Read & Write
5
5 BSC
None
Read & Write
None
ms
None
Close
Close
None
ms
None
ms
None
5
5 BSC
None
Read & Write
3000
3000 BSC
None
Read & Write
None
Read & Write
NO
NO
BSC
10
10 BSC
None
Read & Write
3
3 BSC
None
Read & Write
ms
0
0 BSC
None
Read & Write
None
2
2 BSC
None
Read & Write
BSC
None
Read & Write
1000 BSC
None
Read & Write
5000 BSC
The value of "Fast Flux Measurement Period" cannot be greater than that of "Fast Flux Measurement TBF Read & Time". Write
None
ms
ms
Open
Open
1000
5000
None
5
5 BSC
None
Read & Write
None
5
5 BSC
None
Read & Write
None
48
48 BSC
None
Read & Write
None
46
46 BSC
None
Read & Write
None
38
38 BSC
None
Read & Write
None
22
22 BSC
None
Read & Write
None
Read & Write
None
20
20 BSC
None
18
18 BSC
None
Read & Write
None
14
14 BSC
None
Read & Write
None
None
None
BSC6900
None
Read & Write
None
None
None
BSC6900
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
BYAUTO
None
BSC6900
None
Read & Write
None
None
None
BSC6900
None
Read & Write
None
None
None
BSC6900
None
Read & Write
s
15
15 BSC
None
Read & Write
s
3
3 BSC
None
Read & Write
s
30
30 BSC
None
Read & Write
s
30
30 BSC
None
Read & Write
s
30
30 BSC
None
Read & Write
30 BSC
The value of this parameter should be smaller than "AbisFCTimer2".
Read & Write
60 BSC
The value of this parameter should be greater than "AbisFCTimer1".
Read & Write
s
s
30
60
s
This parameter is valid when "BMTCFFLAG" in the "SET BSCFCPARA" command is set to ON.
Read & Write
1000
1000 BSC
5
5 BSC
None
Read & Write
30
30 BSC
None
Read & Write
ms
1000
1000 BSC
None
Read & Write
ms
1000
1000 BSC
None
Read & Write
ms
3000
3000 BSC
None
Read & Write
ms
3000
3000 BSC
None
Read & Write
min
s
ms
10000
10000 BSC
None
Read & Write
ms
5000
5000 BSC
None
Read & Write
ms
1000
1000 BSC
None
Read & Write
ms
3000
3000 BSC
None
Read & Write
ms
3000
3000 BSC
None
Read & Write
ms
4000
4000 BSC
None
Read & Write
ms
None
5000
NEITHERSTAR T NEITHERSTART
5000 BSC
None
Read & Write
BSC
None
Read & Write
None
UNCONDITION UNCONDITIONALSTAR ALSTART T BSC
The value of BtsLsStartMode should be set when "BssLsGenMode" is set to BTSPRIORITY, BSCPRIORITY, or Read & BTSONLY. Write
None
UNCONDITION UNCONDITIONALSTAR ALSTART T BSC
None
Read & Write
None
Read & Write
%
90
90 BSC
%
90
90 BSC
None
Read & Write
None
None
None
BSC
None
Read & Write
None
None
None
BSC
None
Read & Write
None
None
None
BSC
None
Read & Write
None
None
None
BSC
None
Read & Write
None
None
None
BSC
None
Read & Write
None
None
None
BSC
None
Read & Write
None
None
None
BSC
None
Read & Write
None
None
None
BSC
None
Read & Write
None
None
None
BSC
None
Read & Write
None
None
None
BSC
None
Read & Write
None
None
None
BSC
None
Read & Write
None
None
None
BSC
None
Read & Write
None
None
None
BSC
None
Read & Write
None
None
None
BSC
None
Read & Write
None
None
None
BSC
None
Read & Write
None
None
None
BSC
None
Read & Write
None
None
None
BSC
None
Read & Write
None
None
None
BSC
None
Read & Write
None
None
None
BSC
None
Read & Write
None
None
None
BSC
None
Read & Write
None
None
None
BSC
None
Read & Write
None
None
None
BSC
None
Read & Write
None
None
None
BSC
None
Read & Write
None
None
None
BSC
None
Read & Write
None
None
None
BSC
None
Read & Write
None
None
None
BSC
None
Read & Write
None
None
None
BSC
None
Read & Write
None
None
None
BSC
None
Read & Write
None
None
None
BSC
None
Read & Write
None
None
None
BSC
None
Read & Write
None
None
None
BSC
None
Read & Write
None
None
None
BSC
None
Read & Write
None
None
None
BSC
None
Read & Write
None
None
None
BSC
None
Read & Write
None
None
None
BSC
None
Read & Write
None
None
None
BSC
None
Read & Write
None
None
None
BSC
None
Read & Write
None
None
None
BSC
None
Read & Write
None
None
None
BSC
None
Read & Write
None
None
None
BSC
None
Read & Write
None
NO
NO
BSC
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
UNSUPPORT
None
BTS
None
Read & Write
None
None
TDM
FIX_16K_ABIS
None
None
TDM
FIX_16K_ABIS
FALSE
NO
FALSE
NO
None
Read & Write
BTS
None
Read & Write
BTS
None
Read & Write
BTS
None
Read & Write
BTS
None
None
None
MODE4_1
MODE4_1
0
IP_OVER_FE/G E IP_OVER_FE/GE
BTS
0 BTS
BTS
This parameter can be set to MODE5_1 or MODE6_1 only when "FLEXABISMODE" is Read & set to FLEX_ABIS. Write
None
Read & Write
This parameter is valid only when "SERVICEMODE" in "MOD BTS" is set to IP.
Read & Write
None
If the version of a GSM base station is BTS3000V100R009 or later, or if the version of a multi-mode 3900 series base station is V100R002 or later, the recommended value of this parameter is SUPPORT. Otherwise, the recommended value of this parameter is NOT_SUPPORT NOT_SUPPORT. BTS
None
Read & Write
None
NO
None
Read & Write
NO
BTS
None
E1
E1
BTS
None
Read & Write
None
NO
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
None
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
None
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
byte
byte
352
1031
352 BTS
This parameter must meet the following requirements: The sum of the value of "Max Subframe Length" and 8 must be smaller than the value of Read & "Maximum Frame Length". Write
1031 BTS
This parameter must meet the following requirements: The sum of the value of "Max subframe length" and 8 must be smaller than the value of Read & this parameter. Write
ms
2
2 BTS
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
OFF
BSC6900
None
Read & Write
None
Read & Write
s
15
15 BTS
None
None
None
None
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
Read & Write
None
None
V
10
10 BTS
6
6 BTS
264
264 BTS
This parameter must be equal to or greater than 0.6x"CHKOFFTIMES" and equal to or less than Read & "CHKOFFTIMES". Write
None
Read & Write
None
10
None
V
min
10 BTS
6
6 BTS
264
264 BTS
15
15 BTS
None
Read & Write
This parameter must be equal to or greater than 0.6x"CHKONTIMES" and equal to or less than Read & "CHKONTIMES". Write
None
Read & Write
None
Read & Write
None
None
None
BSC6900
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
Read & Write
None
0 None
BSC6900
None
None
255 None
BSC6900
None
None
None
None
BTS
None
Read & Write Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
BTS
None
Read & Write
None
Read & Write
None
None
None
BTS
None
None
None
BTS
None
Read & Write
None
YES
YES
BTS
None
Read & Write
BTS
None
Read & Write
None
None
None
s
0
0 BTS
None
Read & Write
s
0
0 BTS
None
Read & Write
None
0
0 BTS
The recommended value of this parameter is greater than twice "Alarm Clear Times Read & Threshold". Write
None
0
0 BTS
None
Read & Write
%
0
0 BTS
The recommended value of this parameter is greater than twice "Alarm Clear Accumulative Time Threshold" and greater than twice "Flash Alarm Occur Read & Threshold". Write
None
0
0 BTS
None
Read & Write
BTS
None
Read & Write
None
ENABLE
ENABLE
s
900
900 BTS
None
Read & Write
s
900
900 BTS
None
Read & Write
None
None
None
None
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
s
None
None
BTS
None
Read & Write
s
None
None
BTS
None
Read & Write
s
None
None
BTS
None
Read & Write
s
None
None
BTS
None
Read & Write
None
None
None
None
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
The value range of this parameter varies with BTS type. Different types of BTSs support a different number of Read & cabinets. Write
None
None
None
BTS
None
None
None
None
BTS
BTS
None The value range of this parameter varies with BTS type.
None
None
None
Read & Write Read & Write Read & Write
None
None
None
BTS
The value range of this parameter varies with BTS type. Different types of BTSs support a different number of Read & cabinets. Write
None
None
None
BTS
None
Read & Write
Read & Write
None
None
None
BTS
None
None
None
BTS
None The value range of this parameter varies with BTS type.
None
None
None
None
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
The setting of this parameter depends on "Board Type".
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
NULL
NULL
BTS
The setting of this parameter depends on "Board Type".
Read & Write
None
None
None
BTS
The setting of this parameter depends on "Board Type".
Read & Write
None
None
None
BTS
The setting of this parameter depends on "Board Type".
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
None
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
Read & Write
None
None
None
BTS
None
NULL
NULL
BTS
The setting of this parameter depends on "Board Type".
None
None
None
BTS
The setting of this parameter depends on "Board Type".
Read & Write
None
None
None
BTS
The setting of this parameter depends on "Board Type".
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
0 BTS
None
Read & Write
None
0
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
0 BTS
None
Read & Write
None
0
None
None
None
None
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
The value range of this parameter varies with BTS type. Different types of BTSs support a different number of Read & cabinets. Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
APM100
APM100
BTS
None
Read & Write
None
YES
YES
BTS
None
Read & Write
None
YES
YES
BTS
None
Read & Write
None
YES
For "Power Type" is "APM30" or "EPS4815", the recommended value is "NO". For other types of Power Type, the recommended value is "YES".
BTS
None
Read & Write
None
YES
YES
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
NO
NO
BTS
None
Read & Write
None
NO_BAT
NO_BAT
BTS
None
Read & Write
%
15
15 BTS
None
Read & Write
Ah
36
36 BTS
None
Read & Write
1
1 BTS
None
Read & Write
BTS
None
Read & Write
BTS
The value of this parameter must be smaller than "DC Undervoltage Alarm Threshold".
Read & Write
None
None
V
NO
NO If "Power System Type" is "SC48200", the recommended value is "475". For other Power System Type of APMU boards, the recommended value is 450 "440".
V
565
V
None
None
535
535 BTS
The value of this parameter must be smaller than "Even charging voltage" and at least two volts higher than "DC undervoltage alarm Read & threshold". Write
DISABLE
DISABLE
BTS
None
Read & Write
ENABLE
For EPS4815, the recommended value is "DISABLE". For other types of Power Type, the recommended value is "ENABLE". BTS
None
Read & Write
The value of this parameter must be smaller than "DC Voltage Lower Threshold".
Read & Write
None
Read & Write
If "Power System Type" is "SC48200", the recommended value is "460". Otherwise, the recommended value is 440 "430".
V
None
565 BTS
The value of this parameter must be greater than "Float charging voltage" and at least one volt lower than "DC Read & Voltage Upper Threshold". Write
NO
BTS
For EPS4815 Power Type, the value of this parameter is set to "NO". BTS
For EPS4815 Power Type, the value of this parameter is always "-1". For other types of Power Type, the recommended -100 value is "-100". BTS
degree Celsius
V
280
V
180
None
Read & Write
280 BTS
The value of this parameter must be greater than "AC Voltage Lower Threshold".
Read & Write
180 BTS
The value of this parameter must be smaller than "AC Voltage Upper Threshold".
Read & Write
580 BTS
The value of this parameter must be greater than "DC Voltage Lower Threshold" and at least one volt greater than Read & "Even charging voltage". Write
V
580
V
If "Power Type" is "SC48200", the recommended value is "470". For Power Type, the recommended value 460 is "450".
None
NO
NO
BTS
The value of this parameter must be greater than "Battery power-off voltage", lower than "DC overvoltage alarm threshold", and at least two volts lower than "Float Read & charging voltage". Write
BTS
None
Read & Write
degree Celsius
800
800 BTS
degree Celsius
-200
-200 BTS
degree Celsius
degree Celsius
mV
50
50 BTS
If "Power Type" is "EPS4815", the recommended value is "0". For other types of Power Type, the recommended value is "-19 19". BTS
80
80 BTS
The value of this parameter must be greater than "Lower Assembled Bat1 TEMP Measure".
Read & Write
None
Read & Write
The value of this parameter must be smaller than "Temperature Alarm Lower Threshold".
Read & Write
None
Read & Write
None
Read & Write
None
Battery1Temp
For EPS4815 Power Type, the value of this parameter is always "Battery1Temp".
None
NO
NO
degree Celsius
degree Celsius
500
0
BTS
None
Read & Write
BTS
None
Read & Write
This parameter must be at least 3C greater than "Lower ENV TEMP Alarm".
Read & Write
This parameter must be at least 3C lower than "Upper ENV TEMP Alarm".
Read & Write
500 BTS
0 BTS
None
NO
NO
None
If "Power Type" is "SC48200", the recommended value is "900". For other types of Power Type, the recommended value is 1000 "1000".
None
If "Power Type" is "SC48200", the recommended value is "100". For other types of Power Type, the recommended value is 0 "0".
None
None
Read & Write
BTS
None
BTS
The value of this parameter must be greater than "Lower Read & Threshold of Humidity Alarm". Write
BTS
The value of this parameter must be smaller than "Upper Read & Threshold of Humidity Alarm". Write
NO
NO
BTS
None
Read & Write
ENABLE
For SingleRAN BTS, the recommended value is "ENABLE". For other types of BTS, the recommended value is "DISABLE". BTS
None
Read & Write
125
125 BTS
None
Read & Write
50
50 BTS
None
Read & Write
kVA
%
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
ENABLE
ENABLE
BTS
None
Read & Write
None
YES
YES
BTS
None
Read & Write
degree Celsius
53
53 BTS
None
Read & Write
degree Celsius
65
65 BTS
None
Read & Write
None
None
None
BTS
"BTSTYPE" identifies the value range of this parameter. The number of cabinets supported by the BTS depends on the type of the BTS. For details, see the parameter description of the Read & command. Write
None
None
None
BTS
None
Read & Write
None
If "BTS Type" is "BTS3900E_GSM", the recommended value is "0".
BTS
None
Read & Write
None
None
None
d
None
None
60
NO
NO
BTS
None
Read & Write
60 BTS
None
Read & Write
BTS
None
Read & Write
h
1200
1200 BTS
None
Read & Write
h
600
600 BTS
None
Read & Write
h
300
300 BTS
None
Read & Write
h
150
150 BTS
None
Read & Write
h
100
100 BTS
None
Read & Write
h
70
70 BTS
None
Read & Write
h
50
50 BTS
None
Read & Write
h
40
40 BTS
None
Read & Write
h
30
30 BTS
None
Read & Write
h
25
25 BTS
None
Read & Write
%
80
80 BTS
None
Read & Write
v/cell
190
190 BTS
None
Read & Write
None
24
24 BTS
None
Read & Write
h
10
10 BTS
None
Read & Write
V
min
None
450 BTS
None
Read & Write
60
60 BTS
None
Read & Write
NOAUTOTEST
d
NOAUTOTEST
120
d
None
450
14
OFF
OFF
BTS
Read & Write
120 BTS
None value of this parameter must be smaller than "Delayed Discharge Test Time".
14 BTS
value of this parameter must be smaller than "Timing Discharge Test TimeThe".
Read & Write
None
Read & Write
BTS
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
None
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
OFF
OFF
BTS
None
Read & Write
None
BTSAUTODLDA CT BTSAUTODLDACT
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
None
None
None
BTS
BTS
This parameter can be configured only when "BTS Software Version 1" is configured.
Read & Write
None
Read & Write
None
COMMON_DLD COMMON_DLD
BTS
None
Read & Write
Read & Write Read & Write
None
None
None
BTS
If "Work Mode for Auto Download Activation" is "TMUAUTOACT", the BTS type must be consistent with the actual BTS type.
None
None
None
BTS
None
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
None
None
Read & Write
None
None
None
None
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
The value range of this parameter varies with "BTS Type". Different types of BTSs support different types of Read & services. Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
The IP address must have been configured.
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
If the software version of the SingleRAN BTS is SRAN3.0 or later, the parameter Is support SRAN mode needs to be set to SUPPORT(Support). If the software version of the SingleRAN BTS is earlier than SRAN3.0, the parameter Is support SRAN mode needs to be set to NOT_SUPPORT(Not Support). BTS
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
1
None
None
1 Cell
None
Read & Write
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
None
None
Read & Write
None
None
None
None
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
OFF
OFF
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
OFF
OFF
Cell
None
Read & Write
None
OFF
OFF
Cell
None
Read & Write
None
1
1 Cell
None
Read & Write
None
OFF
OFF
Cell
None
Read & Write
None
OFF
OFF
Cell
None
Read & Write
None
OFF
OFF
BTS
None
Read & Write
1 Cell
None
Read & Write
None
1
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
OFF
OFF
Cell
None
Read & Write
None
NO
NO
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
AU0-0&AU10&AU2-0&AU3- AU0-0&AU1-0&AU20&AU4-0&AU5- 0&AU3-0&AU4-0&AU50&AU6-0&AU7-0 0&AU6-0&AU7-0
BTS
None
Read & Write
None
AU0-0&AU10&AU2-0&AU3- AU0-0&AU1-0&AU20&AU4-0&AU5- 0&AU3-0&AU4-0&AU50&AU6-0&AU7-0 0&AU6-0&AU7-0
BTS
None
Read & Write
None
AU0-0&AU10&AU2-0&AU3- AU0-0&AU1-0&AU20&AU4-0&AU5- 0&AU3-0&AU4-0&AU50&AU6-0&AU7-0 0&AU6-0&AU7-0
BTS
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
BTS
This parameter can work with "BTSPOWEROFFLOCKBCC H" in "SET BTSLOCKBCCH" to determine whether to shut down the TRX that carries the Read & main BCCH. Write
None
BYTRX
BYTRX
None
BYCOVER
h
BYCOVER
3
h
3
min
10
dB
2
dB
10
min
5
BTS
This parameter is valid only when "BAKPWRSAVMETHOD" is set to BYPWR.
Read & Write
3 BTS
This parameter is valid only when "BAKPWRSAVMETHOD" is set to BYPWR.
Read & Write
3 BTS
This parameter is valid only when the cell parameter "BAKPWRSAVMETHOD" is set to BYPWR and "SDFALG" in "SET GTRXDEV" is set to Read & ENABLE. Write
10 BTS
This parameter is valid only when "BAKPWRSAVMETHOD" is set to BYPWR.
Read & Write
2 BTS
This parameter is valid only when "BAKPWRSAVMETHOD" is set to BYPWR.
Read & Write
10 BTS
This parameter is valid only when "BAKPWRSAVMETHOD" is set to BYPWR.
Read & Write
5 BTS
This parameter is valid only when "BAKPWRSAVMETHOD" is set to BYPWR.
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
225 BTS
None
Read & Write
BTS
None
Read & Write
BTS
This parameter is valid only when "R0BatAllow" is set to YES.
Read & Write
V
225
None
NO
NO
None
INSIDE_BATTE RY INSIDE_BATTERY
None
INSIDE_50AH
INSIDE_50AH
BTS
This parameter is valid only when "R0BatAllow" is set to YES.
Read & Write
Read & Write
None
015C
015C
BTS
This parameter is valid only when "R0BatAllow" is set to YES.
None
NO
NO
BTS
None
Read & Write
None
INSIDE_BATTE RY INSIDE_BATTERY
BTS
This parameter is valid only when "R1BatAllow" is set to YES.
Read & Write
None
INSIDE_50AH
INSIDE_50AH
BTS
This parameter is valid only when "R1BatAllow" is set to YES.
Read & Write
Read & Write
None
015C
015C
BTS
This parameter is valid only when "R1BatAllow" is set to YES.
None
NO
NO
BTS
None
Read & Write
None
INSIDE_BATTE RY INSIDE_BATTERY
BTS
This parameter is valid only when "R2BatAllow" is set to YES.
Read & Write
BTS
This parameter is valid only when "R2BatAllow" is set to YES.
Read & Write
015C
BTS
This parameter is valid only when "R2BatAllow" is set to YES.
Read & Write
None
65535 None
BTS
None
Read & Write
None
65535 None
BTS
None
Read & Write
None
None
INSIDE_50AH
015C
INSIDE_50AH
None
None
None
Cell
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
0
0 BTS
The value range of this parameter varies with BTS type. Different types of BTSs support a different number of Read & cabinets. Write
None
0
0 BTS
None
Read & Write
None
6
None
Read & Write
None
Read & Write
None
Read & Write
None
Read & Write
None
Read & Write
None
Read & Write
None
Read & Write
None
Read & Write
None
Read & Write
ms
100
ms
100
6 BTS Current BFD session Current BFD session Current BFD session Current BFD session Current BFD 3 session Current BFD 100 session Current BFD 100 session
3
Current BFD 3 session
None
None
None
None
None
None
None
None
None
None
None
None
s
None
3
None
None
None
BTS
The value range of this parameter varies with BTS type. Different types of BTSs support a different number of Read & cabinets. Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
None
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
Read & Write
None
None
None
BTS
None
None
None
None
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
The value range of this parameter varies with BTS type. Different types of BTSs support a different number of Read & cabinets. Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
TRX
None
Read & Write
None
None
None
TRX
None
Read & Write
None
None
None
None
None
Read & Write
None
None
None
BTS
None
Read & Write
BTS
None
Read & Write
None
None
None
None
None
None
BTS
The value range of this parameter varies with BTS type. Different types of BTSs support a different number of Read & cabinets. Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
The value range of this parameter varies with BTS type. Different types of BTSs support different type of boards.
None
GSM900
GSM900
BTS
This parameter has relations with DCOM, DCBM board
Read & Write
Read & Write
Read & Write
None
None
None
BTS
The value range of this parameter varies with BTS type. Different types of BTSs support different type of boards.
None
None
None
None
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
None
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
None
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
NULL
NULL
BTS
None
NULL
NULL
BTS
Read & None Write The value of this parameter must be greater than or equal Read & to "Position of Break Point 1". Write
None
None
None
None
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
kbit/s
None
None
Transport channel
None
Read & Write
None
Transport channel
None
Read & Write
kbit/s
None
kbit/s
64
Transport 64 channel
None
Read & Write
kbit/s
64
Transport 64 channel
None
Read & Write
None
100
100 None
None
Read & Write
None
None
None
None
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
None
None
None
None
NOT_SUPPORT NOT_SUPPORT
Read & Write
BTS
None
BTS
The value range of this parameter varies with BTS type. Different types of BTSs support a different number of Read & cabinets. Write
BTS
None
Read & Write
None
None
None
BTS
The value range of this parameter varies with BTS type. Different types of BTSs support different types of cabinets.
None
None
None
BTS
None
Read & Write
Read & Write
None
None
None
None
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
The value range of this parameter varies with BTS type. Different types of BTSs support a different number of Read & cabinets. Write
None
NO
NO
BTS
None
degree Celsius
580
580 BTS
degree Celsius
500
500 BTS
6
6 BTS
None
The value of this parameter must be 8C greater than "Normal Work TEMP Threshold". The value of this parameter must be 8C smaller than "Derating TEMP Threshold".
Read & Write
Read & Write Read & Write
None
Read & Write
None
None
None
None
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
None
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
PSMODE
PSMODE
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
PSMODE
PSMODE
BTS
None
Read & Write
None
FR
FR
BTS
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
Read & Write
None
Read & Write
None
None
None
None
None
None
BTS
BTS
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
None
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
None
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
None
None
Read & Write
h
None
None
None
None
Read & Write
None
None
None
None
None
Read & Write
None
None
None
None
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
NOTSUPPORT
NOTSUPPORT
BTS
None
Read & Write
None
None
None
None
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
None
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
The value range of this parameter varies with BTS type. Different types of BTSs support a different number of Read & cabinets. Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
OFF
OFF
BTS
None
Read & Write
None
MODE1
MODE1
BTS
None
Read & Write
mA
170
170 BTS
None
Read & Write
mA
170
170 BTS
None
Read & Write
mA
30
30 BTS
None
Read & Write
None
OFF
OFF
BTS
None
Read & Write
None
MODE1
MODE1
BTS
None
Read & Write
mA
170
170 BTS
None
Read & Write
mA
170
170 BTS
None
Read & Write
mA
30
30 BTS
None
Read & Write
BTS
None
Read & Write
None
OFF
OFF
None
MODE1
MODE1
BTS
None
Read & Write
mA
170
170 BTS
None
Read & Write
mA
170
170 BTS
None
Read & Write
mA
30
30 BTS
None
Read & Write
None
OFF
OFF
BTS
None
Read & Write
None
MODE1
MODE1
BTS
None
Read & Write
mA
170
170 BTS
None
Read & Write
mA
170
170 BTS
None
Read & Write
mA
30
30 BTS
None
Read & Write
None
OFF
OFF
BTS
None
Read & Write
None
MODE1
MODE1
BTS
None
Read & Write
mA
170
170 BTS
None
Read & Write
mA
170
170 BTS
None
Read & Write
mA
30
30 BTS
None
Read & Write
None
OFF
OFF
BTS
None
Read & Write
None
MODE1
MODE1
BTS
None
Read & Write
mA
170
170 BTS
None
Read & Write
mA
170
170 BTS
None
Read & Write
mA
30
30 BTS
None
Read & Write
None
None
None
BTS
"BTSTYPE" identifies the value range of this parameter. The number of cabinets supported by the BTS depends on the type of the BTS. For details, see the parameter description of the Read & command. Write
None
None
None
BTS
None
Read & Write
None
None
If "BTS Type" is "BTS3900E_GSM", the recommended value is "0".
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
None
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
None
20
None
Read & Write
20 BTS
This parameter must be at least 0.2 smaller than "Serious VSW Alarm TH".
Read & Write
This parameter must be at least 0.2 greater than "Standing Wave Radio Alarm Read & Threshold". Write
BTS
None
30
30 BTS
None
3
3 BTS
None
Read & Write
None
None
None
None
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
The value range of this parameter varies with BTS type. Different types of BTSs support a different number of Read & cabinets. Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
BTS
None
Read & Write
None
None
None
None
None
None
BTS
"BTSTYPE" identifies the value range of this parameter. The number of cabinets supported by the BTS depends on the type of the BTS. For details, see the parameter description of the Read & command. Write
None
None
None
BTS
None
Read & Write
None
None
If "BTS Type" is "BTS3900E_GSM", the recommended value is "0".
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
None
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BSC6900
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
None
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
None
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
NO
NO
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
NONE
NONE
BTS
None
Read & Write
None
YES
YES
BTS
None
Read & Write
20 BTS
This parameter must be at least 0.2 smaller than "Serious VSW Alarm TH".
Read & Write
This parameter must be at least 0.2 greater than "Standing Wave Radio Alarm Read & Threshold". Write
None
20
None
30
30 BTS
None
3
3 BTS
None
Read & Write
None
None
None
None
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
GPS
GPS
BTS
None
Read & Write
None
GPS
GPS
BTS
None
Read & Write
0 BTS
None
Read & Write
BTS
None
Read & Write
m
None
0
NOPOWER
NOPOWER
mA
100
100 BTS
None
Read & Write
mA
150
150 BTS
None
Read & Write
mA
10
10 BTS
None
Read & Write
None
None
None
None
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
IP route
None
Read & Write
None
None
None
None
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
The value range of this parameter varies with BTS type. Different types of BTSs support a different number of Read & cabinets. Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
degree Celsius
68
degree Celsius
None
degree Celsius
None
-20
NO
NO
0
None
Read & Write
68 BTS
The value of this parameter must be at least two degrees greater than "Temperature Alarm Lower Threshold".
Read & Write
-20 BTS
The value of this parameter must be at least two degrees smaller than "Temperature Alarm Upper Threshold".
Read & Write
None
Read & Write
The value of this parameter must be smaller than "High Temperature Critical Point".
Read & Write
BTS
BTS
0 BTS
degree Celsius
40
40 BTS
The value of this parameter must be greater than "Low Temperature Critical Point".
Read & Write
degree Celsius
45
45 BTS
None
Read & Write
degree Celsius
2
2 BTS
None
Read & Write
degree Celsius
9
9 BTS
None
Read & Write
degree Celsius
16
16 BTS
None
Read & Write
degree Celsius
None
16
NO
degree Celsius
NO
-100
degree Celsius
0
16 BTS
None
Read & Write
BTS
None
Read & Write
-100 BTS
The value of this parameter must be smaller than "Heater Read & shutdown Temperature". Write
0 BTS
The value of this parameter must be greater than "Heater Read & Startup Temperature". Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
"BTSTYPE" identifies the value range of this parameter. The number of cabinets supported by the BTS depends on the type of the BTS. For details, see the parameter description of the Read & command. Write
None
None
None
BTS
None
Read & Write
None
None
If "BTS Type" is "BTS3900E_GSM", the recommended value is "0".
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
NO
NO
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
None
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
NO
NO
BTS
None
Read & Write
None
NO
NO
BTS
None
Read & Write
None
NO
NO
BTS
None
Read & Write
None
NO
NO
BTS
None
Read & Write
None
NO
NO
BTS
None
Read & Write
None
NO
NO
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
None
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
YES
YES
BTS
None
Read & Write
None
YES
YES
BTS
None
Read & Write
None
YES
YES
BTS
None
Read & Write
None
YES
YES
BTS
None
Read & Write
None
YES
YES
BTS
None
Read & Write
None
YES
YES
BTS
None
Read & Write
None
YES
YES
BTS
None
Read & Write
None
YES
YES
BTS
None
Read & Write
None
YES
YES
BTS
None
Read & Write
None
Read & Write
None
None
None
BTS
None
None
None
BTS
None
Read & Write
None
NO
NO
BTS
None
Read & Write
None
NO_BAT
NO_BAT
BTS
None
Read & Write
None
15C
15C
BTS
None
Read & Write
50 BTS
None
Read & Write
BTS
None
Read & Write
Ah
None
50
NO
NO
V
440
V
565
V
535
440 BTS
The value of this parameter must be smaller than "DC Undervoltage Alarm Threshold".
565 BTS
The value of this parameter must be greater than "Float charging voltage" and at least three volts lower than "DC Read & overvoltage alarm threshold". Write
535 BTS
The value of this parameter must be smaller than "Even Charging Voltage".
Read & Write
Read & Write
None
NO
NO
BTS
None
Read & Write
None
YES
YES
BTS
None
Read & Write
The value of this parameter must be smaller than "DC undervoltage alarm threshold".
Read & Write
BTS
None
Read & Write
-100 BTS
None
Read & Write
V
None
degree Celsius
430
NO
430 BTS
NO
-100
V
2800
2800 BTS
V
1800
1800 BTS
V
580
V
None
450
NO
NO
The value of this parameter must be greater than "AC undervoltage alarm threshold". The value of this parameter must be smaller than "AC overvoltage alarm threshold".
Read & Write Read & Write
580 BTS
The value of this parameter must be greater than "DC undervoltage alarm threshold" and at least two volts greater Read & than "Even charging voltage". Write
450 BTS
The value of this parameter must be greater than "Battery power-off voltage", lower than "DC overvoltage alarm threshold", and at least three volts lower than "Float Read & charging voltage". Write
BTS
degree Celsius
800
800 BTS
degree Celsius
-200
-200 BTS
None
Read & Write
The value of this parameter must be greater than "Lower Assembled Bat1 TEMP Measure".
Read & Write
None
Read & Write
degree Celsius
500
degree Celsius
mV
500 BTS
The value of this parameter must be smaller than "Low Temp Alarm Assembled Bat2".
Read & Write
-100
-100 BTS
None
Read & Write
800
800 BTS
None
Read & Write
None
Battery1Temp
Battery1Temp
BTS
None
Read & Write
None
NO
NO
BTS
None
Read & Write
This parameter must be at least 4C greater than "Lower ENV TEMP Alarm".
Read & Write
This parameter must be at least 4C lower than "Upper ENV TEMP Alarm".
Read & Write
None
Read & Write
degree Celsius
500
degree Celsius
None
500 BTS
0
NO
0 BTS
NO
BTS
None
800
None
100
800 BTS
The value of this parameter must be greater than "Lower Read & Threshold of Humidity Alarm". Write
100 BTS
The value of this parameter must be smaller than "Upper Read & Threshold of Humidity Alarm". Write
None
NO
NO
BTS
None
Read & Write
None
DISABLE
DISABLE
BTS
None
Read & Write
W
125
125 BTS
None
Read & Write
%
50
50 BTS
None
Read & Write
None
None
None
None
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
Read & Write
None
None
None
BTS
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
HIGH
HIGH
BTS
None
Read & Write
None
HIGH
HIGH
BTS
None
Read & Write
None
HIGH
HIGH
BTS
None
Read & Write
None
HIGH
HIGH
BTS
None
Read & Write
None
None
None
None
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
None
None
Read & Write
None
None
None
None
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
None
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
The value range of this parameter varies with BTS type. Different types of BTSs support a different number of Read & cabinets. Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
BOOL
BOOL
BTS
None
Read & Write
None
LOW
LOW
BTS
None
Read & Write
None
9900
9900 BTS
None
Read & Write
None
100
100 BTS
None
Read & Write
None
NO
NO
BTS
None
Read & Write
None
VOLTAGE
VOLTAGE
BTS
None
Read & Write
None
10000
10000 BTS
None
Read & Write
None
0
0 BTS
None
Read & Write
None
100
100 BTS
None
Read & Write
None
0
0 BTS
None
Read & Write
None
None
None
BSC6900
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
None
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
Ethernet port
None
Read & Write
None
Read & Write
None
None
None
Ethernet port
None
None
None
Ethernet port
None
Read & Write
None
None
None
BSC6900
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
None
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
Ethernet port
None
Read & Write
None
None
None
Ethernet port
None
Read & Write
None
None
None
BSC6900
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
Ethernet port
None
Read & Write
None
2 None
None
None
None
None
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
None
0
Ethernet port
None
Read & Write
Ethernet 0 port
None
Read & Write
None
None
None
None
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BSC6900
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
100M
100M
BTS
None
Read & Write
None
FULL
FULL
BTS
None
Read & Write
If "MTU" is set to a value smaller than 576, the DHCP procedure may fail when the BTS tries to retrieve the IP address, and thus the BTS cannot work. The recommended value of this parameter is 1500. Do not modify it unless in special scenarios, for example, at the bottom layer where the number of MTU is 1500 limited. BTS
None
None
None
CLOSE
CLOSE
CLOSE
CLOSE
None
Read & Write
None
Read & Write
BTS
None
Read & Write
BTS
per mill
10
Ethernet 10 port
None
Read & Write
per mill
5
Ethernet 5 port
None
Read & Write
per mill
10
Ethernet 10 port
None
Read & Write
per mill
5
Ethernet 5 port
None
Read & Write
None
None
None
None
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
Ethernet port
None
Read & Write
None
None
None
Ethernet port
None
Read & Write
None
None
None
Ethernet port
None
Read & Write
None
None
None
BSC6900
None
Read & Write
None
None
None
BSC6900
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
BYAUTO
None
BSC6900
None
Read & Write
None
None
None
BSC6900
None
Read & Write
None
None
None
BSC6900
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
80 BTS
None
Read & Write
None
80
None
10
10 BTS
None
Read & Write
degree Celsius
50
50 BTS
None
Read & Write
degree Celsius
0
0 BTS
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
NO
NO
BTS
None
Read & Write
s
s
240
120
240 BTS
This parameter is valid only when "ENABLE" is set to YES.
Read & Write
120 BTS
This parameter is valid only when "ENABLE" is set to YES.
Read & Write
s
30
s
30
30 BTS
This parameter is valid only when "ENABLE" is set to YES.
Read & Write
30 BTS
This parameter is valid only when "ENABLE" is set to YES.
Read & Write
None
None
None
None
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
NO
NO
BTS
None
Read & Write
None
NO
NO
BTS
None
Read & Write
None
NO
NO
BTS
None
Read & Write
80 BTS
None
Read & Write
%
80
%
None
80
NO
None
None
Read & Write
BTS
None
Read & Write
0 BTS
None
Read & Write
80 BTS
NO
0
None
None
None
None
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
The value range of this parameter varies with BTS type. Different types of BTSs support a different number of Read & cabinets. Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
ENABLED
ENABLED
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
"BTSTYPE" identifies the value range of this parameter. The number of cabinets supported by the BTS depends on the type of the BTS. For details, see the parameter description of the Read & command. Write
None
None
None
BTS
None
Read & Write
None
None
If "BTS Type" is "BTS3900E_GSM", the recommended value is "0".
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
INDOOR
INDOOR
BTS
None
Read & Write
None
None
None
None
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
PPP link
None
Read & Write
None
None
None
BSC6900
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
None
None
Read & Write
None
None
None
BTS
None
Read & Write
None
Read & Write
None
None
None
BTS
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
None
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
None
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
LOGICIP
LOGICIP
BTS
None
Read & Write
None
None
None
None
None
None
BTS
None
Read & Write
BTS
The IP address must have been configured.
Read & Write
None
SINGLEHOST
SINGLEHOST
BTS
When the BTS or cell is activated,the host type of OPC must be single or primary if the host type of BTS is single. Otherwise, the host type of OPC must be consistent with Read & that of the BTS. Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
255.255.255.255 255.255.255.255
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
NULL
NULL
IP path
None
Read & Write
None
None
None
BSC6900
None
Read & Write
None
None
None
IP logical port
None
Read & Write
Read & Write
None
None
None
Transmissi on resource group None
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
None
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
PTP
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
d
1
1 BTS
None
Read & Write
h
2
2 BTS
None
Read & Write
min
0
0 BTS
None
Read & Write
None
None
None
BTS
If the redundancy configuration mode is not supported, only one clock reference source can be configured. Otherwise, two clock reference source can be Read & configured. Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
The value range of this parameter varies with BTS type. Different types of BTSs support a different number of Read & cabinets. Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
None
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BSC6900
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
kbit/s
None
None
BTS
None
Read & Write
bit
None
None
BTS
None
Read & Write
None
None
None
None
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
None
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write Read & Write
None
None
None
BTS
The IP address must have been configured.
None
None
None
None
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
IP route
None
Read & Write
None
None
None
IP route
None
Read & Write
None
Read & Write
None
60
60 BTS
None
None
None
BTS
None
Read & Write
None
None
None
BSC6900
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
IP route
None
Read & Write
None
None
None
IP route
None
Read & Write
None
None
None
None
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
IP route
None
Read & Write
None
None
None
IP route
None
Read & Write
None
None
None
BTS
None
Read & Write
None
0
0 BTS
The value range of this parameter varies with BTS type. Different types of BTSs support a different number of Read & cabinets. Write
None
0
0 BTS
None
Read & Write
None
None
6
None
None
Read & Write
Current BFD session
None
Read & Write
6 BTS
None
None
None
None
BTS
The value range of this parameter varies with BTS type. Different types of BTSs support a different number of Read & cabinets. Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
None
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BSC6900
None
Read & Write
None
Read & Write
None
None
None
BTS
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
IP route
None
Read & Write
None
None
None
IP route
None
Read & Write
None
None
None
None
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
Read & Write
None
None
None
None
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
1
1 BTS
None
Read & Write
None
4
4 BTS
None
Read & Write
BTS
None
Read & Write
None
None
None
None
None
None
None
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
None
None
Read & Write
None
None
None
None
None
Read & Write
None
None
None
None
None
Read & Write
None
None
None
None
None
Read & Write
None
None
None
None
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
dBm
-109
-109 BTS
None
Read & Write
dBm
-109
-109 BTS
None
Read & Write
BTS
None
Read & Write
None
None
None
W
None
None
BTS
None
Read & Write
dB
None
None
BTS
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
NO
NO
BTS
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
Read & Write
None
NO
NO
BTS
This parameter can be set to YES only when "BssLsGenMode" in "SET BSSLS" is set to BTSPRIORITY, BSCPRIORITY, or BTSONLY.
None
None
None
BTS
None
Read & Write
None
None
None
None
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
bit/s
None
None
BTS
If this parameter is set to "16K", "In-BSC Sub Timeslot No." and "Out-BTS Sub Timeslot No." must be 0, 2, 4, or 6. If this parameter is set to "32K", "In-BSC Sub Timeslot No." and "Out-BTS Sub Timeslot No." must be 0 or 4. If this parameter is set to "64K", "In-BSC Sub Timeslot No." and "Out-BTS Sub Read & Timeslot No." must be 0. Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
If the added monitoring timeslot works at 64 kbit/s, the sub-timeslots are numbered from 0. If the added monitoring timeslot works at 32 kbit/s, the sub-timeslots are numbered from 0 or 4. If the added monitoring timeslot works at 16 kbit/s, the subtimeslots are numbered from 0, 2, 4, or 6. If the added monitoring timeslot works at 8 kbit/s, the sub-timeslots are numbered from any value Read & among 0 to 7. Write
None
None
None
None
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BSC6900
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
BTS
The IP address must be in the same network segment as Read & "Peer IP address". Write
BTS
None
Read & Write
None
None
None
None
None
None
None
None
None
BTS
The peer IP address and the local IP address specified by "Local IP address" must be on Read & the same network segment. Write
None
ENABLE
ENABLE
BTS
None
Read & Write
None
LONG
LONG
BTS
None
Read & Write
None
8
8 BTS
This parameter is required when "MLPPP type" is set to "MCPPP" with the "ADD BTSMPGRP".
Read & Write
None
NO_V
NO_V
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
BTS
This parameter is required only when "Validate protocol type" is set to "PAP_V" or "CHAP_V" with the "ADD PPPLNK" command.
Read & Write
BTS
This parameter is required only when "Validate protocol type" is set to "PAP_V" or "CHAP_V" in the "ADD PPPLNK" command.
Read & Write
None
None
None
None
None
None
None
YES
YES
BTS
None
Read & Write
None
YES
YES
BTS
None
Read & Write
per mill
10
Ethernet 10 port
None
Read & Write
per mill
5
Ethernet 5 port
None
Read & Write
per mill
10
Ethernet 10 port
None
Read & Write
per mill
5
Ethernet 5 port
None
Read & Write
None
None
None
None
None
Read & Write
None
None
None
None
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
Read & Write
None
None
None
BTS
None
None
None
PPP link
None
Read & Write
None
None
None
PPP link
None
Read & Write
None
None
None
BSC6900
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
1500
1500 BTS
None
Read & Write
ms
3000
3000 PPP link
None
Read & Write
None
Read & Write
None
Read & Write
None
Read & Write
None
None
None
None
None
None
None
None
None
None
None
BTS
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
DISABLED
DISABLED
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
None
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
The value range of this parameter varies with BTS type. Different types of BTSs support a different number of Read & cabinets. Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
NO
NO
BTS
None
Read & Write
This parameter is valid only when "OMLBKUP" is set to YES.
Read & Write
s
90
90 BTS
s
90
90 BTS
This parameter is valid only when "OMLBKUP" is set to YES.
Read & Write
None
None
None
None
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
OFF
BSC6900
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
None
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
Read & Write
None
None
None
BTS
None
None
None
BSC6900
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BSC6900
None
Read & Write
None
None
None
None
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
AISS
AISS
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
CLOSE
CLOSE
BTS
None
Read & Write
None
NO
NO
BTS
None
Read & Write
15 BTS
None
Read & Write
min
15
None
YES
YES
BTS
None
Read & Write
None
NO
NO
BTS
None
Read & Write
ms
None
2
DISABLE
None
DISABLE
2
2 BTS
None
Read & Write
BTS
None
Read & Write
2 BTS
None
Read & Write
None
TDME1_O
TDME1_O
BTS
None
Read & Write
None
TDME1_1
TDME1_1
BTS
None
Read & Write
bit/s
16K
64K
BTS
None
Read & Write
None
NOPRI
dB
None
NOPRI
20
NO
BTS
20 BTS
NO
BTS
None
Read & Write
When "MCPA Priority Policy on Power Decrease" is set to "CS Prior to PS", the Read & parameter is configurable. Write
None
Read & Write
BTS
None
Read & Write
IDLETSALLOC_ 0 IDLETSALLOC_0
BTS
None
Read & Write
NO
BTS
None
Read & Write
None
CLOSE
None
None
CLOSE
NO
None
0
0 BTS
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
INACTIVE
INACTIVE
BTS
None
Read & Write
None
INACTIVE
INACTIVE
BTS
None
Read & Write
None
INACTIVE
INACTIVE
BTS
None
Read & Write
None
INACTIVE
INACTIVE
BTS
None
Read & Write
None
INACTIVE
INACTIVE
BTS
None
Read & Write
None
INACTIVE
INACTIVE
BTS
None
Read & Write
None
None
None
None
None
Read & Write
None
None
None
None
None
Read & Write
None
None
None
None
None
Read & Write
None
None
None
None
None
Read & Write
None
None
None
None
None
Read & Write
None
None
None
None
None
Read & Write
None
Read & Write
None
None
None
BTS
None
None
None
BTS
None
Read & Write
None
ON
ON
BTS
None
Read & Write
None
None
None
None
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
NO
NO
BTS
None
Read & Write
None
None
None
None
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
POWER_48_24 POWER_48_24
BTS
None
Read & Write
V
283
283 BTS
V
268
268 BTS
The value of this parameter must be greater than "Float charging voltage" and at least one volt lower than "DC overvoltage alarm threshold". The value of this parameter must be smaller than "Even Charging Voltage".
Read & Write Read & Write
Ah
None
100
15C
15C
100 BTS
None
Read & Write
BTS
None
Read & Write
None
100
100 BTS
None
Read & Write
None
100
100 BTS
None
Read & Write
None
Read & Write
None
None
None
None
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
None
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
None
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
The value range of this parameter varies with BTS type. Different types of BTSs support a different number of Read & cabinets. Write
None
NO
NO
BTS
None
Read & Write
None
220VAC
220VAC
BTS
None
Read & Write
None
None
None
None
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
PPP link
None
Read & Write
None
None
None
PPP link
None
Read & Write
None
None
None
BSC6900
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
The IP address must be in the same network segment as Read & "Peer IP address". Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
The peer IP address and the local IP address specified by "Local IP address" must be on Read & the same network segment. Write
None
YES
YES
BTS
None
Read & Write
None
YES
YES
BTS
None
Read & Write
None
Read & Write
None
Read & Write
BTS
None
Read & Write
BTS
This parameter is required only when "Validate protocol type" is set to "PAP_V" or "CHAP_V" with the "ADD PPPLNK" command.
Read & Write
None
None
None
None
1500
NO_V
None
None
1500 BTS
NO_V
None
None
BTS
None
None
None
BTS
This parameter is required only when "Validate protocol type" is set to "PAP_V" or "CHAP_V" in the "ADD PPPLNK" command.
Read & Write
3000
3000 PPP link
None
Read & Write
%
10
Ethernet 10 port
None
Read & Write
%
5
Ethernet 5 port
None
Read & Write
per mill
10
Ethernet 10 port
None
Read & Write
per mill
5
Ethernet 5 port
None
Read & Write
ms
None
None
None
None
None
Read & Write
None
None
None
None
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
NOT_CONFIG
NOT_CONFIG
BTS
None
Read & Write
None
GSM_PRIOR
GSM_PRIOR
BTS
None
Read & Write
None
CLASS0
CLASS0
BTS
None
Read & Write
None
None
None
None
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
None
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
s
5
5 None
s
5
5 None
s
5
5 None
None
Read & Write
Read & None Write The value of this parameter must be smaller than or equal Read & to "Time2[S]". Write
None
None
None
None
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
None
None
Read & Write
None
None
None
None
None
Read & Write
None
None
None
None
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
The value range of this parameter varies with BTS type. Different types of BTSs support a different number of Read & cabinets. Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
DUAL
DUAL
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
None
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
None
None
Read & Write
None
None
None
None
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
None
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
BTS
None
degree
None
0 BTS
None
Read & Write Read & Write
None
None
None
None
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
0 None
BTS
None
Read & Write
None
BTS
None
Read & Write
degree
None
None
None
None
None
BTS
None
Read & Write
None
UNUSED
None
BTS
None
Read & Write
degree
0 None
BTS
None
Read & Write
dB
0 None
BTS
None
Read & Write
None
BTS
None
Read & Write
degree
0 None
BTS
None
Read & Write
dB
0 None
BTS
None
Read & Write
None
BTS
None
Read & Write
degree
0 None
BTS
None
Read & Write
dB
0 None
BTS
None
Read & Write
None
None
UNUSED
UNUSED
None
BTS
None
Read & Write
degree
0 None
BTS
None
Read & Write
dB
0 None
BTS
None
Read & Write
None
BTS
None
Read & Write
0 None
BTS
None
Read & Write
None
None
UNUSED
None
degree
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
None
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
0 None
BTS
The value range of this parameter varies with BTS type. Different types of BTSs support a different number of Read & cabinets. Write
None
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
0 None
BTS
The value range of this parameter varies with BTS type. Different types of BTSs support a different number of Read & cabinets. Write
None
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
degree
None
None
BTS
None
Read & Write Read & Write
5 None
BTS
None
Read & Write
degree
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
None
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
DEVICENO
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
degree
None
None
BTS
None
Read & Write Read & Write
None
None
None
None
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
BTS
If this parameter is set to "YES", the following condition must be met: The setting of this parameter must meet the following condition: "FallBack Start Time" > "Ring II Wait Time Before Switch" + "Ring II Try Rotating Duration Time". If this parameter is set to "NO", the following condition must be met: "FallBack Start Time" > "Ring I Wait Time Before Switch" + "Ring I Try Read & Rotating Duration Time". Write
90 BTS
This parameter must meet the following requirements: "FallBack Start Time" > "Ring I Wait Time Before Switch" + "Ring I Try Rotating Duration Read & Time". Write
90 BTS
This parameter must meet the following requirements: "FallBack Start Time" > "Ring I Wait Time Before Switch" + "Ring I Try Rotating Duration Read & Time". Write
None
s
s
s
NO
NO
90
90
0
0 BTS
The setting of this parameter must meet the following condition: "FallBack Start Time" > "Ring II Wait Time Before Switch" + "Ring II Try Rotating Duration Time".
Read & Write
s
60
60 BTS
s
0
0 BTS
ms
When the transmission quality is good, the recommended settings are as follows: "Ring II Wait Time Before Switch" = 0; "Ring II Try Rotating Duration Time" = 60; "Ring II Rotating Penalty Time" = 0; "T200" = 12; "T203" = 1; and "N200" = 3. When the transmission quality is bad, the recommended settings are as follows: "Ring II Wait Time Before Switch" = 30; "Ring II Try Rotating Duration Time" = 60; "Ring II Rotating Penalty Time" = 0; "T200" = 24; "T203" = 3; 12 and "N200" = 3. BTS
The setting of this parameter must meet the following condition: "FallBack Start Time" > "Ring II Wait Time Before Switch" + "Ring II Try Rotating Duration Time".
Read & Write
None
Read & Write
The value of this parameter Read & must be smaller than "T203". Write
s
When the transmission quality is good, the recommended settings are as follows: "Ring II Wait Time Before Switch" = 0; "Ring II Try Rotating Duration Time" = 60; "Ring II Rotating Penalty Time" = 0; "T200" = 12; "T203" = 1; and "N200" = 3. When the transmission quality is bad, the recommended settings are as follows: "Ring II Wait Time Before Switch" = 30; "Ring II Try Rotating Duration Time" = 60; "Ring II Rotating Penalty Time" = 0; "T200" = 24; "T203" = 3; 1 and "N200" = 3. BTS
The value of this parameter must be greater than "T200".
Read & Write
None
When the transmission quality is good, the recommended settings are as follows: "Ring II Wait Time Before Switch" = 0; "Ring II Try Rotating Duration Time" = 60; "Ring II Rotating Penalty Time" = 0; "T200" = 12; "T203" = 1; and "N200" = 3. When the transmission quality is bad, the recommended settings are as follows: "Ring II Wait Time Before Switch" = 30; "Ring II Try Rotating Duration Time" = 60; "Ring II Rotating Penalty Time" = 0; "T200" = 24; "T203" = 3; 3 and "N200" = 3. BTS
None
Read & Write
None
None
None
None
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
The value range of this parameter varies with BTS type. Different types of BTSs support a different number of Read & cabinets. Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
None
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
BTS
None
Read & Write
None
None
None
None
None
None
BTS
The value range of this parameter varies with BTS type. Different types of BTSs support a different number of Read & cabinets. Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
DOUBLE_ANTE NNA DOUBLE_ANTENNA
BTS
None
Read & Write
None
DOUBLE_ANTE NNA DOUBLE_ANTENNA
BTS
None
Read & Write
None
DOUBLE_ANTE NNA DOUBLE_ANTENNA
BTS
None
Read & Write
None
DOUBLE_ANTE NNA DOUBLE_ANTENNA
BTS
None
Read & Write
None
SGL_ANTENNA SGL_ANTENNA
BTS
None
Read & Write
None
NO
BTS
None
Read & Write
NO
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
20
20 BTS
None
Read & Write
None
30
30 BTS
None
Read & Write
V
35
35 BTS
None
Read & Write
V
45
45 BTS
None
Read & Write
BTS
None
Read & Write
0 BTS
None
Read & Write
None
dB
NO
NO
0
dB
None
4
NO
None
Read & Write
BTS
None
Read & Write
4 BTS
NO
dB
0
0 BTS
None
Read & Write
dB
4
4 BTS
None
Read & Write
None
0
0 BTS
None
Read & Write
None
GSM
GSM
BTS
None
Read & Write
None
NO
NO
BTS
None
Read & Write
None
OFF
OFF
BTS
None
Read & Write
None
UER_SELF_DE FINE1 UER_SELF_DEFINE1
BTS
None
Read & Write
mA
320
320 BTS
None
Read & Write
mA
280
280 BTS
None
Read & Write
mA
40
40 BTS
None
Read & Write
mA
60
60 BTS
None
Read & Write
mA
170
170 BTS
None
Read & Write
mA
140
140 BTS
None
Read & Write
ms
1500
1500 BTS
None
Read & Write
ms
None
2500
OFF
OFF
2500 BTS
None
Read & Write
BTS
None
Read & Write
None
UER_SELF_DE FINE1 UER_SELF_DEFINE1
BTS
None
Read & Write
mA
320
320 BTS
None
Read & Write
mA
280
280 BTS
None
Read & Write
mA
40
40 BTS
None
Read & Write
mA
60
60 BTS
None
Read & Write
mA
170
170 BTS
None
Read & Write
mA
140
140 BTS
None
Read & Write
ms
1500
1500 BTS
None
Read & Write
ms
2500
2500 BTS
None
Read & Write
None
OFF
OFF
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
Read & Write
None
None
None
BTS
None
OFF
OFF
None
UER_SELF_DE FINE UER_SELF_DEFINE
BTS
None
Read & Write
BTS
None
Read & Write
mA
185
185 BTS
None
Read & Write
mA
155
155 BTS
None
Read & Write
mA
40
40 BTS
None
Read & Write
mA
60
60 BTS
None
Read & Write
W
0
0 Board
None
Read & Write
W
0
0 Board
None
Read & Write
W
0
0 Board
None
Read & Write
W
0
0 Board
None
Read & Write
W
0
0 Board
None
Read & Write
W
0
0 Board
None
Read & Write
W
0
0 Board
None
Read & Write
W
0
0 Board
None
Read & Write
BTS
None
Read & Write
2
2 BTS
None
Read & Write
70
70 BTS
None
Read & Write
None
8
8 BTS
None
Read & Write
None
6
6 BTS
None
Read & Write
None
Read & Write
None
None
%
None
NO
NO
50
50 BTS
None
12
12 BTS
None
Read & Write
None
2
2 BTS
None
Read & Write
W
Half of main BCCH TRX 0 TX power BTS
None
Read & Write
W
Main BCCH TRX TX 0 power
BTS
None
Read & Write
BTS
None
Read & Write
W
15 None
W
5 None
BTS
None
Read & Write
0 BTS
None
Read & Write
None
None
None
OFF
OFF
BTS
None
Read & Write
None
None
None
None
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
BTS
The value range of this parameter varies with BTS type. Different types of BTSs support a different number of Read & cabinets. Write
None
None
None
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
NO
NO
BTS
None
Read & Write
kHz
None
150 BTS
None
Read & Write
250 BTS
None
Read & Write
None
BTS
None
Read & Write
None
None
BTS
None
Read & Write
None
None
BTS
None
Read & Write
kHz
None
None
None
None
None
None
None
None
BTS
None
Read & Write
None
None
None
None
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
Read & Write
None
None
None
BTS
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
BTS
The value range of this parameter varies with BTS type. Different types of BTSs support a different number of Read & cabinets. Write
None
None
None
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
None
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
None
None
Read & Write
None
Read & Write
None
None
None
BTS
None
None
None
BTS
None
Read & Write
None
None
None
BSC6900
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
None
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
NO
NO
BTS
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
None
None
Read & Write
None
None
None
None
None
Read & Write
None
None
None
None
None
Read & Write
None
None
None
None
None
Read & Write
None
None
None
None
None
Read & Write
None
None
None
None
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
NO
NO
BTS
None This parameter is valid only when "AntiTheftAllow" is set to YES. This parameter is valid only when "AntiTheftAllow" is set to YES.
s
255
255 BTS
s
255
255 BTS
Read & Write Read & Write Read & Write
None
None
None
None
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
The value range of this parameter varies with BTS type. Different types of BTSs support a different number of Read & cabinets. Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
None
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
0 None
BTS
None
Read & Write
degree
None
None
None
BTS
None
Read & Write
None
UNUSED
None
BTS
None
Read & Write
degree
0 None
BTS
None
Read & Write
dB
0 None
BTS
None
Read & Write
None
BTS
None
Read & Write
degree
0 None
BTS
None
Read & Write
dB
0 None
BTS
None
Read & Write
None
BTS
None
Read & Write
degree
0 None
BTS
None
Read & Write
dB
0 None
BTS
None
Read & Write
None
None
UNUSED
UNUSED
None
BTS
None
Read & Write
degree
0 None
BTS
None
Read & Write
dB
0 None
BTS
None
Read & Write
None
BTS
None
Read & Write
0 None
BTS
None
Read & Write
None
None
UNUSED
None
degree
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
0 None
BTS
None
Read & Write
None
BTS
None
Read & Write
0 None
BTS
None
Read & Write
dB
None
kHz
UNSUPPORT
kHz
0 None
BTS
None
Read & Write
kHz
0 None
BTS
None
Read & Write
kHz
0 None
BTS
None
Read & Write
None
None
None
None
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
None
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
None
None
Read & Write
None
None
None
None
None
Read & Write
None
None
None
None
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
BTS
The value range of this parameter varies with BTS type. Different types of BTSs support a different number of Read & cabinets. Write
None
0 None
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
0 None
BTS
None
Read & Write Read & Write
None
None
Read & Write
dB
None
None
None
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BSC6900
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
None
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
Read & Write
None
Read & Write
None
None
None
None
None
None
BTS
BTS
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
Read & Write
None
None
None
BTS
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
None
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
None
100
BTS
100 BTS
None
Read & Write
This parameter is used to caculate BindWidth of BTSAbisHDLCPath: 1. When Transmission compression ratio is within range of [1, 200], BindWidth=16K*(amount of TRXs) + 64K*(amount of TRXs)*(Transmission compression ratio)/100; 2. When Transmission compression ratio is within range of [200, 250], BindWidth=16K*(amount of TRXs) + 64K*(amount of TRXs)*(200 + (Transmission compression ratio 200)*12)/100.
Read & Write
None
None
None
None
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
None
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
The value range of this parameter varies with BTS type. Different types of BTSs support a different number of Read & cabinets. Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
GPS
GPS
BTS
None
Read & Write
0 BTS
None
Read & Write
m
0
None
NOPOWER
NOPOWER
BTS
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
0 BTS
None
Read & Write
BTS
None
Read & Write
Ethernet port
None
Read & Write
This parameter is valid only when "VLANSWITCH" is set to YES.
Read & Write
None
Read & Write
None
None
0
NO
None
2 None
None
None
NO
0
None
0 BTS
None
None
None
0
0 BTS
None
2
2 BTS
None This parameter is valid only when "VLANSWITCH" is set to YES.
Read & Write Read & Write
None
None
None
None
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
Ethernet port
None
Read & Write
None
Ethernet port
None
Read & Write
None
Read & Write
None
None
None
0
0 BTS
None
2 None
None
0
Ethernet port
None
Read & Write
Ethernet 0 port
None
Read & Write
None
None
None
None
None
Read & Write
None
None
None
None
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
IP route
None
Read & Write
None
None
None
Ethernet port
None
Read & Write
2 None
Ethernet port
None
Read & Write
None
None
None
0
None
None
Ethernet 0 port
None
Read & Write
Ethernet port
None
Read & Write
None
None
None
None
None
Read & Write
None
None
None
None
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
None
None
Read & Write
None
None
None
None
None
Read & Write
None
None
None
BSC6900
None
Read & Write
None
None
None
BSC6900
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BSC6900
None
Read & Write
None
None
None
BSC6900
None
Read & Write
None
None
None
BSC6900
None
Read & Write
None
None
None
BSC6900
None
Read & Write
This parameter is valid when PKPEnableSta is ENABLE in Read & SET CERTFILE. Write
None
None
None
BSC6900
None
None
None
BSC6900
None
None
None
BSC6900
None
None
None
BSC6900
None
None
None
BSC6900
Read & None Write This parameter is valid when CCAEnableSta is ENABLE in Read & SET CERTFILE. Write
None
None
None
None
None
Read & Write
None
None
None
None
None
Read & Write
None
None
None
None
None
Read & Write
None
None
None
BSC6900
None
Read & Write
None
None
None
Board
None
Read & Write
None
None
None
Ethernet port
None
Read & Write
Read & None Write This parameter is valid when CRLEnableSta is ENABLE in Read & SET CERTFILE. Write
None
None
None
Board
None
Read & Write
None
None
None
Ethernet port
None
Read & Write
Ethernet 1000 port
None
Read & Write
ms
1000
None
None
None
None
None
Read & Write
None
None
None
BSC6900
None
Read & Write
None
None
None
Board
None
Read & Write
Ethernet 0 port
None
Read & Write
None
0
None
None
None
Ethernet port
None
Read & Write
None
None
None
None
None
Read & Write
None
None
None
Board
None
Read & Write
None
None
None
Ethernet port
None
Read & Write
None
None
None
Ethernet port
None
Read & Write
None
None
None
Ethernet port
None
Read & Write
None
None
None
BSC6900
None
Read & Write
None
None
None
Ethernet port
If port 0 or port 4 of the FG2a board is set to the GE port, the port number can only be 0 or 4. Otherwise, the port number ranges from 0 to 7. If only port 0 is set to the GE port, ports 1-3 are unavailable. If port 4 is set to the GE port, ports 5-7 are Read & unavailable. Write
None
None
None
Ethernet port
None
Read & Write
None
None
None
None
None
Read & Write
None
None
None
None
None
Read & Write
None
None
None
None
None
Read & Write
None
None
None
None
None
Read & Write
0 None
Board
None
Read & Write
None
None
NO
None
None
None
Read & Write
None
0 None
Board
None
Read & Write
None
0 None
Board
None
Read & Write
None
NO
None
None
None
Read & Write
None
None
None
Board
None
Read & Write
None
NO
NO
Board
None
Read & Write
None
OFF
None
Board
None
Read & Write
None
OFF
None
Board
None
Read & Write
None
None
None
OFF
OFF
AUTO
None
None
AUTO
Board
Board
BSC6900
None
Read & Write
None
Read & Write
None
Read & Write
None
None
None
None
None
None
None
None
None
None
LINE1_8K and LINE2_8K are most commonly used. None
None
Read & Write
None
Read & Write
None
Read & Write
None
GCUa
None
BSC6900
None
Read & Write
None
None
OFF
BSC6900
None
Read & Write
None
ALL
None
BSC6900
None
Read & Write
None
None
None
None
None
Read & Write
None
None
None
BSC6900
None
Read & Write
None
Channelize d optical port None
Read & Write
ALL
Channelize d optical port None
Read & Write
None
None
None
None
None
None
None
None
None
None
None
Channelize d optical port None
Read & Write
None
Channelize d optical port None
Read & Write
OFF
Channelize d optical port None
Read & Write
None
None
None
Channelize d optical port None
None
None
None
None
None
Read & Write
Read & Write Read & Write
None
None
None
Channelize d optical port None
None
None
None
None
None
Read & Write
None
None
SPACE
Board
None
Read & Write
None
None
None
None
None
Read & Write
%
75
75 Board
None
Read & Write
%
85
85 Board
None
Read & Write
%
80
80 Board
None
Read & Write
%
85
80 Board
None
Read & Write
%
75
75 Board
None
Read & Write
%
90
90 Board
None
Read & Write
1
1 BSC
None
Read & Write
None
None
1
1 BSC
None
Read & Write
None
0
0 BSC
None
Read & Write
None
13
13 BSC
None
Read & Write
None
13
13 BSC
None
Read & Write
None
15
15 BSC
None
Read & Write
None
6
6 BSC
None
Read & Write
None
3
3 BSC
None
Read & Write
None
10
10 BSC
None
Read & Write
None
5
5 BSC
None
Read & Write
None
15
15 BSC
None
Read & Write
None
None
None
BSC6900
None
Read & Write
None
None
None
None
None
Read & Write
None
None
None
BSC6900
None
Read & Write
None
None
None
BSC6900
None
Read & Write
None
None
None
BSC6900
None
Read & Write
None
None
None
BSC6900
None
Read & Write
None
None
None
BSC6900
None
Read & Write
None
None
None
None
None
Read & Write
None
None
None
None
None
Read & Write
None
None
None
Board
None
Read & Write
None
None
None
BSC6900
None
Read & Write
None
None
None
BSC6900
None
Read & Write
None
None
None
None
None
Read & Write
None
None
None
None
None
Read & Write
None
None
0 Board
None
Read & Write
None
None
BTS
None
Read & Write
16 BTS
None
Read & Write
BTS
None
Read & Write
None
None
None
16
None
None
None
None
None
BTS
None
Read & Write
None
None
None
BSC6900
None
Read & Write
None
None
None
BSC6900
None
Read & Write
None
None
None
BSC6900
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
None
None
Read & Write
None
None
None
BSC6900
None
Read & Write
None
None
None
E1/T1 port None
Read & Write
None
None
ALL
E1/T1 port None
Read & Write
None
None
None
None
None
Read & Write
None
None
None
E1/T1 port None
Read & Write
None
None
E1_UNBA
E1/T1 port None
Read & Write
None
None
E1_CRC4_MULTI_FRA ME
E1/T1 port None
Read & Write
None
None
None
E1/T1 port None
Read & Write
None
None
None
E1/T1 port None
Read & Write
None
None
None
E1/T1 port None
Read & Write
None
None
ON
E1/T1 port None
Read & Write
None
None
None
BSC6900
None
Read & Write
None
None
None
None
None
Read & Write
None
None
None
BSC6900
None
Read & Write
None
None
None
E1/T1 port None
Read & Write
None
None
None
E1/T1 port None
Read & Write
None
None
None
E1/T1 port None
Read & Write
None
None
None
None
None
Read & Write
None
None
None
None
None
Read & Write
None
None
None
None
None
Read & Write
min
None
60 None
None
Read & Write
None
None
None
BSC6900
None
Read & Write
None
None
None
BSC6900
None
Read & Write
None
Read & Write
None
None
None
BSC6900
None
None
None
BSC6900
None
Read & Write
None
None
None
None
None
Read & Write
None
OPEN
None
None
None
Read & Write
None
OPEN
None
None
None
Read & Write
None
OPEN
None
None
None
Read & Write
None
OPEN
None
Board
None
Read & Write
None
OPEN
None
None
None
Read & Write
None
OPEN
None
None
None
Read & Write
None
OPEN
None
Board
None
Read & Write
None
OPEN
None
None
None
Read & Write
None
CURRENT
None
None
None
Read & Write
None
CURRENT
None
None
None
Read & Write
None
CURRENT
None
None
None
Read & Write
None
CURRENT
None
None
None
Read & Write
V
57 None
None
None
Read & Write
V
42 None
None
None
Read & Write
V
28 None
None
None
Read & Write
V
20 None
None
None
Read & Write
degree Celsius
45 None
None
None
Read & Write
degree Celsius
0 None
None
None
Read & Write
%
80 None
Board
None
Read & Write
%
10 None
Board
None
Read & Write
None
If "Sensor Type of External Analog 1" is set to VOLTAGE, the unit of "Upper Limit of Signal Output of External Analog 1" is V; if "Sensor Type of External Analog 1" is set to CURRENT, the unit of "Upper Limit of Signal Output Read & of External Analog 1" is A. Write
None
If "Sensor Type of External Analog 1" is set to VOLTAGE, the unit of "Lower Limit of Signal Output of External Analog 1" is V; if "Sensor Type of External Analog 1" is set to CURRENT, the unit of "Lower Limit of Signal Output Read & of External Analog 1" is A. Write
None
If "Sensor Type of External Analog 1" is set to VOLTAGE, the unit of "Upper Limit of Measurement Range of External Analog 1" is V; if "Sensor Type of External Analog 1" is set to CURRENT, the unit of "Upper Limit of Measurement Range Read & of External Analog 1" is A. Write
V or A
V or A
V or A
0.02 None
0.004 None
100 None
V or A
V or A
V or A
V or A
0 None
0.02 None
0.004 None
100 None
None
If "Sensor Type of External Analog 1" is set to VOLTAGE, the unit of "Lower Limit of Measurement Range of External Analog 1" is V; if "Sensor Type of External Analog 1" is set to CURRENT, the unit of "Lower Limit of Measurement Range Read & of External Analog 1" is A. Write
None
If "Sensor Type of External Analog 2" is set to VOLTAGE, the unit of "Upper Limit of Signal Output of External Analog 2" is V; if "Sensor Type of External Analog 2" is set to CURRENT, the unit of "Upper Limit of Signal Output Read & of External Analog 2" is A. Write
None
If "Sensor Type of External Analog 2" is set to VOLTAGE, the unit of "Lower Limit of Signal Output of External Analog 2" is V; if "Sensor Type of External Analog 2" is set to CURRENT, the unit of "Lower Limit of Signal Output Read & of External Analog 2" is A. Write
None
If "Sensor Type of External Analog 2" is set to VOLTAGE, the unit of "Upper Limit of Measurement Range of External Analog 2" is V; if "Sensor Type of External Analog 2" is set to CURRENT, the unit of "Upper Limit of Measurement Range Read & of External Analog 2" is A. Write
V or A
V or A
V or A
V or A
0 None
0.02 None
0.004 None
100 None
None
If "Sensor Type of External Analog 2" is set to VOLTAGE, the unit of "Lower Limit of Measurement Range of External Analog 2" is V; if "Sensor Type of External Analog 2" is set to CURRENT, the unit of "Lower Limit of Measurement Range Read & of External Analog 2" is A. Write
None
If "Sensor Type of External Analog 3" is set to VOLTAGE, the unit of "Upper Limit of Signal Output of External Analog 3" is V; if "Sensor Type of External Analog 3" is set to CURRENT, the unit of "Upper Limit of Signal Output Read & of External Analog 3" is A. Write
None
If "Sensor Type of External Analog 3" is set to VOLTAGE, the unit of "Lower Limit of Signal Output of External Analog 3" is V; if "Sensor Type of External Analog 3" is set to CURRENT, the unit of "Lower Limit of Signal Output Read & of External Analog 3" is A. Write
None
If "Sensor Type of External Analog 3" is set to VOLTAGE, the unit of "Upper Limit of Measurement Range of External Analog 3" is V; if "Sensor Type of External Analog 3" is set to CURRENT, the unit of "Upper Limit of Measurement Range Read & of External Analog 3" is A. Write
V or A
V or A
V or A
V or A
0 None
0.02 None
0.004 None
100 None
None
If "Sensor Type of External Analog 3" is set to VOLTAGE, the unit of "Lower Limit of Measurement Range of External Analog 3" is V; if "Sensor Type of External Analog 3" is set to CURRENT, the unit of "Lower Limit of Measurement Range Read & of External Analog 3" is A. Write
None
If "Sensor Type of External Analog 4" is set to VOLTAGE, the unit of "Upper Limit of Signal Output of External Analog 4" is V; if "Sensor Type of External Analog 4" is set to CURRENT, the unit of "Upper Limit of Signal Output Read & of External Analog 4" is A. Write
None
If "Sensor Type of External Analog 4" is set to VOLTAGE, the unit of "Lower Limit of Signal Output of External Analog 4" is V; if "Sensor Type of External Analog 4" is set to CURRENT, the unit of "Lower Limit of Signal Output Read & of External Analog 4" is A. Write
None
If "Sensor Type of External Analog 4" is set to VOLTAGE, the unit of "Upper Limit of Measurement Range of External Analog 4" is V; if "Sensor Type of External Analog 4" is set to CURRENT, the unit of "Upper Limit of Measurement Range Read & of External Analog 4" is A. Write
V or A
0 None
None
If "Sensor Type of External Analog 4" is set to VOLTAGE, the unit of "Lower Limit of Measurement Range of External Analog 4" is V; if "Sensor Type of External Analog 4" is set to CURRENT, the unit of "Lower Limit of Measurement Range Read & of External Analog 4" is A. Write
None
CLOSE
None
None
None
Read & Write
None
CLOSE
None
None
None
Read & Write
None
CLOSE
None
None
None
Read & Write
None
CLOSE
None
None
None
Read & Write
None
CLOSE
None
None
None
Read & Write
None
CLOSE
None
None
None
Read & Write
None
None
None
BSC6900
None
Read & Write
None
None
None
BSC6900
None
Read & Write
None
None
None
BSC6900
None
Read & Write
None
None
None
None
None
Read & Write
None
None
None
BSC6900
None
Read & Write
If port 0 or port 4 of the FG2a board is set to the GE port, the port number can only be 0 or 4. Otherwise, the port number ranges from 0 to 7. If only port 0 is set to the GE port, ports 1-3 are unavailable. If port 4 is set to the GE port, ports 5-7 are Read & unavailable. Write
None
None
None
Ethernet port
None
None
None
Ethernet port
None
Read & Write
None
None
None
Ethernet port
None
Read & Write
None
None
None
BSC6900
None
Read & Write
None
None
None
Ethernet port
None
Read & Write
None
None
None
None
None
Read & Write
None
None
None
BSC6900
None
Read & Write
None
None
None
Ethernet port
None
Read & Write
None
None
None
Ethernet port
None
Read & Write
None
Ethernet port
If port 0 or port 4 of the FG2a board is set to the GE port, the port number can only be 0 or 4. Otherwise, the port number ranges from 0 to 7. If only port 0 is set to the GE port, ports 1-3 are unavailable. If port 4 is set to the GE port, ports 5-7 are Read & unavailable. Write
ENABLE
Ethernet port
Read & Write
None
None
None
None
None
Ethernet port
None
Read & Write
Ethernet 1500 port
None
Read & Write
None
Ethernet port
None
Read & Write
None
None
Ethernet port
None
Read & Write
None
ON
Ethernet port
None
Read & Write
None
Ethernet port
None
Read & Write
None
None
byte
None
None
None
%
None
None
None
AUTO
None
OFF
OFF
Board
None
Read & Write
None
O5E4_R1E4
O5E4_R1E4
Board
None
Read & Write
None
1600
Ethernet 1600 port
None
Read & Write
None
1200
Ethernet 1200 port
None
Read & Write
None
V7
V7
Ethernet port
None
Read & Write
None
None
None
None
None
Read & Write
None
None
None
None
None
Read & Write
None
None
None
Ethernet port
If port 0 or port 4 of the FG2a board is set to the GE port, the port number can only be 0 or 4. Otherwise, the port number ranges from 0 to 7. If only port 0 is set to the GE port, ports 1-3 are unavailable. If port 4 is set to the GE port, ports 5-7 are Read & unavailable. Write
None
None
None
BSC6900
None
Read & Write
None
None
None
BSC6900
None
Read & Write
None
None
None
Ethernet port
None
Read & Write
None
None
None
Ethernet port
None
Read & Write
%
None
0
ON
None
ON
0
Ethernet 0 port
None
Read & Write
Ethernet port
None
Read & Write
Ethernet 0 port
None
Read & Write
None
V7
V7
Ethernet port
None
Read & Write
None
None
None
BSC6900
None
Read & Write
None
None
None
BSC6900
None
Read & Write
None
None
None
Ethernet port
None
Read & Write
None
None
None
Ethernet port
None
Read & Write
None
None
None
Ethernet port
None
Read & Write
None
None
None
Ethernet port
None
Read & Write
None
None
None
BSC6900
None
Read & Write
None
None
None
BSC6900
None
Read & Write
None
None
None
Ethernet port
None
Read & Write
None
None
None
BSC6900
None
Read & Write
None
None
None
Ethernet port
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
BSC
None
Read & Write
None
None
None
BSC
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
BSC6900
None
Read & Write
None
None
None
BSC6900
None
Read & Write
None
None
None
BSC6900
None
Read & Write
None
None
None
BSC6900
None
Read & Write
None
None
None
BSC6900
None
Read & Write
None
None
None
BSC6900
None
Read & Write
None
None
None
None
None
Read & Write
None
None
None
None
None
Read & Write
None
SOFTWARE_C ONTROL SOFTWARE_CONTROL BSC6900
None
Read & Write
None
None
None
BSC6900
None
Read & Write
None
None
None
None
None
Read & Write
The number of CPU usage sampling times is at least twice the size of "Fast judgement window".
Read & Write
None
10
10 None
None
4
4 None
None
Read & Write
95
95 Board
None
Read & Write
60 Board
The value of this parameter must be larger than "PRINTRTHD".
Read & Write
%
%
60
%
%
%
%
%
%
%
%
%
%
50
60
50
60
50
90
80
70
60
85
50 Board
The value of this parameter must be smaller than "PRINTCTHD".
Read & Write
60 Board
The value of this parameter must be larger than "TRACERTHD".
Read & Write
50 Board
The value of this parameter must be smaller than "TRACECTHD".
Read & Write
60 Board
The value of this parameter must be larger than "PMRTHD".
Read & Write
50 Board
The value of this parameter must be smaller than "PMCTHD".
Read & Write
90 Board
The value of this parameter must be larger than "LOGRTHD".
Read & Write
80 Board
The value of this parameter must be smaller than "LOGCTHD".
Read & Write
70 Board
The following relationship must be satisfied: "LPRISERVCTHD" > "LPRISERVRTHD"; "HPRISERVCTHD" > "NPRISERVCTHD" > "LPRISERVCTHD".
Read & Write
60 Board
The following relationship must be satisfied: "LPRISERVCTHD" > "LPRISERVRTHD"; "HPRISERVCTHD" > "NPRISERVCTHD" > "LPRISERVCTHD".
Read & Write
85 Board
The following relationship must be satisfied: "NPRISERVCTHD" > "NPRISERVRTHD"; "HPRISERVCTHD" > "NPRISERVCTHD" > "LPRISERVCTHD".
Read & Write
%
75
%
90
%
None
85
None
None
75 Board
The following relationship must be satisfied: "NPRISERVCTHD" > "NPRISERVRTHD"; "HPRISERVCTHD" > "NPRISERVCTHD" > "LPRISERVCTHD".
Read & Write
90 Board
The following relationship must be satisfied: "HPRISERVCTHD" > "HPRISERVRTHD"; "HPRISERVCTHD" > "NPRISERVCTHD" > "LPRISERVCTHD".
Read & Write
85 Board
The following relationship must be satisfied: "HPRISERVCTHD" > "HPRISERVRTHD"; "HPRISERVCTHD" > "NPRISERVCTHD" > "LPRISERVCTHD".
Read & Write
None
Read & Write
Read & Write
None
None
10
10 None
The number of CPU usage sampling times is at least twice the size of "Fast judgement window".
%
95
95 Board
None
Read & Write
%
60
60 Board
None
Read & Write
%
50
50 Board
None
Read & Write
%
60
60 Board
None
Read & Write
%
50
50 Board
None
Read & Write
%
60
60 Board
None
Read & Write
%
50
50 Board
None
Read & Write
%
90
90 Board
None
Read & Write
%
80
80 Board
None
Read & Write
None
None
Read & Write
None
None
None
None
ON
None
None
None
Read & Write
None
ON
ON
Board
None
Read & Write
None
ON
ON
Board
None
Read & Write
None
ON
ON
Board
None
Read & Write
None
ON
ON
Board
None
Read & Write
None
None
None
None
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
TRX
None
Read & Write
None
None
None
Physical channel
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
None
None
Read & Write
None
None
None
None
None
Read & Write
None
None
None
BSC6900
None
Read & Write
None
None
None
BSC6900
None
Read & Write
None
PLAINTEXT
AUTO
BSC6900
None
Read & Write
None
YES
None
BSC6900
None
Read & Write
None
None
None
BSC6900
None
Read & Write
None
None
None
None
None
Read & Write
None
None
None
None
None
Read & Write
None
AUTO
AUTO
BSC6900
None
Read & Write
None
None
None
None
DEFAULTPORT
None
BSC6900
None
Read & Write
BSC6900
This parameter is valid when DFTPORTSWT is CUSTOMPORT in SET FTPSSRV.
Read & Write
Read & Write
None
None
None
BSC6900
This parameter is valid when DFTPORTSWT is CUSTOMPORT in SET FTPSSRV.
None
None
None
BSC
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
HANDOVERNC ELL HANDOVERNCELL
Cell
None
Read & Write
Cell
The value of this parameter must be the same as that of "HOCTRLSWITCH" in "SET GCELLHOBASIC".
Read & Write
None
HOALGORITHM 1 HOALGORITHM1
dB
dB
dB
In densely populated urban areas, the recommended value is 68; in the suburbs, the recommended value is 68 72.
0 In densely populated urban areas, the recommended value is 68; in the suburbs, the recommended value is 68 72.
Cell
0 Cell
Cell
When "Current HO Control Algorithm" in "SET GCELLHOBASIC" is set to HOALGORITHM1(Handover algorithm I), "Inter-cell HO Hysteresis" should be set within the range of 64127.When "Current HO Control Algorithm" in "SET GCELLHOBASIC" is set to HOALGORITHM2(Handover algorithm II), "Inter-cell HO Hysteresis" should be set within the range of 0-127.
Read & Write
This parameter is based on "HOCDCMINDWPWR" and "HOCDCMINUPPWR". Different offset can be set for different neighboring cells. The following condition must be met for a neighboring cell to be added into the candidate cell queue: Neighboring cell uplink level >= ("HOCDCMINUPPWR" + "MINOFFSET"); Neighboring cell downlink level >= ("HOCDCMINDWPWR" + Read & "MINOFFSET"). Write
None
Read & Write
dB
None
69
NO
NO
69 Cell
None
Read & Write
Cell
None
Read & Write
dB
67
67 Cell
Inter-layer HO threshold of the serving cell = "Inter-layer HO threshold" - "Inter-layer HO Hysteresis". Inter-layer HO threshold of the neighboring cell = "Inter-layer HO threshold" + "Adjacent Cell Inter-layer HO Hysteresis" - 64. The value of "Inter-layer HO threshold" can be set through Read & "SET GCELLHOBASIC". Write
dB
72
72 Cell
None
Read & Write
None
s
s
s
s
s
QUICK_HO_NC QUICK_HO_NCELL_TY ELL_TYPE_A PE_A Cell
6
4
6
4
6
None
Read & Write
6 Cell
This parameter is valid only when "HOCTRLSWITCH" is set to HOALGORITHM2 and "FRINGEHOEN" is set to YES. The following condition must be met: "EDGEADJSTATTIME" >= "EDGEADJLASTTIME".
Read & Write
4 Cell
This parameter is valid only when "HOCTRLSWITCH" is set to HOALGORITHM2 and "FRINGEHOEN" is set to YES. The following condition must be met: "EDGEADJSTATTIME" >= "EDGEADJLASTTIME".
Read & Write
6 Cell
This parameter is valid only when "HOCTRLSWITCH" is set to HOALGORITHM1 and "LEVHOEN" is set to YES. The following condition must be met: "LEVSTAT" >= "LEVLAST".
Read & Write
4 Cell
This parameter is valid only when "HOCTRLSWITCH" is set to HOALGORITHM1 and "LEVHOEN" is set to YES. The following condition must be met: "LEVSTAT" >= "LEVLAST".
Read & Write
6 Cell
This parameter is valid only when "HOCTRLSWITCH" is set to HOALGORITHM1 and "PBGTHOEN" is set to YES. The following condition must be met: "PBGTSTAT" >= "PBGTLAST".
Read & Write
s
s
s
s
s
s
4
6
4
4
3
3
4 Cell
This parameter is valid only when "HOCTRLSWITCH" is set to HOALGORITHM1 and "PBGTHOEN" is set to YES. The following condition must be met: "PBGTSTAT" >= "PBGTLAST".
Read & Write
6 Cell
This parameter is valid only when "BETTERCELLHOEN" is set to YES and "HOCTRLSWITCH" is set to HOALGORITHM2. The following condition must be met: "BETTERCELLSTATTIME" >= "BETTERCELLLASTTIME".
Read & Write
4 Cell
This parameter is valid only when "BETTERCELLHOEN" is set to YES and "HOCTRLSWITCH" is set to HOALGORITHM2. The following condition must be met: "BETTERCELLSTATTIME" >= "BETTERCELLLASTTIME".
Read & Write
4 Cell
This parameter is valid only when "QUICKHOEN" in "SET GCELLHOBASIC" is set to YES. The following condition must be met: "HOSTATICTIME" >= Read & "HOLASTTIME". Write
3 Cell
This parameter is valid only when "QUICKHOEN" in "SET GCELLHOBASIC" is set to YES. The following condition must be met: "HOSTATICTIME" >= Read & "HOLASTTIME". Write
3 Cell
This parameter is valid only when "HOCTRLSWITCH" is set to HOALGORITHM2. The following condition must be met: "HCSSTATTIME" >= Read & "HCSLASTTIME". Write
s
s
s
s
s
s
2
1
1
1
1
1
2 Cell
This parameter is valid only when "HOCTRLSWITCH" is set to HOALGORITHM2. The following condition must be met: "HCSSTATTIME" >= Read & "HCSLASTTIME". Write
1 Cell
This parameter is valid only when "BQHOEN" is set to YES and "HOCTRLSWITCH" is set to HOALGORITHM2. The following condition must be met: "BQSTATTIME" >= Read & "BQLASTTIME". Write
1 Cell
This parameter is valid only when "BQHOEN" is set to YES and "HOCTRLSWITCH" is set to HOALGORITHM2. The following condition must be met: "BQSTATTIME" >= Read & "BQLASTTIME". Write
1 Cell
This parameter is valid only when "TAHOEN" is set to YES and "HOCTRLSWITCH" is set to HOALGORITHM2. The following condition must be met: "TASTATTIME" >= Read & "TALASTTIME". Write
1 Cell
This parameter is valid only when "HOCTRLSWITCH" is set to HOALGORITHM2 and "TAHOEN" is set to YES. The following condition must be met: "TASTATTIME" >= Read & "TALASTTIME". Write
1 Cell
This parameter is valid only when "BETTERCELLHOEN" is set to YES and "HOCTRLSWITCH" is set to HOALGORITHM2. The following condition must be met: "ULBQSTATTIME" >= "ULBQLASTTIME".
Read & Write
s
None
dB
dB
1
NO
4
0
This parameter is valid only when "BETTERCELLHOEN" is set to YES and "HOCTRLSWITCH" is set to HOALGORITHM2. The following condition must be met: "ULBQSTATTIME" >= "ULBQLASTTIME".
Read & Write
Set this parameter to YES for the neighboring cell with co-channel interference and the neighboring cell that may cause interference; set this parameter to NO for other neighboring cells. Cell
None
Read & Write
4 Cell
None
Read & Write
0 Cell
The parameter value cannot be larger than the value of "PBGT HO Threshold". The parameter takes effect only when "Enhanced Load HO Allowed" is enabled.
Read & Write
1 Cell
None
255 None
Cell
If this parameter is not set to 255, the value of this parameter, "NCELLPRI" of all neighboring UTRAN and EUTRAN cells, "UTRANPRI" of the serving cell, and "EUTRANPRI" of the serving cell must not be of the same Read & value. Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
dB
3
3 Cell
A 3G cell can be added into the candidate cell queue when the following conditions are met: "INTERRATOUTBSCHOEN" is set to YES; "BET3GHOEN" is set to YES; the RSCP of the 3G cell for a period of time is greater than the sun of "HORSCPTH3G" and Read & "RSCPOFF". Write
dB
s
s
s
s
3
10
8
10
8
3 Cell
A 3G neighboring cell can be added into the candidate cell queue when the following conditions are met: "INTERRATOUTBSCHOEN" is set to YES; "BET3GHOEN" is set to YES; the Ec/No of the 3G neighboring cell for a period of time is greater than the sun of "HOECNOTH3G" Read & and "ECNOOFF". Write
10 Cell
This parameter is valid only when "INTERRATOUTBSCHOEN" is set to YES and "BET3GHOEN" is set to YES. The following condition must be met: "HOSTAT3GTDD" >= Read & "HODURT3GTDD". Write
8 Cell
This parameter is valid only when "BET3GHOEN" is set to YES. The following condition must be met: "HOSTAT3GTDD" >= Read & "HODURT3GTDD". Write
10 Cell
This parameter is valid only when "INTERRATOUTBSCHOEN" is set to YES and "BET3GHOEN" is set to YES. The following condition must be met: "HOSTAT3G" >= Read & "HODURT3G". Write
8 Cell
This parameter is valid only when "BET3GHOEN" is set to YES. The following condition must be met: "HOSTAT3G" Read & >= "HODURT3G". Write
None
None
None
255 None
None
None
None
None
Cell
If this parameter is not set to 255, all neighboring UTRAN cells on the same frequency have the same "NCELLPRI". The value of this parameter, "NCELLPRI" of all neighboring GSM cells and neighboring EUTRAN cells, "GERANPRI" of the serving cell, and "EUTRANPRI" of the serving cell must not be of the Read & same value. Write
BSC
None
Read & Write
BSC
None
Read & Write
s
1
1 BSC
None
Read & Write
s
45
45 BSC
None
Read & Write
s
300
s
300 BSC
30
30 Cell
None
Read & Write
None
Read & Write
None
NONE
NONE
BSC
None
Read & Write
None
None
None
BSC
None
Read & Write
None
None
None
BSC
None
Read & Write
None
None
None
BSC
None
Read & Write
None
None
None
BSC
None
Read & Write
None
None
None
BSC
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
BSC
None
Read & Write
None
None
None
BSC
None
Read & Write
None
None
None
BSC
None
Read & Write
None
None
None
BSC
None
Read & Write
None
None
None
BSC
None
Read & Write
None
None
None
BSC
None
Read & Write
None
None
None
BSC
None
Read & Write
None
YES
YES
Cell
None
Read & Write
None
None
30
None
30 BSC
None
Cell
None
Read & Write
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
Read & Write
None
None
None
Cell
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
Normal_cell
Normal_cell
Cell
None
Read & Write
None
Normal_cell
Normal_cell
Cell
None
Read & Write
None
ON
ON
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Read & Write
None
None
None Cell If the coverage area in the underlaid subcell is large and tight frequency reuse is used in the overlaid subcell, the recommended value is Extra. If the coverage areas in the overlaid and underlaid subcells are similar and tight frequency reuse is used on the BCCH, the recommended value is Inner. Cell
None
Read & Write
OFF
When tight frequency reuse is used, the recommended value is ON.
Cell
This parameter is valid when "FHMODE" in the "SET GCELLHOPTP" command is not set to NO_FH.
Read & Write
Cell
This parameter is valid when "FHMODE" in the "SET GCELLHOPTP" command is not set to NO_FH.
Read & Write
None
None
OFF
OFF
None
3
3 Cell
None
Read & Write
None
5
5 Cell
None
Read & Write
None
4
4 Cell
None
Read & Write
None
6
6 Cell
None
Read & Write
None
1
1 Cell
None
Read & Write
None
4
4 Cell
None
Read & Write
None
1
1 Cell
None
Read & Write
None
None
None
BSC
None
Read & Write
None
NO
NO
Cell
None
Read & Write
Cell
In an MOCN-enabled cell, the Handover Between Operators Allow parameter of the operator that the cell belongs Read & to must be set to "Yes". Write
None
NO
None
None
NO
None
Cell
When Freq. Band of a cell is set to DCS1800 or PCS1900, this parameter must be set to Not Support or the same Read & value as that of Freq. Band. Write
None
None
None
Cell
None
Read & Write
None
0 None
Cell
None
Read & Write
None
None
None
None
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
Read & Write
None
None
None
Cell
None
None
None
Cell
None
Read & Write
None
UNLOCK
UNLOCK
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
60 Cell
None
Read & Write
None
60
None
50
50 Cell
None
Read & Write
None
49
49 Cell
None
Read & Write
None
48
48 Cell
None
Read & Write
None
47
47 Cell
None
Read & Write
None
46
46 Cell
None
Read & Write
None
45
45 Cell
None
Read & Write
None
44
44 Cell
None
Read & Write
None
43
43 Cell
None
Read & Write
None
42
42 Cell
None
Read & Write
None
41
41 Cell
None
Read & Write
None
40
40 Cell
None
Read & Write
None
5
5 Cell
None
Read & Write
None
60
60 Cell
None
Read & Write
None
60
60 Cell
None
Read & Write
None
55
55 Cell
None
Read & Write
None
55
55 Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
3 Cell
None
Read & Write
None
3
None
None
PRIOR-1
None
In Normal cell,the recommended value is 62;in Double Timeslot Extension Cell,the recommended value is 62 219.
Cell
None
Read & Write
Cell
None
Read & Write
None
YES
YES
Cell
None
Read & Write
None
YES
YES
Cell
None
Read & Write
None
A5/0-1&A5/10&A5/2-0&A5/30&A5/4-0&A5/5- A5/0-1&A5/1-0&A5/20&A5/6-0&A5/7- 0&A5/3-0&A5/4-0&A5/50 0&A5/6-0&A5/7-0 Cell
None
Read & Write
dB
None
8
Shall_Use
Shall_Use
8 Cell
None
Read & Write
Cell
None
Read & Write
Shall_Use
Shall_Use
Cell
None
Read & Write
None
YES
If this parameter is set to NO, the average call drop rate decreases. This setting is applicable in suburbs or urban areas with poor coverage. Call reestablishment, however, may take a long time. Therefore, the subscriber may hang up the phone before the call is re-established. Generally, the recommended value is YES. Cell
None
Read & Write
None
NO
NO
Cell
None
Read & Write
None
YES
YES
Cell
None
Read & Write
None
None
YES
YES
Cell
None
Read & Write
None
YES
YES
Cell
None
Read & Write
YES
YES
Cell
None
Read & Write
None
YES
The default value for the BTS30, BTS312, BTS3012A, or BTS3006A is YES, which can be modified. The default value for other types of BTS is NONE, which cannot be modified. Cell
None
Read & Write
None
YES
YES
Cell
None
Read & Write
None
YES
YES
Cell
None
Read & Write
20 Cell
None
Read & Write
None
bit
20
bit
4
4 Cell
None
Read & Write
None
NO
NO
Cell
None
Read & Write
None
NO
NO
Cell
None
Read & Write
4 Cell
None
Read & Write
bit
4
bit
4
4 Cell
None
Read & Write
dB
0
0 Cell
None
Read & Write
dB
0
0 Cell
None
Read & Write
Cell
None
Read & Write
Read & Write
Read & Write
None
COMMON
COMMON
None
0
0 Cell
This parameter is valid only when "EDGE" in "SET GCELLGPRS" is set to YES.
%
0
0 Cell
None
None
NO
NO
Cell
None
Read & Write
None
DISABLE
DISABLE
Cell
None
Read & Write
None
DISABLE
DISABLE
Cell
None
Read & Write
None
NOT_ALLOWED NOT_ALLOWED
Cell
None
Read & Write
Cell
This parameter is valid only when High-Order Modulation Power Increase Allowed is set Read & to ALLOWED. Write
None
NOT_ALLOWED NOT_ALLOWED
dB
dB
dB
dB
18
32
35
19
18 Cell
This parameter is valid only when High-Order Modulation Power Increase Allowed is set Read & to ALLOWED. Write
32 Cell
This parameter is valid only when High-Order Modulation Power Increase Allowed is set Read & to ALLOWED. Write
35 Cell
This parameter is valid only when High-Order Modulation Power Increase Allowed is set Read & to ALLOWED. Write
19 Cell
This parameter is valid only when High-Order Modulation Power Increase Allowed is set Read & to ALLOWED. Write
dB
36
dB
40
36 Cell
This parameter is valid only when High-Order Modulation Power Increase Allowed is set Read & to ALLOWED. Write
40 Cell
This parameter is valid only when High-Order Modulation Power Increase Allowed is set Read & to ALLOWED. Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
Read & Write
None
None
None
Cell
None
FULL_RATE_VE R11&FULL_RATE_ VER21&FULL_RATE_ VER30&HALF_RATE_ VER11&HALF_RATE_ VER20&HALF_RATE_ VER30&FULL_RATE_ VER5-0
None
AllowReCheckR es AllowReCheckRes
FULL_RATE_VER11&FULL_RATE_VER21&FULL_RATE_VER30&HALF_RATE_VER11&HALF_RATE_VER20&HALF_RATE_VER30&FULL_RATE_VER5-0 Cell
Cell
None
Read & Write
None
Read & Write
None
None
None
225
YES
YES
1
225 Cell
None
Read & Write
Cell
None
Read & Write
1 Cell
None
Read & Write
dBm
dBm
-109
-109
-109 Cell
The value of this parameter must be smaller than "RACH Busy Threshold" in the "SET Read & GCELLCCBASIC" command. Write
-109 Cell
The value of this parameter must be smaller than "RACH Busy Threshold" in the "SET Read & GCELLCCBASIC" command. Write
None
ALL
ALL
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
NO
NO
Cell
None
Read & Write
None
NO
NO
Cell
None
Read & Write
None
Diff_Band
Diff_Band
Cell
This parameter is valid when "REASSEN" in the "SET GCELLCCBASIC" command is set to YES.
None
OFF
OFF
Cell
None
Read & Write
15 Cell
None
Read & Write
Cell
None
Read & Write
None
None
15
NO
NO
Read & Write
None
OFF
OFF
Cell
None
Read & Write
None
20
20 Cell
None
Read & Write
None
255
255 Cell
None
Read & Write
Cell
None
Read & Write
Read & Write
None
OFF
OFF
None
BCCH_Norm
BCCH_Norm
Cell
If this parameter is set to BCCH Ext, the value of "CCCH Blocks Reserved for AGCH" must be greater than or equal to 1.
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
ALG1
ALG1
Cell
None
Read & Write
None
4_75KBIT/S1&5_15KBIT/S0&5_90KBIT/S1&6_70KBIT/S0&7_40KBIT/S1&7_95KBIT/S0&10_2KBIT/S0&12_2KBIT/S-1
4_75KBIT/S1&5_15KBIT/S0&5_90KBIT/S1&6_70KBIT/S0&7_40KBIT/S1&7_95KBIT/S0&10_2KBIT/S0&12_2KBIT/S-1
Cell
None
Read & Write
None
YES
YES
Cell
None
Read & Write
The setting of this parameter must meet the following conditions: "ULTHF1" < "ULTHF2"; "ULTHF1" + "ULHYSTF1" < "ULTHF2" + "ULHYSTF2".
Read & Write
dB
15
15 Cell
dB
dB
None
None
19
28
2
3
19 Cell
The setting of this parameter must meet the following conditions: "ULTHF2" < "ULTHF3"; "ULTHF2" + "ULHYSTF2" < "ULTHF3" + "ULHYSTF3".
Read & Write
28 Cell
The setting of this parameter must meet the following conditions: "ULTHF2" < "ULTHF3"; "ULTHF2" + "ULHYSTF2" < "ULTHF3" + "ULHYSTF3".
Read & Write
2 Cell
The setting of this parameter must meet the following condition: "ULTHF1" + "ULHYSTF1" < "ULTHF2" + "ULHYSTF2".
Read & Write
3 Cell
The setting of this parameter must meet the following condition: "ULTHF2" + "ULHYSTF2" < "ULTHF3" + "ULHYSTF3".
Read & Write
None
dB
dB
dB
3
12
17
25
None
Read & Write
12 Cell
The setting of this parameter must meet the following conditions: "DLTHF1" < "DLTHF2"; "DLTHF1" + "DLHYSTF1" < "DLTHF2" + "DLHYSTF2".
Read & Write
17 Cell
The setting of this parameter must meet the following conditions: "DLTHF2" < "DLTHF3"; "DLTHF2" + "DLHYSTF2" < "DLTHF3" + "DLHYSTF3".
Read & Write
25 Cell
The setting of this parameter must meet the following conditions: "DLTHF2" < "DLTHF3"; "DLTHF2" + "DLHYSTF2" < "DLTHF3" + "DLHYSTF3".
Read & Write
3 Cell
None
None
None
2
3
3
2 Cell
The setting of this parameter must meet the following condition: "DLTHF1" + "DLHYSTF1" < "DLTHF2" + "DLHYSTF2".
Read & Write
3 Cell
The setting of this parameter must meet the following condition: "DLTHF2" + "DLHYSTF2" < "DLTHF3" + "DLHYSTF3".
Read & Write
3 Cell
The setting of this parameter must meet the following condition: "DLTHF2" + "DLHYSTF2" < "DLTHF3" + "DLHYSTF3".
Read & Write
None
1
None
4_75KBIT/S1&5_15KBIT/S0&5_90KBIT/S1&6_70KBIT/S0&7_40KBIT/S1&7_95KBIT/S-0
None
YES
1 Cell
None
Read & Write
4_75KBIT/S1&5_15KBIT/S0&5_90KBIT/S1&6_70KBIT/S0&7_40KBIT/S1&7_95KBIT/S-0
Cell
None
Read & Write
YES
Cell
None
Read & Write
dB
dB
dB
None
23
31
63
3
23 Cell
The setting of this parameter must meet the following conditions: "ULTHH1" < "ULTHH2"; "ULTHH1" + "ULHYSTH1" < "ULTHH2" + "ULHYSTH2".
Read & Write
31 Cell
The setting of this parameter must meet the following conditions: "ULTHH2" < "ULTHH3"; "ULTHH2" + "ULHYSTH2" < "ULTHH3" + "ULHYSTH3".
Read & Write
63 Cell
The setting of this parameter must meet the following conditions: "ULTHH2" < "ULTHH3"; "ULTHH2" + "ULHYSTH2" < "ULTHH3" + "ULHYSTH3".
Read & Write
3 Cell
The setting of this parameter must meet the following condition: "ULTHH1" + "ULHYSTH1" < "ULTHH2" + "ULHYSTH2".
Read & Write
The setting of this parameter must meet the following condition: "ULTHH2" + "ULHYSTH2" < "ULTHH3" + "ULHYSTH3".
Read & Write
None
4
4 Cell
None
15
15 Cell
None
Read & Write
23 Cell
The setting of this parameter must meet the following conditions: "DLTHH1" < "DLTHH2"; "DLTHH1" + "DLHYSTH1" < "DLTHH2" + "DLHYSTH2".
Read & Write
dB
23
dB
dB
None
31
63
3
31 Cell
The setting of this parameter must meet the following conditions: "DLTHH2" < "DLTHH3"; "DLTHH2" + "DLHYSTH2" < "DLTHH3" + "DLHYSTH3".
Read & Write
63 Cell
The setting of this parameter must meet the following conditions: "DLTHH2" < "DLTHH3"; "DLTHH2" + "DLHYSTH2" < "DLTHH3" + "DLHYSTH3".
Read & Write
3 Cell
The setting of this parameter must meet the following condition: "DLTHH1" + "DLHYSTH1" < "DLTHH2" + "DLHYSTH2".
Read & Write
None
4
4 Cell
The setting of this parameter must meet the following condition: "DLTHH2" + "DLHYSTH2" < "DLTHH3" + "DLHYSTH3".
Read & Write
The setting of this parameter must meet the following condition: "DLTHH2" + "DLHYSTH2" < "DLTHH3" + "DLHYSTH3".
Read & Write
None
Read & Write
None
15
15 Cell
None
0
0 Cell
None
None
None
NO
NO
60
2
None
Read & Write
60 Cell
The setting of this parameter must meet the following conditions: "LTFERUPTH" > "LTFERTGT"; "LTFERUPTH" > "LTFERLOWTH".
Read & Write
2 Cell
The setting of this parameter must meet the following conditions: "LTFERLOWTH" < "LTFERTGT"; "LTFERLOWTH" < "LTFERUPTH".
Read & Write
Cell
None
8
8 Cell
The setting of this parameter must meet the following conditions: "LTFERLOWTH" < "LTFERTGT"; "LTFERTGT" < "LTFERUPTH".
Read & Write
None
None
2
NO
NO
2 Cell
None
Read & Write
Cell
None
Read & Write
None
None
60
2
60 Cell
The setting of this parameter must meet the following conditions: "DLLTFERUPTH" > "DLLTFERTGT"; "DLLTFERUPTH" > "DLLTFERLOWTH".
Read & Write
2 Cell
The setting of this parameter must meet the following conditions: "DLLTFERLOWTH" < "DLLTFERTGT"; "DLLTFERLOWTH" < "DLLTFERUPTH".
Read & Write
None
The recommended value is 8 when DTX is disabled. The recommended value is 14 when DTX is 8 enabled. Cell
The setting of this parameter must meet the following condition: "LTFERLOWTH" < "DLLTFERTGT" < Read & "LTFERUPTH". Write
None
2
2 Cell
None
Read & Write
None
dB
6_60KBIT/S1&8_85KBIT/S- 6_60KBIT/S1&12_65KBIT/S- 1&8_85KBIT/S1 1&12_65KBIT/S-1
21
Cell
21 Cell
None
Read & Write
The setting of this parameter must meet the following conditions: "ULTHWB1" < "ULTHWB2"; "ULTHWB1" + "ULHYSTWB1" < "ULTHWB2" + "ULHYSTWB2".
Read & Write
dB
None
None
25
2
2
25 Cell
The setting of this parameter must meet the following conditions: "ULTHWB1" < "ULTHWB2"; "ULTHWB1" + "ULHYSTWB1" < "ULTHWB2" + "ULHYSTWB2".
Read & Write
2 Cell
The setting of this parameter must meet the following condition: "ULTHWB1" + "ULHYSTWB1" < "ULTHWB2" + "ULHYSTWB2".
Read & Write
2 Cell
The setting of this parameter must meet the following condition: "ULTHWB1" + "ULHYSTWB1" < "ULTHWB2" + "ULHYSTWB2".
Read & Write
dB
dB
None
12
18
2
12 Cell
The setting of this parameter must meet the following conditions: "DLTHWB1" < "DLTHWB2"; ["DLTHWB1" + "DLHYSTWB1" < "DLTHWB2" + "DLHYSTWB2".
Read & Write
18 Cell
The setting of this parameter must meet the following conditions: "DLTHWB1" < "DLTHWB2"; ["DLTHWB1" + "DLHYSTWB1" < "DLTHWB2" + "DLHYSTWB2".
Read & Write
2 Cell
The setting of this parameter must meet the following condition: "DLTHWB1" + "DLHYSTWB1" < "DLTHWB2" + "DLHYSTWB2".
Read & Write
None
2
None
The setting of this parameter must meet the following condition: "DLTHWB1" + "DLHYSTWB1" < "DLTHWB2" + "DLHYSTWB2".
Read & Write
2 Cell
None
Read & Write
2 Cell
2
None
DISABLE
DISABLE
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
ms
32
32 Cell
None
Read & Write
dB
None
16
16 Cell
None
Read & Write
4
4 Cell
None
Read & Write
None
DISABLE
DISABLE
Cell
None
Read & Write
%
85
85 Cell
The value of DTLOADTHRED must be set when "REASSEN" in the "SET GCELLBASICPARA" command is set to Read & DIRECTRYEN. Write
ms
48
48 Cell
None
Read & Write
ms
32
32 Cell
None
Read & Write
ms
64_Times
64_Times
Cell
None
Read & Write
ms
52_Times
52_Times
Cell
None
Read & Write
None
4_Times
4_Times
Cell
None
Read & Write
None
L0_FORBID0&L1_FORBID0&L2_FORBID0&L3_FORBID0&L4_FORBID0&L5_FORBID0&L6_FORBID0&L7_FORBID0&L8_FORBID0&L9_FORBID-0
L0_FORBID0&L1_FORBID0&L2_FORBID0&L3_FORBID0&L4_FORBID0&L5_FORBID0&L6_FORBID0&L7_FORBID0&L8_FORBID0&L9_FORBID-0
Cell
None
Read & Write
None
L11_FORBID0&L12_FORBID0&L13_FORBID0&L14_FORBID0&L15_FORBID0
L11_FORBID0&L12_FORBID0&L13_FORBID0&L14_FORBID0&L15_FORBID-0
Cell
None
Read & Write
None
NO
NO
Cell
None
Read & Write
ms
None
52_Times
52_Times
Cell
None
Read & Write
YES
1. For a 900/1800 MHz Co-BCCH cell, it is recommended that this parameter be set to Yes. 2. For a 1800 MHz cell in the dual-band network, it is recommended that this parameter be set to Yes. For other cells in the dual-band network, it is recommended that this parameter be set to No. 3. When the A5/4-7 encryption algorithm is used, it is recommended that this parameter be set to Yes. 4. When frequencies of the extended frequency band exist on a 900 MHz cell, it is recommended that this parameter be set to Yes. Cell
None
Read & Write
If the traffic volume on each frequency band is even and there is no special requirements for the frequency band, the recommended value is 0; if the traffic volume on each frequency band is significantly uneven and a frequency band is preferred for an MS, the recommended value is 3; if traffic volume on each frequency band is not extremely uneven, the recommended value is 1 or 2. For details, see the 0 GSM Rec. 05. 08. Cell
None
None
YES
YES
Cell
None
Read & Write
None
Read & Write
None
NO
NO
Cell
None
Read & Write
None
NO
NO
Cell
None
Read & Write
None
5
5 Cell
This parameter is valid when "REPEATDLFASET" is set to Read & YES. Write
None
NO
NO
Cell
None
Read & Write
None
NO
NO
Cell
None
Read & Write
None
Read & Write
None
None
None
Cell
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
Cell
None
Read & Write
None
None
None
s
10
10 Cell
None
Read & Write
s
15
15 Cell
None
Read & Write
%
80
80 Cell
None
Read & Write
s
None
15
15 Cell
None
Read & Write
5000
5000 Cell
None
Read & Write
None
YES
YES
Cell
None
Read & Write
None
YES
YES
Cell
None
Read & Write
None
None
5
NO
NO
5 Cell
None
Read & Write
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
Read & Write
None
None
None
Cell
ms
60
60 Cell
None
Read & Write
ms
50
50 Cell
None
Read & Write
None
Read & Write
ms
50
50 Cell
ms
150
150 Cell
None
Read & Write
ms
200
200 Cell
None
Read & Write
ms
60
60 Cell
None
Read & Write
ms
60
60 Cell
None
Read & Write
None
OFF
OFF
Cell
None
Read & Write
Read & Write
None
5
5 Cell
N200ESTAB must be set when "N200PARASWITCH" is set to YES.
None
5
5 Cell
None
Read & Write
None
5
5 Cell
None
Read & Write
None
Read & Write
None
23
23 Cell
None
29
29 Cell
None
Read & Write
None
34
34 Cell
None
Read & Write
Cell
None
Read & Write
None
NO
NO
ms
4
4 Cell
None
Read & Write
None
2
2 Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
R98_or_below
None
Cell
None
Read & Write
None
None
ComMeasReport ComMeasReport
3
Cell
3 Cell
None
Read & Write
This parameter is valid when "MEASURETYPE" is set to EnhMeasReport.
Read & Write
None
None
15
Use_Qsearch_I
Use_Qsearch_I
15 Cell
None
Read & Write
Cell
None
Read & Write
dB
8
8 Cell
None
Read & Write
dBm
None
None
6
RSCP
RSCP
2
6 Cell
None
Read & Write
Cell
None
Read & Write
2 Cell
None
Read & Write
dB
0
0 Cell
This parameter is valid only when the ""INTERRATCELLRESELEN" " parameter regarding the "SET GCELLHOBASIC" Read & command is set to YES. Write
dB
None
None
YES
0
0 Cell
None
Read & Write
15
15 Cell
None
Read & Write
Cell
None
Read & Write
YES
None
NO
NO
Cell
None
Read & Write
None
ADD0dB
ADD0dB
Cell
None
Read & Write
15 Cell
None
Read & Write
None
15
dB
0
0 Cell
None
Read & Write
dB
0
0 Cell
None
Read & Write
dB
0
0 Cell
None
Read & Write
dB
0
0 Cell
None
Read & Write
dB
0
0 Cell
None
Read & Write
dB
0
0 Cell
None
Read & Write
dB
8
8 Cell
None
Read & Write
None
1
1 Cell
None
Read & Write
dB
0
0 Cell
None
Read & Write
dB
0
0 Cell
None
Read & Write
None
NO
NO
Cell
None
Read & Write
None
NO
NO
Cell
None
Read & Write
None
NO
NO
Cell
None
Read & Write
None
BCCHNorm
BCCHNorm
Cell
If this parameter is BCCHExt,"CCCH Blocks Reserved for AGCH" must be Read & more than 0. Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
60 Cell
None
Read & Write
%
60
None
YES
YES
Cell
None
Read & Write
None
YES
YES
Cell
None
Read & Write
None
YES
YES
Cell
None
Read & Write
None
YES
YES
Cell
None
Read & Write
None
YES
YES
Cell
None
Read & Write
dB
30
30 Cell
None
Read & Write
None
40
40 Cell
None
Read & Write
dB
35
35 Cell
None
Read & Write
40
40 Cell
None
Read & Write
ms
6
6 Cell
None
Read & Write
ms
6
6 Cell
None
Read & Write
None
ms
2
2 Cell
None
Read & Write
ms
2
2 Cell
None
Read & Write
Cell
None
Read & Write
55 Cell
None
Read & Write
70 Cell
"TCHTRICBUSYOVERLAYT HR" and "TCHTRIBUSYUNDERLAYT HR" can be set only when "HRIUOLDRATESELALLOW" Read & is set to YES. Write
None
%
%
ON
ON
55
70
%
None
60
YES
None
60 Cell
YES
6
s
4
s
5
"TCHTRICBUSYOVERLAYT HR" and "TCHTRIBUSYUNDERLAYT HR" can be set only when "HRIUOLDRATESELALLOW" Read & is set to YES. Write
Cell
None
Read & Write
6 Cell
None
Read & Write
4 Cell
The following condition must be met: "UPRXLEVSTATICTIME" >= "UPRXLEVLASTTIME".
Read & Write
5 Cell
The following condition must be met: "UPRXLEVSTATICTIME" >= "UPRXLEVLASTTIME".
Read & Write
None
NONE
NONE
Cell
None
Read & Write
None
OFF
OFF
Cell
None
Read & Write
s
5
s
None
dB
3
YES
YES
30
5 Cell
This parameter is valid only when "QTRUPWRSHARE" is not set to NONE. The following condition must be met: "QTRUDNPWRSTATTIME" >= Read & "QTRUDNPWRLASTTIME". Write
3 Cell
This parameter is valid only when "QTRUPWRSHARE" is not set to NONE. The following condition must be met: "QTRUDNPWRSTATTIME" >= Read & "QTRUDNPWRLASTTIME". Write
Cell
30 Cell
None
Read & Write
This parameter is valid only when "TIGHTBCCHSWITCH" in "SET GCELLCHMGBASIC" Read & is set to ON. Write
None
None
%
1
NO
NO
25
1 Cell
This parameter is valid only when "TIGHTBCCHSWITCH" in "SET GCELLCHMGBASIC" Read & is set to ON. Write
Cell
This parameter is valid only when "QTRUPWRSHARE" is Read & not set to NONE. Write
25 Cell
None
Read & Write
None
NO
NO
Cell
None
Read & Write
None
NO
NO
Cell
None
Read & Write
None
NO
NO
Cell
None
Read & Write
None
UNDER
UNDER
Cell
None
Read & Write
None
NO
NO
Cell
None
Read & Write
dB
10
10 Cell
None
Read & Write
dB
13
13 Cell
None
Read & Write
dB
dB
4
10
4 Cell
This parameter is valid only when "IBCASOFTBLKSWITCH" is set to YES.
Read & Write
10 Cell
This parameter is valid only when "IBCASOFTBLKSWITCH" is set to YES.
Read & Write
dB
5
5 Cell
None
Read & Write
dB
1
1 Cell
None
Read & Write
20
20 Cell
None
Read & Write
7
7 Cell
None
Read & Write
None
dB
dB
4
4 Cell
None
Read & Write
dB
110
110 Cell
None
Read & Write
It is recommended that you set the path loss offset of layer 1 neighboring cells of the serving cell to 15 dB and that of other neighboring 15 cells to 25 dB. Cell
None
Read & Write
dB
ms
4
4 Cell
None
Read & Write
%
80
80 Cell
None
Read & Write
dB
40
40 Cell
None
Read & Write
s
None
4
YES
YES
4 Cell
None
Read & Write
Cell
None
Read & Write
None
6
6 Cell
None
Read & Write
dB
0
0 Cell
None
Read & Write
None
4
4 Cell
None
Read & Write
None
0
0 Cell
None
Read & Write
None
20
20 Cell
None
Read & Write
dB
0
0 Cell
None
Read & Write
dB
0
0 Cell
None
Read & Write
dB
0
0 Cell
None
Read & Write
dB
0
0 Cell
None
Read & Write
You are advised to disable this function in the co-BCCH cell with the inter-site distance not more than 1500m. Cell
None
Read & Write
None
OFF
dB
dB
35
32
35 Cell
In an enhanced concentric cell, if "LOWRXLEVOLFORBIDSWI TCH" is set to ON, this parameter and "OTOURECEIVETH" determine whether the current uplink receive level meets the condition for assigning channels of the overlaid subcell during the assignment of the underlaid subcell channels and overlaid subcell channels. In a normal concentric cell, if "LOWRXLEVOLFORBIDSWI TCH" is set to ON, this parameter, together with "RECLEVTHRES" and "RECLEVHYST", determines whether the current uplink receive level meets the condition for assigning channels of the overlaid subcell during the assignment of the underlaid subcell channels and overlaid subcell Read & channels. Write
32 Cell
This parameter is valid only when "LOWRXLEVOLFORBIDSWI Read & TCH" is set to ON. Write
None
OFF
OFF
Cell
None
Read & Write
None
OFF
OFF
Cell
None
Read & Write
None
OFF
OFF
Cell
None
Read & Write
4 Cell
None
Read & Write
s
4
s
5
5 Cell
None
Read & Write
s
0
0 Cell
None
Read & Write
s
2
2 Cell
None
Read & Write
dB
22
22 Cell
None
Read & Write
dB
7
7 Cell
None
Read & Write
None
0
0 Cell
None
Read & Write
dB
4
4 Cell
None
Read & Write
dB
0
0 Cell
None
Read & Write
dB
10
10 Cell
None
Read & Write
The parameter value corresponds to the power of each passage on the MRRU. If the cell is configured only on one passage of the MRRU, then the power assigned to another passage of the Read & operator must be set to 0. Write
None
255
255 Cell
None
2
2 Cell
None
Read & Write
dB
0
0 Cell
None
Read & Write
None
DYNPDCHASID LE DYNPDCHASIDLE
Cell
The parameter is independent of "Load Handover Support" and "Enhanced Load HO Read & Allowed". Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
Read & Write
None
None
None
None
None
2
80
Cell
2 Cell
This parameter is one of the conditions for the dynamic conversion of the TCHF to the SDCCH. In addition to the condition that the number of idle SDCCHs should be smaller than or equal to "IDLESDTHRES", the following three conditions must be met to trigger the conversion from the TCHF to the SDCCH: 1. "SDDYN" in "SET GCELLBASICPARA" is set to YES. 2. In the cell, the value of (number of idle TCHFs + number of idle TCHHs/2) is greater than four and is greater than the number of TRXs. Idle TCHFs exist in the cell. 3. Number of SDCCHs + 8 < Read & "CELLMAXSD". Write
80 Cell
This parameter is valid only when "SDDYN" in "SET GCELLBASICPARA" is set to Read & YES. Write
s
None
60
NO
60 Cell
NO
Cell
This parameter is valid only when "SDDYN" in "SET GCELLBASICPARA" is set to Read & YES. Write
None
Read & Write
Read & Write
None
1
1 Cell
This parameter is valid only when "GRADEACCALLOW" is set to YES.
None
0
0 Cell
None
Read & Write
Cell
None
Read & Write
None
YES
None
None
OFF
OFF
Cell
None
Read & Write
None
NOTSUPPORT
NOTSUPPORT
Cell
None
Read & Write
None
CAPABILITY
CAPABILITY
Cell
None
Read & Write
None
NO
NO
Cell
None
Read & Write
None
1
1 Cell
This parameter is valid only when "HIGHPRIUSERQUALFIRST" Read & is set to YES. Write
%
100
%
100
None
0
100 Cell
The following condition must be met: "ALLOWHALFRATEUSERPE RC" >= "ALLOWAMRHALFRATEUSE Read & RPERC". Write
100 Cell
The following condition must be met: "ALLOWAMRHALFRATEUSE RPERC" <= "ALLOWHALFRATEUSERPE Read & RC". Write
0 Cell
This parameter is valid only when "EMCPRILV" in "SET GCELLCCAD" is not set to 15.
Read & Write
None
NO
NO
Cell
None
Read & Write
None
OFF
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
Read & Write
None
None
None
Cell
None
None
DISABLE
DISABLE
Cell
None
BYNAME
BYNAME
Cell
None This parameter is valid only when "TURNOFFENABLE" is set to YES. This parameter is valid only when "TURNOFFENABLE" is set to YES. This parameter is valid only when "TURNOFFENABLE" is set to YES.
None
None
None
Cell
None
None
None
Cell
Read & Write Read & Write Read & Write Read & Write
%
50
50 Cell
%
80
80 Cell
None
min
None
6
5
5
This parameter is valid only when "TURNOFFENABLE" is set to YES. This parameter is valid only when "TURNOFFENABLE" is set to ENABLE.
Read & Write Read & Write
6 Cell
This parameter is valid only when "TURNOFFENABLE" is Read & set to ENABLE. Write
5 Cell
This parameter is valid only when "TURNOFFENABLE" is Read & set to YES. Write
5 Cell
1. This parameter is valid only when "TURNOFFENABLE" is set to ENABLE. 2. The setting of this parameter must meet the following condition: "SAMECVGCELLLOADSTAT TM" >= "SAMECVGCELLLOADLAST Read & TM". Write
None
Cell
This parameter is valid only when "TURNOFFENABLE" is set to ENABLE or SLEEPING. The following condition must be met: "TURNOFFCELLSTPTIME" < Read & "TURNOFFCELLSTRTIME".. Write
0:00 None
Cell
When "TURNOFFCELLSTPTIME" < "TURNOFFCELLSTRTIME", it indicates that the Dynamic Cell Power Off feature can be Read & enabled for more than a day. Write
0:00 None
None
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
IR
None
IR
5
Cell
None
Read & Write
5 Cell
None
Read & Write
None
UNFIXED
UNFIXED
Cell
None
Read & Write
None
MCS2
MCS2
Cell
None
Read & Write
None
UNFIXED
UNFIXED
Cell
None
Read & Write
None
MCS6
MCS6
Cell
None
Read & Write
Cell
This parameter is valid only when "EGPRS2A" is set to YES.
Read & Write
Cell
This parameter is valid only when "EGPRS2A" is set to YES.
Read & Write
None
None
UNFIXED
MCS6
UNFIXED
MCS6
None
None
UNFIXED
DAS6
None
None
None
UNFIXED
DAS6
2
None
None
None
None
Cell
This parameter is valid only when "EGPRS2A" is set to YES.
Read & Write
Cell
This parameter is valid only when "EGPRS2A" is set to YES.
Read & Write
2 Cell
None
Read & Write
Cell
None
Read & Write
None
Read & Write
Cell
None
None
None
None
EM0
EM0
None
Read & Write
Cell
None
Read & Write
Cell
None
1
1 Cell
None
Read & Write
None
1
1 Cell
None
Read & Write
Cell
None
Read & Write
None
TYPE1
TYPE1
s
60sec
60sec
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
None
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
0 BTS
None
Read & Write
min
0
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
Cell
This parameter is valid only when "GPRS" is set to SupportAsInnPcu or SupportAsExtPcu.
Read & Write
None
NO
None
None
NO
None
Cell
None
None
None
Cell
This parameter is valid only when "GPRS" is set to SupportAsInnPcu. This parameter is valid only when "GPRS" is set to SupportAsExtPcu.
Read & Write Read & Write
None
None
None
None
None
NO
NO
NO
NO
None
None
None
Cell
This parameter is valid only when "GPRS" is set to SupportAsInnPcu or SupportAsExtPcu.
Read & Write
Cell
This parameter is valid only when "GPRS" is set to SupportAsInnPcu or SupportAsExtPcu.
Read & Write
Cell
This parameter is valid only when "GPRS" is set to SupportAsInnPcu or SupportAsExtPcu.
Read & Write
None
Cell
0 None
Cell
This parameter is valid only when "GPRS" is set to SupportAsExtPcu. This parameter is valid only when "GPRS" is set to SupportAsInnPcu.
Read & Write Read & Write
None
None
None
UNSUPPORT
UNSUPPORT
UNSUPPORT
None
None
None
Cell
This parameter is valid only when "GPRS" is set to SupportAsInnPcu. If "Cell Extension Type" in the "ADD GCELL" command is set to Double Timeslot Extension Cell for a cell, the parameter cannot be set to Read & "SUPPORT". Write
Cell
This parameter is valid only when "GPRS" is set to SupportAsInnPcu and "SUPPORTDTM" is set to SUPPORT.
Read & Write
Cell
This parameter is valid only when "GPRS" is set to SupportAsInnPcu and "SUPPORTDTM" is set to SUPPORT.
Read & Write
None
UNSUPPORT
None
Cell
None
UNSUPPORT
None
Cell
This parameter is valid only when "GPRS" is set to SupportAsInnPcu and "SUPPORTDTM" is set to SUPPORT. This parameter is valid only when "GPRS" is set to SupportAsInnPcu.
Cell
This parameter is valid only when "GPRS" is set to SupportAsInnPcu.
None
UNSUPPORT
None
Read & Write Read & Write
Read & Write
None
UNSUPPORT
None
Cell
This parameter is valid only when "GPRS" is set to SupportAsInnPcu.
Read & Write
Read & Write
Read & Write
None
UNSUPPORT
None
Cell
This parameter is valid only when "GPRS" is set to SupportAsInnPcu.
None
UNSUPPORT
None
Cell
None
None
UNSUPPORT
None
Cell
None
Read & Write
Read & Write
None
UNSUPPORT
None
Cell
This parameter is valid only when "GPRS" is set to "SupportAsInnPcu".
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
Cell
None
Read & Write
0 Cell
None
Read & Write
None
None
None
None
0
None
0
0 Cell
The NCH occupies the CCCH blocks reserved for the AGCH. Therefore, the number of blocks occupied by the NCH plus the NCH start block number must be smaller than or equal to the number of CCCH blocks reserved for the Read & AGCH. Write
None
NO
NO
Cell
None
Read & Write
None
NO
NO
Cell
None
Read & Write
None
NoPriority
NoPriority
Cell
None
Read & Write
Cell
None
Read & Write
None
NoPriority
NoPriority
None
5
5 Cell
None
Read & Write
s
0
0 Cell
None
Read & Write
None
YES
YES
Cell
None
Read & Write
ms
8
8 Cell
None
Read & Write
None
3
3 Cell
None
Read & Write
10
10 Cell
None
Read & Write
0
0 Cell
None
Read & Write
ms
s
s
10
10 Cell
None
Read & Write
None
10
10 Cell
None
Read & Write
Cell
None
Read & Write
None
YES
YES
None
YES
None
None
YES
64
Priority4
Priority4
Cell
None
Read & Write
64 Cell
None
Read & Write
Cell
None
Read & Write
None
Read & Write
"VGCSRSRVNUM" <= "VGCSMAXNUM".
Read & Write
None
Read & Write
None
0
0 Cell
None
255
255 Cell
None
No_Priority
No_Priority
Cell
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
10
90
10 Cell
This parameter is valid only when "LOADHOEN" in "SET GCELLHOBASIC" is set to YES.
Read & Write
90 Cell
This parameter is valid only when "LOADHOEN" in "SET GCELLHOBASIC" is set to YES.
Read & Write
%
80
80 Cell
When the cell is a 2G external cell, this parameter is valid only when the "" OutBscLoadHoEn"" parameter regarding the "SET GCELLHOAD" command is set to YES. When the cell is a 3G external cell, this parameter is valid only when either of the following conditions is met: 1. The ""INTERRATOUTBSCHOEN" " parameter regarding the "SET GCELLHOBASIC" is set to YES and the ""OutSysLoadHoEn "" parameter regarding the "SET GCELLHOINTERRATLDB" command is set to YES. 2. The ""InterRatServiceLoadHoSwit ch"" parameter is not set to OFF. When the cell is under the BSC, this parameter is valid only when the ""LoadHoEn"" parameter regarding the "SET GCELLHOBASIC" Read & command is set to YES. Write
dB
s
If "Current HO Control Algorithm" in "SET GCELLHOBASIC" is set to HOALGORITHM1, the recommended value of this parameter is 25. If "Current HO Control Algorithm" in "SET GCELLHOBASIC" is set to HOALGORITHM2, the recommended value of 25 this parameter is 8. Cell
This parameter is valid only when "LOADHOEN" in "SET GCELLHOBASIC" is set to YES. If "Current HO Control Algorithm" in "SET GCELLHOBASIC" is set to HOALGORITHM1, the default value of this parameter is 25. If "Current HO Control Algorithm" in "SET GCELLHOBASIC" is set to HOALGORITHM2, the default Read & value of this parameter is 8. Write
If "Current HO Control Algorithm" in "SET GCELLHOBASIC" is set to HOALGORITHM1, the recommended value of this parameter is 10. If "Current HO Control Algorithm" in "SET GCELLHOBASIC" is set to HOALGORITHM2, the recommended value of 10 this parameter is 5. Cell
This parameter is valid only when "LOADHOEN" in "SET GCELLHOBASIC" is set to YES. If "Current HO Control Algorithm" in "SET GCELLHOBASIC" is set to HOALGORITHM1, the default value of this parameter is 10. If "Current HO Control Algorithm" in "SET GCELLHOBASIC" is set to HOALGORITHM2, the default Read & value of this parameter is 5. Write
dB
None
None
s
None
If "Current HO Control Algorithm" in "SET GCELLHOBASIC" is set to HOALGORITHM1, the recommended value of this parameter is 5. If "Current HO Control Algorithm" in "SET GCELLHOBASIC" is set to HOALGORITHM2, the recommended value of 5 this parameter is 2. Cell
This parameter is valid only when "LOADHOEN" in "SET GCELLHOBASIC" is set to YES. The value of this parameter must be smaller than "LOADOFFSET". If "Current HO Control Algorithm" in "SET GCELLHOBASIC" is set to HOALGORITHM1, the default value of this parameter is 5. If "Current HO Control Algorithm" in "SET GCELLHOBASIC" is set to HOALGORITHM2, the default Read & value of this parameter is 2. Write
3
3 Cell
This parameter is valid only when "QCKMVHOEN" in "SET GCELLHOBASIC" is set to YES. The following condition must be met: "QCKSTATCNT" >= Read & "QCKTRUECNT". Write
2 Cell
This parameter is valid only when "QCKMVHOEN" in "SET GCELLHOBASIC" is set to YES. The following condition must be met: "QCKSTATCNT" >= Read & "QCKTRUECNT". Write
15
15 Cell
This parameter is valid only when "QCKMVHOEN" in "SET GCELLHOBASIC" is set Read & to YES. Write
3
3 Cell
2
None
Read & Write
s
s
20
20 Cell
None
Read & Write
This parameter, together with "BANTIME", limits the handover frequency in the Read & cell. Write
6
6 Cell
dB
30
30 Cell
None
Read & Write
s
40
40 Cell
None
Read & Write
0
0 Cell
None
Read & Write
3 Cell
This parameter is valid only when "TIGHTBCCHSWITCH" in "SET GCELLCHMGBASIC" Read & is set to ON. Write
80 Cell
This parameter is valid only when "TIGHTBCCHSWITCH" in "SET GCELLCHMGBASIC" Read & is set to ON. Write
dB
None
%
3
80
None
30
30 Cell
None
Read & Write
ms
None
7
NO
7 Cell
NO
Cell
None
Read & Write
This parameter is valid only when "LOADHOEN" in "SET GCELLHOBASIC" is set to YES.
Read & Write
None
s
OFF
OFF
10
Cell
None
Read & Write
10 Cell
None
Read & Write
None
OFF
OFF
Cell
None
Read & Write
s
40
40 Cell
None
Read & Write
None
50
50 Cell
None
Read & Write
None
50
50 Cell
None This parameter can be set only when "Load Handover Support" is set to Yes.
None
NO
NO
Cell
Read & Write Read & Write
None
0
None
3
0 Cell
The parameter is independent of "Load Handover Support" and "Enhanced Load HO Read & Allowed". Write
3 Cell
The parameter takes effect only when the enhanced load handover algorithm is Read & enabled. Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
Read & Write
None
HOALGORITHM 1 HOALGORITHM1
Cell
The value of this parameter must be the same as that of "HOCTRLSWITCH" in "SET GCELLHOBASIC".
None
YES
YES
Cell
None
Read & Write
None
NO
NO
Cell
None
Read & Write
None
NO
In the hot-spot areas, densely populated urban areas, urban areas, suburbs, and rural areas, the recommended value is YES; in the high-speed circumstances, the recommended value is NO. Cell
None
Read & Write
None
YES
YES
Cell
This parameter is valid only when "HOCTRLSWITCH" is set to HOALGORITHM1 and "INTRACELLHOEN" is set to Read & YES. Write
None
NO
NO
Cell
None
Read & Write
NO
Set this parameter to YES only in special scenarios such as highways.
Cell
None
Read & Write
NO
In dual-band networking mode for densely populated urban areas, the level drops rapidly due to multiple barriers. The propagation loss of the 1800 MHz frequency band is greater than the propagation loss of the 900 MHz frequency band. Considering the preceding factors, you can set this parameter to YES for the DCS1800 cell. Under normal conditions, set this parameter to No. Cell
This parameter is valid only when "HOCTRLSWITCH" is set to HOALGORITHM1.
Read & Write
None
None
None
YES
YES
Cell
This parameter is valid only when "HOCTRLSWITCH" is set to HOALGORITHM1.
Read & Write
Read & Write
None
YES
YES
Cell
This parameter is valid only when "HOCTRLSWITCH" is set to HOALGORITHM1.
None
YES
YES
Cell
None
Read & Write
None
YES
YES
Cell
None
Read & Write
None
YES
YES
Cell
None
Read & Write
None
NO
NO
Cell
None
Read & Write
None
YES
YES
Cell
None
Read & Write
dB
10
10 Cell
This parameter is valid when "FRINGEHOEN" is set to YES or "RXQCKFALLHOEN" is set Read & to YES. Write
dB
The recommended value is 20 when HUAWEI I Handover is used; The recommended value is 15 when HUAWEI II 20 Handover is used. Cell
This parameter is valid when "FRINGEHOEN" is set to YES or "LOADHOEN" is set to Read & YES. Write
s
s
1
1
1 Cell
This parameter is valid only when "HOCTRLSWITCH" is set to HOALGORITHM2 and "FRINGEHOEN" is set to YES. The following condition must be met: "EDGESTAT" >= "EDGELAST".
Read & Write
1 Cell
This parameter is valid only when "HOCTRLSWITCH" is set to HOALGORITHM2 and "FRINGEHOEN" is set to YES. The following condition must be met: "EDGESTAT" >= "EDGELAST".
Read & Write
s
s
None
None
10
8
25
12
10 Cell
This parameter is valid only when "HOCTRLSWITCH" is set to HOALGORITHM1 and "INTRACELLFHHOEN" is set to YES. The following condition must be met: "INFHHOSTAT" >= Read & "INFHHOLAST". Write
8 Cell
This parameter is valid only when "HOCTRLSWITCH" is set to HOALGORITHM1 and "INTRACELLFHHOEN" is set to YES. The following condition must be met: "INFHHOSTAT" >= Read & "INFHHOLAST". Write
25 Cell
This parameter is valid only when "HOCTRLSWITCH" is set to HOALGORITHM1 and "INTRACELLFHHOEN" is set Read & to YES. Write
12 Cell
This parameter is valid only when "HOCTRLSWITCH" is set to HOALGORITHM1 and "INTRACELLFHHOEN" is set Read & to YES. Write
dB
25
25 Cell
None
Read & Write
dB
2
2 Cell
None
Read & Write
dB
0
0 Cell
None
Read & Write
dB
10
s
6
s
None
None
s
10 Cell
4
NO
NO
NO
NO
3
None
Read & Write
6 Cell
This parameter is valid only when "TIGHTBCCHSWITCH" in "SET GCELLCHMGBASIC" is set to ON. The following condition must be met: "TIGHTBCCHHOSTATTIME" >= Read & "TIGHTBCCHHOLASTTIME". Write
4 Cell
This parameter is valid only when "TIGHTBCCHSWITCH" in "SET GCELLCHMGBASIC" is set to ON. The following condition must be met: "TIGHTBCCHHOSTATTIME" >= Read & "TIGHTBCCHHOLASTTIME". Write
Cell
None
Read & Write
Cell
This parameter is valid only when "IUOTP" is set to Concentric_cell.
Read & Write
This parameter is valid only when "INTERFHOEN" is set to YES and "HOCTRLSWITCH" is set to HOALGORITHM2. The following condition must be met: "INTERFERESTATTIME" >= "INTERFERELASTTIME".
Read & Write
3 Cell
s
None
None
%
s
s
2
YES
NO
75
5
1
Cell
This parameter is valid only when "HOCTRLSWITCH" is set to HOALGORITHM2.
2 Cell
YES
NO
Cell
This parameter is valid only when "INTERFHOEN" is set to YES and "HOCTRLSWITCH" is set to HOALGORITHM2. The following condition must be met: "INTERFERESTATTIME" >= "INTERFERELASTTIME". This parameter is valid only when "HOCTRLSWITCH" is set to HOALGORITHM2.
75 Cell
Read & Write Read & Write
Read & Write
This parameter is valid only when "HOCTRLSWITCH" is set to HOALGORITHM2 and "AMRFULLTOHALFHOALLO Read & W" is set to YES. Write
5 Cell
This parameter is valid only when "HOCTRLSWITCH" is set to HOALGORITHM2.
1 Cell
This parameter is valid only when "HOCTRLSWITCH" is set to HOALGORITHM2. The following condition must be met: "FULLTOHALFHODURATIO N" >= Read & "FULLTOHALFHOPERIOD". Write
Read & Write
dB
dB
dB
dB
dB
dB
1
2
100
10
20
20
1 Cell
This parameter is valid only when "HOCTRLSWITCH" is set to HOALGORITHM2 and "AMRFULLTOHALFHOALLO Read & W" is set to YES. Write
2 Cell
This parameter is valid only when "HOCTRLSWITCH" is set to HOALGORITHM2 and "AMRFULLTOHALFHOALLO Read & W" is set to YES. Write
100 Cell
This parameter is valid only when "HOCTRLSWITCH" is set to HOALGORITHM2 and "AMRFULLTOHALFHOALLO Read & W" is set to YES. Write
10 Cell
This parameter is valid only when "HOCTRLSWITCH" is set to HOALGORITHM2.
20 Cell
This parameter is valid only when "HOCTRLSWITCH" is set to HOALGORITHM2 and "AMRFULLTOHALFHOALLO Read & W" is set to YES. Write
20 Cell
This parameter is valid only when "HOCTRLSWITCH" is set to HOALGORITHM2.
Read & Write
Read & Write
None
0
s
6
s
4
%
None
s
dB
15
NO
NO
5
4
0 Cell
This parameter is valid only when "HOCTRLSWITCH" is set to HOALGORITHM2 and "AMRFULLTOHALFHOALLO Read & W" is set to YES. Write
6 Cell
This parameter is valid only when "HOCTRLSWITCH" is set to HOALGORITHM2. The following condition must be met: "FULLTOHALFHOSTATTIME " >= "FULLTOHALFHOLASTTIME Read & ". Write
4 Cell
This parameter is valid only when "HOCTRLSWITCH" is set to HOALGORITHM2.
Read & Write
15 Cell
This parameter is valid only when "HOCTRLSWITCH" is set to HOALGORITHM2 and "AMRFULLTOHALFHOALLO Read & W" is set to YES. Write
Cell
This parameter is valid only when "HOCTRLSWITCH" is set to HOALGORITHM2 and "AMRFULLTOHALFHOALLO Read & W" is set to YES. Write
5 Cell
This parameter is valid only when "HOCTRLSWITCH" is set to HOALGORITHM2.
4 Cell
This parameter is valid only when "HOCTRLSWITCH" is set to HOALGORITHM2 and "AMRFULLTOHALFHOALLO Read & W" is set to YES. Write
Read & Write
dB
dB
dB
None
s
20
108
10
3
6
20 Cell
108 Cell
10 Cell
This parameter is valid only when "HOCTRLSWITCH" is set to HOALGORITHM2.
Read & Write
This parameter is valid only when "HOCTRLSWITCH" is set to HOALGORITHM2 and "AMRFULLTOHALFHOALLO Read & W" is set to YES. Write
This parameter is valid only when "HOCTRLSWITCH" is set to HOALGORITHM2.
Read & Write
3 Cell
This parameter is valid only when "HOCTRLSWITCH" is set to HOALGORITHM2 and "AMRFULLTOHALFHOALLO Read & W" is set to YES. Write
6 Cell
This parameter is valid only when "HOCTRLSWITCH" is set to HOALGORITHM2. The following condition must be met: "HALFTOFULLHOSTATTIME " >= "HALFTOFULLHOLASTTIME Read & ". Write
s
None
%
dB
dB
4
NO
4 Cell
NO
85
1
2
Cell
This parameter is valid only when "HOCTRLSWITCH" is set to HOALGORITHM2. The following condition must be met: "HALFTOFULLHOSTATTIME " >= "HALFTOFULLHOLASTTIME Read & ". Write
This parameter is valid only when "HOCTRLSWITCH" is set to HOALGORITHM2.
Read & Write
85 Cell
This parameter is valid only when "HOCTRLSWITCH" is set to HOALGORITHM2 and "NOAMRFULLTOHALFHOAL Read & LOW" is set to YES. Write
1 Cell
This parameter is valid only when "HOCTRLSWITCH" is set to HOALGORITHM2 and "NOAMRFULLTOHALFHOAL Read & LOW" is set to YES. Write
2 Cell
This parameter is valid only when "HOCTRLSWITCH" is set to HOALGORITHM2 and "NOAMRFULLTOHALFHOAL Read & LOW" is set to YES. Write
dB
95
dB
30
None
0
%
None
dB
25
NO
NO
14
95 Cell
This parameter is valid only when "HOCTRLSWITCH" is set to HOALGORITHM2 and "NOAMRFULLTOHALFHOAL Read & LOW" is set to YES. Write
30 Cell
This parameter is valid only when "HOCTRLSWITCH" is set to HOALGORITHM2 and "NOAMRFULLTOHALFHOAL Read & LOW" is set to YES. Write
0 Cell
This parameter is valid only when "HOCTRLSWITCH" is set to HOALGORITHM2 and "NOAMRFULLTOHALFHOAL Read & LOW" is set to YES. Write
25 Cell
This parameter is valid only when "HOCTRLSWITCH" is set to HOALGORITHM2 and "NOAMRFULLTOHALFHOAL Read & LOW" is set to YES. Write
Cell
This parameter is valid only when "HOCTRLSWITCH" is set to HOALGORITHM2 and "NOAMRFULLTOHALFHOAL Read & LOW" is set to YES. Write
14 Cell
This parameter is valid only when "HOCTRLSWITCH" is set to HOALGORITHM2 and "NOAMRFULLTOHALFHOAL Read & LOW" is set to YES. Write
dB
103
None
None
None
None
2
NO
NO
NO
NO
NO
NO
103 Cell
This parameter is valid only when "HOCTRLSWITCH" is set to HOALGORITHM2 and "NOAMRFULLTOHALFHOAL Read & LOW" is set to YES. Write
2 Cell
This parameter is valid only when "HOCTRLSWITCH" is set to HOALGORITHM2 and "NOAMRFULLTOHALFHOAL Read & LOW" is set to YES. Write
None
Read & Write
Cell
None
Read & Write
Cell
When "Inter-RAT In BSC Handover Enable" is set to NO, this parameter must be set to NO.
Read & Write
When "Allow Incoming BSC Handover at Iur-g" is set to NO, this parameter must be set to NO.
Read & Write
Cell
None
NO
NO
Cell
None
NO
NO
Cell
None
NO
NO
Cell
None This parameter is valid only when "HOCTRLSWITCH" is set to HOALGORITHM2.
6 Cell
This parameter is valid only when "HOCTRLSWITCH" is set to HOALGORITHM1 and "FRINGEHOEN" is set to YES. The following condition must be met: "EDGESTAT1" >= "EDGELAST1".
s
6
Read & Write Read & Write
Read & Write
s
4
4 Cell
This parameter is valid only when "HOCTRLSWITCH" is set to HOALGORITHM1 and "FRINGEHOEN" is set to YES. The following condition must be met: "EDGESTAT1" >= "EDGELAST1".
Read & Write
None
NO
NO
Cell
None
Read & Write
None
NO
NO
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
s
2
2 Cell
None
Read & Write
s
2
2 Cell
None
Read & Write
s
4
4 Cell
None
Read & Write
s
4
4 Cell
None
Read & Write
None
NO
NO
Cell
This parameter is valid only when "SIGCHANHOEN" in "SET GCELLHOBASIC" is set Read & to YES. Write
None
YES
YES
Cell
None
Read & Write
Cell
If the value of this parameter is BSC_Preprocessing, the pre-processing is performed on the BSC. In this case, the following parameters are invalid: "PRIMMESPPT", "BSMSPWRLEV", and "MRPREPROCFREQ".
Read & Write
Cell
This parameter must be set when "BTSMESRPTPREPROC" is set to BTS_Preprocessing. This parameter must be set to NO when "MPMODE" of the BTS that serving this cell is set to MODE4_1 and there Read & are more than two SDCCHs. Write
None
None
BTS_Preprocess ing BTS_Preprocessing
NO
NO
None
YES
YES
Cell
This parameter must be set when "BTSMESRPTPREPROC" is set to BTS_PreprocessingN.
Read & Write
None
Once_ps
dB
Once_ps
16
Cell
This parameter must be set when "BTSMESRPTPREPROC" is set to BTS_PreprocessingN.
Read & Write
16 Cell
This parameter is valid only when "HOCTRLSWITCH" is set to HOALGORITHM1.
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
%
None
None
%
%
None
50
YES
50 Cell
YES
NO
NO
80
90
Cell
None
Read & Write
This parameter is valid only when "IUOTP" in "ADD GCELL" is set to EDB_cell. The following condition must be met: "OUTGENOVERLDTHRED" > Read & "OUTLOWLOADTHRED". Write
Cell
This parameter is valid only when "IUOTP" in "ADD GCELL" is set to EDB_cell.
Read & Write
Cell
This parameter is valid only when "IUOTP" in "ADD GCELL" is set to EDB_cell.
Read & Write
80 Cell
This parameter is valid only when "IUOTP" in "ADD GCELL" is set to EDB_cell. The following condition must be met: "OUTSERIOVERLDTHRED" > "OUTGENOVERLDTHRED" Read & > "OUTLOWLOADTHRED". Write
90 Cell
This parameter is valid only when "IUOTP" in "ADD GCELL" is set to EDB_cell. The following condition must be met: "OUTSERIOVERLDTHRED" > "OUTGENOVERLDTHRED" Read & > "OUTLOWLOADTHRED". Write
None
10
10 Cell
This parameter is valid only when "IUOTP" in "ADD GCELL" is set to EDB_cell.
Read & Write
dB
10
dB
None
10 Cell
2
YES
2 Cell
YES
Cell
This parameter is valid only when "ATCBHoSwitch" is set to OPEN, "IUOTP" is set to EDB_cell, or "TIGHTBCCHSWITCH" is set Read & to ON. Write
This parameter is valid only when "ATCBHoSwitch" is set to OPEN, "IUOTP" is set to EDB_cell, or "TIGHTBCCHSWITCH" is set to ON. This parameter is valid only when "IUOTP" in "ADD GCELL" is set to EDB_cell.
Read & Write Read & Write
s
5
dB
5
s
None
s
dB
dB
dB
s
1
NO
5
30
25
5
Read & Write
5 Cell
This parameter is valid only when "OUTLOADHOENABLE" is set to YES and "IUOTP" in "ADD GCELL" is set to EDB_cell.
Read & Write
1 Cell
NO
10
5 Cell
This parameter is valid only when "OUTLOADHOENABLE" is set to YES.
Cell
10 Cell
5 Cell
This parameter is valid only when "OUTLOADHOENABLE" is set to YES. This parameter is valid only when "IUOTP" in "ADD GCELL" is set to EDB_cell. This parameter is valid only when "INNLOADHOEN" is set to YES.
Read & Write Read & Write Read & Write
This parameter is valid only when "INNLOADHOEN" is set Read & to YES. Write
30 Cell
This parameter is valid only when "IUOTP" in "ADD GCELL" is set to EDB_cell.
Read & Write
25 Cell
This parameter is valid only when "IUOTP" in "ADD GCELL" is set to EDB_cell.
Read & Write
5 Cell
This parameter is valid only when "IUOTP" in "ADD GCELL" is set to EDB_cell.
Read & Write
s
5
s
None
4
YES
%
None
5 Cell
4 Cell
YES
90
None
Cell
90 Cell
None
Cell
This parameter is valid only when "IUOTP" in "ADD GCELL" is set to EDB_cell. The following condition must be met: "EDBSTATTIME" >= "EDBLASTTIME". This parameter is valid only when "IUOTP" in "ADD GCELL" is set to EDB_cell. The following condition must be met: "EDBSTATTIME" >= "EDBLASTTIME". This parameter is valid only when "IUOTP" in "ADD GCELL" is set to EDB_cell.
Read & Write
Read & Write Read & Write
This parameter is valid only when "OUTLOADHOENABLE" is set to YES.
Read & Write
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
Cell
The value of this parameter must be the same as that of "HOCTRLSWITCH" in "SET GCELLHOBASIC".
Read & Write
255 Cell
This parameter is valid only when "TAHOEN" in "SET GCELLHOBASIC" is set to YES.
Read & Write
None
bit
HOALGORITHM 1 HOALGORITHM1
255
None
None
None
None
55
55
10
10
55 Cell
This parameter is valid only when "BQHOEN" in "SET GCELLHOBASIC" is set to YES.
55 Cell
This parameter is valid only when "BQHOEN" in "SET GCELLHOBASIC" is set to YES and "NODLMRHOEN" in "SET GCELLHOEMG" is set Read & to YES. Write
10 Cell
This parameter is valid only when "RXQCKFALLHOEN" in "SET GCELLHOBASIC" is set to YES. The following condition must be met: "FLTPARAA1" + "FLTPARAA2" + "FLTPARAA3" + "FLTPARAA4" + "FLTPARAA5" + "FLTPARAA6" + "FLTPARAA7" + Read & "FLTPARAA8" = 80. Write
10 Cell
This parameter is valid only when "RXQCKFALLHOEN" in "SET GCELLHOBASIC" is set to YES. The following condition must be met: "FLTPARAA1" + "FLTPARAA2" + "FLTPARAA3" + "FLTPARAA4" + "FLTPARAA5" + "FLTPARAA6" + "FLTPARAA7" + Read & "FLTPARAA8" = 80. Write
Read & Write
None
None
10
10
10 Cell
This parameter is valid only when "RXQCKFALLHOEN" in "SET GCELLHOBASIC" is set to YES. The following condition must be met: "FLTPARAA1" + "FLTPARAA2" + "FLTPARAA3" + "FLTPARAA4" + "FLTPARAA5" + "FLTPARAA6" + "FLTPARAA7" + Read & "FLTPARAA8" = 80. Write
10 Cell
This parameter is valid only when "RXQCKFALLHOEN" in "SET GCELLHOBASIC" is set to YES. The following condition must be met: "FLTPARAA1" + "FLTPARAA2" + "FLTPARAA3" + "FLTPARAA4" + "FLTPARAA5" + "FLTPARAA6" + "FLTPARAA7" + Read & "FLTPARAA8" = 80. Write
None
None
10
10
10 Cell
This parameter is valid only when "RXQCKFALLHOEN" in "SET GCELLHOBASIC" is set to YES. The following condition must be met: "FLTPARAA1" + "FLTPARAA2" + "FLTPARAA3" + "FLTPARAA4" + "FLTPARAA5" + "FLTPARAA6" + "FLTPARAA7" + Read & "FLTPARAA8" = 80. Write
10 Cell
This parameter is valid only when "RXQCKFALLHOEN" in "SET GCELLHOBASIC" is set to YES. The following condition must be met: "FLTPARAA1" + "FLTPARAA2" + "FLTPARAA3" + "FLTPARAA4" + "FLTPARAA5" + "FLTPARAA6" + "FLTPARAA7" + Read & "FLTPARAA8" = 80. Write
None
10
None
10
None
None
0
NO
NO
10 Cell
This parameter is valid only when "RXQCKFALLHOEN" in "SET GCELLHOBASIC" is set to YES. The following condition must be met: "FLTPARAA1" + "FLTPARAA2" + "FLTPARAA3" + "FLTPARAA4" + "FLTPARAA5" + "FLTPARAA6" + "FLTPARAA7" + Read & "FLTPARAA8" = 80. Write
10 Cell
This parameter is valid only when "RXQCKFALLHOEN" in "SET GCELLHOBASIC" is set to YES. The following condition must be met: "FLTPARAA1" + "FLTPARAA2" + "FLTPARAA3" + "FLTPARAA4" + "FLTPARAA5" + "FLTPARAA6" + "FLTPARAA7" + Read & "FLTPARAA8" = 80. Write
0 Cell
This parameter is valid only when "RXQCKFALLHOEN" in "SET GCELLHOBASIC" is set Read & to YES. Write
Cell
None
Read & Write
None
50
None
8
50 Cell
This parameter is valid only when "NODLMRHOEN" in "SET GCELLHOEMG" is set to YES.
Read & Write
8 Cell
This parameter is valid only when "NODLMRHOEN" in "SET GCELLHOEMG" is set to YES.
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
dB
dB
m/s
50
50
35
50 Cell
This parameter is valid only when "QUICKHOEN" in "SET GCELLHOBASIC" is set to Read & YES. Write
50 Cell
This parameter is valid only when "QUICKHOEN" in "SET GCELLHOBASIC" is set to Read & YES. Write
35 Cell
This parameter is valid only when "QUICKHOEN" in "SET GCELLHOBASIC" is set to Read & YES. Write
4 Cell
This parameter is valid only when "QUICKHOEN" in "SET GCELLHOBASIC" is set to Read & YES. Write
4 Cell
This parameter is valid only when "QUICKHOEN" in "SET GCELLHOBASIC" is set to Read & YES. Write
1
1 Cell
This parameter is valid only when "QUICKHOEN" in "SET GCELLHOBASIC" is set to Read & YES. Write
s
10
10 Cell
None
Read & Write
dB
63
63 Cell
None
Read & Write
68 Cell
This parameter is valid only when "QUICKHOEN" in "SET GCELLHOBASIC" is set to Read & YES. Write
Cell
This parameter is valid only when "QUICKHOEN" in "SET GCELLHOBASIC" is set to Read & YES. Write
ms
4
ms
4
None
dB
None
68
NO
NO
None
NO
None
NO
3
None
3
s
4
s
3
Cell
When parameter ""Quick handover enable"" is configured to "YES",then parameter ""Handover Direction Forecast Enable"" can be configured to "YES".Furthermore,before open "Handover Direction Forecast Enable", parameter ""Chain Neighbour Cell Type"" of cell should be configured Read & correctly. Write
3 Cell
"Handover Direction Forecast Statistic Times" >= "Handover Direction Forecast Last Read & Times" Write
3 Cell
"Handover Direction Forecast Statistic Times" >= "Handover Direction Forecast Last Read & Times" Write
4 Cell
"Frequency Shift Handover Duration" <= "Frequency Shift Read & Handover Statistic Time" Write
3 Cell
"Frequency Shift Handover Duration" <= "Frequency Shift Read & Handover Statistic Time" Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
0 Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
None
None
HOALGORITHM 1 HOALGORITHM1
4
Cell
None
Read & Write
Cell
The value of this parameter must be the same as that of "HOCTRLSWITCH" in "SET GCELLHOBASIC".
Read & Write
None
Read & Write
4 Cell
ms
4
4 Cell
None
Read & Write
ms
4
4 Cell
None
Read & Write
ms
2
2 Cell
None
Read & Write
ms
2
2 Cell
None
Read & Write
ms
4
4 Cell
None
Read & Write
ms
4
4 Cell
None
Read & Write
dB
30
30 Cell
None
Read & Write
dB
63
63 Cell
None
Read & Write
s
10
10 Cell
None
Read & Write
dB
63
63 Cell
None
Read & Write
s
30
30 Cell
None
Read & Write
s
10
10 Cell
None
Read & Write
s
5
5 Cell
None
Read & Write
s
10
10 Cell
None
Read & Write
None
Read & Write
s
255
255 Cell
ms
ms
ms
ms
ms
ms
ms
2
6
2
6
2
6
2
2 Cell
This parameter is valid only when "MEASURETYPE" in "SET GCELLCCUTRANSYS" Read & is set to EnhMeasReport. Write
6 Cell
This parameter is valid only when "MEASURETYPE" in "SET GCELLCCUTRANSYS" Read & is set to EnhMeasReport. Write
2 Cell
This parameter is valid only when "MEASURETYPE" in "SET GCELLCCUTRANSYS" Read & is set to EnhMeasReport. Write
6 Cell
This parameter is valid only when "MEASURETYPE" in "SET GCELLCCUTRANSYS" Read & is set to EnhMeasReport. Write
2 Cell
This parameter is valid only when "MEASURETYPE" in "SET GCELLCCUTRANSYS" Read & is set to EnhMeasReport. Write
6 Cell
This parameter is valid only when "MEASURETYPE" in "SET GCELLCCUTRANSYS" Read & is set to EnhMeasReport. Write
2 Cell
This parameter is valid only when "MEASURETYPE" in "SET GCELLCCUTRANSYS" Read & is set to EnhMeasReport. Write
ms
6
s
10
dB
63
s
15
ms
2
ms
2
6 Cell
This parameter is valid only when "MEASURETYPE" in "SET GCELLCCUTRANSYS" Read & is set to EnhMeasReport. Write
10 Cell
This parameter is valid only when "HOCTRLSWITCH" in "SET GCELLHOBASIC" is set Read & to HOALGORITHM2. Write
63 Cell
This parameter is valid only when "HOCTRLSWITCH" in "SET GCELLHOBASIC" is set Read & to HOALGORITHM2. Write
15 Cell
This parameter is valid only when "HOCTRLSWITCH" in "SET GCELLHOBASIC" is set Read & to HOALGORITHM2. Write
2 Cell
This parameter is valid only when "HOCTRLSWITCH" in "SET GCELLHOBASIC" is set Read & to HOALGORITHM2. Write
2 Cell
This parameter is valid only when "HOCTRLSWITCH" in "SET GCELLHOBASIC" is set Read & to HOALGORITHM2. Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
NO
NO
Cell
None
Read & Write
BSC
This parameter is valid only when the ""INTERRATOUTBSCHOEN" " parameter regarding the "SET GCELLHOBASIC" Read & command is set to YES. Write
None
None
OFF
OFF
90
90 BSC
None
Read & Write
None
100
100 BSC
None
Read & Write
None
90
90 BSC
None
Read & Write
None
100
100 BSC
None
Read & Write
None
Read & Write
None
80
80 BSC
None
10
10 BSC
None
Read & Write
dB
30
30 BSC
None
Read & Write
None
Read & Write
dB
25
25 BSC
s
10
10 BSC
None
Read & Write
dB
10
10 BSC
None
Read & Write
dB
5
5 BSC
None
Read & Write
dB
60
60 BSC
None
Read & Write
dB
20
20 BSC
None
Read & Write
None
Read & Write
dB
91
91 BSC
dB
49
49 BSC
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
Cell
The value of this parameter must be the same as that of "HOCTRLSWITCH" in "SET GCELLHOBASIC".
Read & Write
Cell
This parameter is valid only when "IUOTP" in "ADD GCELL" is set to Concentric_cell.
Read & Write
Cell
This parameter is valid only when "IUOTP" in "ADD GCELL" is set to Concentric_cell.
Read & Write
Cell
This parameter is valid only when "IUOTP" in "ADD GCELL" is set to Concentric_cell.
Read & Write
Cell
This parameter is valid only when "IUOTP" in "ADD GCELL" is set to Concentric_cell.
Read & Write
Cell
This parameter is valid only when "IUOTP" in "ADD GCELL" is set to Concentric_cell.
Read & Write
None
None
None
None
None
None
dB
HOALGORITHM 1 HOALGORITHM1
YES
YES
YES
YES
YES
YES
NO
NO
NO
NO
30
30 Cell
This parameter is valid only when "IUOTP" in "ADD GCELL" is set to Concentric_cell and "ENIUO" Read & is set to OFF. Write
dB
None
bit
bit
s
5
60
63
0
10
5 Cell
This parameter is valid only when "IUOTP" in "ADD GCELL" is set to Concentric_cell and "ENIUO" Read & is set to OFF. Write
60 Cell
This parameter is valid only when "IUOTP" in "ADD GCELL" is set to Concentric_cell.
63 Cell
This parameter is valid only when "IUOTP" in "ADD GCELL" is set to Concentric_cell. The following condition must be met: Read & "TALIMIT" > "TATHRES". Write
0 Cell
10 Cell
This parameter is valid only when "IUOTP" in "ADD GCELL" is set to Concentric_cell.
Read & Write
Read & Write
The following condition must be met: "IUOHOSTATIME" >= Read & "IUOHODURATIME". Write
s
None
8
SysOpt
dB
bit
SysOpt
35
bit
None
8 Cell
63
NO
NO
0
The following condition must be met: "IUOHOSTATIME" >= Read & "IUOHODURATIME". Write
Cell
This parameter is valid only when "IUOTP" in "ADD GCELL" is set to Concentric_cell.
Read & Write
35 Cell
This parameter is valid only when "IUOTP" in "ADD GCELL" is set to Concentric_cell and "OPTILAYER" is set to SysOpt.
Read & Write
63 Cell
This parameter is valid only when "IUOTP" in "ADD GCELL" is set to Concentric_cell and "OPTILAYER" is set to SysOpt.
Read & Write
Cell
This parameter is valid only when "IUOTP" in "ADD GCELL" is set to Concentric_cell.
Read & Write
0 Cell
This parameter is valid only when "IMMASSTAALLOW" is Read & set to YES. Write
None
None
dB
dB
SysOpt
SysOpt
Usubcell
Usubcell
20
35
Cell
This parameter is valid only when "IUOTP" in "ADD GCELL" is set to Concentric_cell.
Read & Write
Cell
This parameter is valid only when "IUOTP" in "ADD GCELL" is set to Concentric_cell.
Read & Write
20 Cell
This parameter is valid only when "IUOTP" in "ADD GCELL" is set to EDB_cell.
Read & Write
35 Cell
This parameter is valid only when "IUOTP" in "ADD GCELL" is set to EDB_cell.
Read & Write
None
s
s
s
NO
NO
5
10
40
Cell
This parameter is valid only when "IUOTP" in "ADD GCELL" is set to EDB_cell.
Read & Write
5 Cell
This parameter is valid only when "IUOTP" in "ADD GCELL" is set to EDB_cell.
Read & Write
10 Cell
This parameter is valid only when "IUOTP" in "ADD GCELL" is set to EDB_cell.
Read & Write
40 Cell
This parameter is valid only when "IUOTP" in "ADD GCELL" is set to Concentric_cell.
Read & Write
s
None
%
%
%
10
3
20
70
80
10 Cell
This parameter is valid only when "IUOTP" in "ADD GCELL" is set to Concentric_cell.
Read & Write
3 Cell
This parameter is valid only when "IUOTP" in "ADD GCELL" is set to Concentric_cell.
Read & Write
20 Cell
This parameter is valid only when "UTOOTRAFHOALLOW" is set to YES. The following condition must be met: "ENSOVERLDTHRSH" > "ENGOVERLDTHRSH" > "ENLOWLDTHRSH".
Read & Write
70 Cell
This parameter is valid only when "UTOOTRAFHOALLOW" is set to YES. The following condition must be met: "ENSOVERLDTHRSH" > "ENGOVERLDTHRSH" > "ENLOWLDTHRSH".
Read & Write
80 Cell
This parameter is valid only when "UTOOTRAFHOALLOW" is set to YES. The following condition must be met: "ENSOVERLDTHRSH" > "ENGOVERLDTHRSH" > "ENLOWLDTHRSH".
Read & Write
s
5
dB
5
None
50
None
40
dB
5
5 Cell
This parameter is valid only when "IUOTP" in "ADD GCELL" is set to EDB_cell.
Read & Write
5 Cell
This parameter is valid only when "IUOTP" in "ADD GCELL" is set to EDB_cell.
Read & Write
50 Cell
This parameter is valid only when "IUOTP" in "ADD GCELL" is set to Concentric_cell.
Read & Write
40 Cell
This parameter is valid only when "IUOTP" in "ADD GCELL" is set to Concentric_cell.
Read & Write
5 Cell
This parameter is valid only when "IUOTP" in "ADD GCELL" is set to EDB_cell.
Read & Write
Read & Write
dB
63
63 Cell
This parameter is valid only when "IUOTP" in "ADD GCELL" is set to Concentric_cell and "HOCTRLSWITCH" in "SET GCELLHOBASIC" is set to HOALGORITHM2.
None
25
25 Cell
None
Read & Write
None
35
35 Cell
None
Read & Write
None
Read & Write
None
None
None
Cell
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
NONE
NONE
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
0 Cell
None
Read & Write
None
0
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
BSC
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
Read & Write
None
None
None
Cell
None
NO_FH
NO_FH
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
BSC
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
NO_FH
NO_FH
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
Cell
This parameter is valid only when the ""INTERRATOUTBSCHOEN" " parameter regarding the "SET GCELLHOBASIC" Read & command is set to YES. Write
None
NO
NO
None
dB
dB
Pre_2G_CellThr es Pre_2G_CellThres
25
50
Cell
This parameter is valid only when the ""INTERRATOUTBSCHOEN" " parameter regarding the "SET GCELLHOBASIC" Read & command is set to YES. Write
25 Cell
This parameter is valid only when "HOOPTSEL" is set to Pre_2G_CellThres.
50 Cell
This parameter is valid only when the following conditions are met: 1. The ""INTERRATOUTBSCHOEN" " regarding the "SET GCELLHOBASIC" command is set to YES. 2. The ""BET3GHOEN"" parameter is set to YES. 3. The ""FDDREP"" parameter regarding the "SET GCELLCCUTRANSYS" Read & command is set to RSCP. Write
Read & Write
dB
35
35 Cell
This parameter is valid only when the following conditions are met: 1. The ""INTERRATOUTBSCHOEN "" regarding the "SET GCELLHOBASIC" command is set to YES. 2. The ""BET3GHOEN"" parameter is set to YES. 3. The ""FDDREP"" parameter regarding the "SET GCELLCCUTRANSYS" Read & command is set to EcNo. Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
Cell
This parameter is valid only when the ""INTERRATOUTBSCHOEN" " parameter regarding the "SET GCELLHOBASIC" Read & command is set to YES. Write
None
Pre_2G_CellThr es Pre_2G_CellThres
dB
25
dB
50
25 Cell
This parameter is valid only when "HOOPTSEL" is set to Pre_2G_CellThres.
50 Cell
This parameter is valid only when the following conditions are met: 1. The ""INTERRATOUTBSCHOEN" " regarding the "SET GCELLHOBASIC" command is set to YES. 2. The ""BET3GHOEN"" parameter is set to YES. 3. The ""FDDREP"" parameter regarding the "SET GCELLCCUTRANSYS" Read & command is set to RSCP. Write
Read & Write
None
NO
NO
Cell
This parameter is valid only when the ""INTERRATOUTBSCHOEN" " parameter regarding the "SET GCELLHOBASIC" Read & command is set to YES. Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
FLEX
FLEX
Cell
None
Read & Write
None
0
0 Cell
None
Read & Write
s
0
0 Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
YES
YES
Cell
None
Read & Write
None
None
TX_32
TX_32
Cell
None
Read & Write
NO
The CBA function applies to special scenarios. If this parameter is set to YES and "Cell Bar Qualify" is set to no, only handovers are allowed in a cell, and direct access of an MS is not allowed. This condition applies to a dual-network coverage cell. For a common cell, this parameter should be set to NO. Cell
None
Read & Write
None
None
NO
NO
1
Cell
None
Read & Write
1 Cell
None
Read & Write
ms
2_M_PERIOD
2_M_PERIOD
Cell
None
Read & Write
min
dB
20
6dB
6dB
20 Cell
None
Read & Write
Cell
None
Read & Write
None
YES
YES
Cell
None
Read & Write
None
dB
SELECTION0_P ERM1&SELECTION1 _PERM1&SELECTION2 _PERM1&SELECTION3 _PERM1&SELECTION4 _PERM1&SELECTION5 _PERM1&SELECTION6 _PERM1&SELECTION7 _PERM-1
SELECTION0_PERM1&SELECTION1_PERM1&SELECTION2_PERM1&SELECTION3_PERM1&SELECTION4_PERM1&SELECTION5_PERM1&SELECTION6_PERM1&SELECTION7_PERM1 Cell
None
Read & Write
0
0 Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
Read & Write
None
None
None
Cell
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
0 Cell
None
Read & Write
None
0
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
0 None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
Degree
Degree
Cell
None
Read & Write
None
North_latitude
None
Cell
None
Read & Write
degree
None
None
Cell
None
Read & Write
degree
None
None
Cell
None
Read & Write
None
East_Longitude
None
Cell
None
Read & Write
degree
None
None
Cell
None
Read & Write
degree
None
None
Cell
None
Read & Write
None
Read & Write
degree
None
None
Cell
minute
None
None
Cell
None
Read & Write
second
None
None
Cell
None
Read & Write
second
None
None
Cell
None
Read & Write
degree
None
None
Cell
None
Read & Write
minute
None
None
Cell
None
Read & Write
second
None
None
Cell
None
Read & Write
second
None
None
Cell
None
Read & Write
degree
360 None
Cell
None
Read & Write
degree
360
360 Cell
None
Read & Write
m
40
40 Cell
None
Read & Write
m
0
0 Cell
None
Read & Write
Cell
None
Read & Write
None
None
None
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
0 Cell
None
Read & Write
None
0
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
Cell
This parameter is valid only when "IBCAALLOWED" in "SET GCELLCHMGAD" is set Read & to YES. Write
Cell
This parameter is valid only when "IBCAALLOWED" in "SET GCELLCHMGAD" is set Read & to YES. Write
Cell
This parameter is valid only when "IBCAALLOWED" in "SET GCELLCHMGAD" is set Read & to YES. Write
Cell
This parameter is valid only when "IBCAALLOWED" in "SET GCELLCHMGAD" is set Read & to YES. Write
Cell
This parameter is valid only when "IBCAALLOWED" in "SET GCELLCHMGAD" is set Read & to YES. Write
Cell
This parameter is valid only when "IBCAALLOWED" in "SET GCELLCHMGAD" is set Read & to YES. Write
Cell
This parameter is valid only when "IBCAALLOWED" in "SET GCELLCHMGAD" is set Read & to YES. Write
Cell
This parameter is valid only when "IBCAALLOWED" in "SET GCELLCHMGAD" is set Read & to YES. Write
Cell
This parameter is valid only when "IBCAALLOWED" in "SET GCELLCHMGAD" is set Read & to YES. Write
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
Cell
This parameter is valid only when "IBCAALLOWED" in "SET GCELLCHMGAD" is set Read & to YES. Write
Cell
This parameter is valid only when "IBCAALLOWED" in "SET GCELLCHMGAD" is set Read & to YES. Write
Cell
This parameter is valid only when "IBCAALLOWED" in "SET GCELLCHMGAD" is set Read & to YES. Write
Cell
This parameter is valid only when "IBCAALLOWED" in "SET GCELLCHMGAD" is set Read & to YES. Write
Cell
This parameter is valid only when "IBCAALLOWED" in "SET GCELLCHMGAD" is set Read & to YES. Write
Cell
This parameter is valid only when "IBCAALLOWED" in "SET GCELLCHMGAD" is set Read & to YES. Write
Cell
This parameter is valid only when "IBCAALLOWED" in "SET GCELLCHMGAD" is set Read & to YES. Write
Cell
This parameter is valid only when "IBCAALLOWED" in "SET GCELLCHMGAD" is set Read & to YES. Write
Cell
This parameter is valid only when "IBCAALLOWED" in "SET GCELLCHMGAD" is set Read & to YES. Write
Cell
This parameter is valid only when "IBCAALLOWED" in "SET GCELLCHMGAD" is set Read & to YES. Write
Cell
This parameter is valid only when "IBCAALLOWED" in "SET GCELLCHMGAD" is set Read & to YES. Write
Cell
This parameter is valid only when "IBCAALLOWED" in "SET GCELLCHMGAD" is set Read & to YES. Write
None
None
None
None
None
None
Cell
This parameter is valid only when "IBCAALLOWED" in "SET GCELLCHMGAD" is set Read & to YES. Write
Cell
This parameter is valid only when "IBCAALLOWED" in "SET GCELLCHMGAD" is set Read & to YES. Write
None
None
None
Cell
This parameter is valid only when "IBCAALLOWED" in "SET GCELLCHMGAD" is set Read & to YES. Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
15
15 Cell
None
Read & Write
None
6
6 Cell
None
Read & Write
None
30
30 Cell
None
Read & Write
s
10
10 Cell
None
Read & Write
None
4
4 Cell
None
Read & Write
None
6
6 Cell
None
Read & Write
None
%
200
200 Cell
None
Read & Write
30
30 Cell
None
Read & Write
%
85
85 Cell
None
Read & Write
%
60
60 Cell
None
Read & Write
Cell
None
Read & Write
None
PERMIT
PERMIT
None
PERMIT
PERMIT
Cell
The function of cell load reselection is valid only when "NC2LoadResel" in "SET BSCPSSOFTPARA" is set to "Support" and "LOADRESELALLOW"is set Read & to "Permit". Write
None
PERMIT
PERMIT
Cell
None
Read & Write
None
10
10 Cell
None
Read & Write
None
1
1 Cell
None
Read & Write
s
2
2 Cell
None
Read & Write
None
7
7 Cell
None
Read & Write
None
16
16 Cell
None
Read & Write
None
5
5 Cell
None
Read & Write
None
40
40 Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
dB
10db
10db
Cell
None
Read & Write
s
10sec
10sec
Cell
None
Read & Write
dB
MINUS_2db
MINUS_2db
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
s
0.24sec
0.24sec
Cell
None
Read & Write
s
15.36sec
15.36sec
Cell
None
Read & Write
s
0.96sec
0.96sec
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
BSC
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
ON
ON
Cell
None
Read & Write
None
NO
NO
Cell
None
Read & Write
None
YES
YES
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
NT14_5K0&NT12K1&NT6K1&T14_4K0&T9_6K1&T4_8K1&T2_4K1&T1_2K0&T600_BITS0&T1200_75-0
NT14_5K-0&NT12K1&NT6K-1&T14_4K0&T9_6K-1&T4_8K1&T2_4K-1&T1_2K0&T600_BITS0&T1200_75-0
Cell
None
Read & Write
None
%
None
YES
YES
90
110
Cell
None
Read & Write
90 Cell
None
Read & Write
110 Cell
The setting of this parameter must meet the following condition: "INTERFTHRES0" Read & > "INTERFTHRES1". Write
None
None
105
98
105 Cell
The setting of this parameter must meet the following condition: "INTERFTHRES1" Read & > "INTERFTHRES2". Write
98 Cell
The setting of this parameter must meet the following condition: "INTERFTHRES2" Read & > "INTERFTHRES3". Write
None
None
92
87
92 Cell
The setting of this parameter must meet the following condition: "INTERFTHRES3" Read & > "INTERFTHRES4". Write
87 Cell
The setting of this parameter must meet the following condition: "INTERFTHRES4" Read & > "INTERFTHRES5". Write
None
85
85 Cell
The setting of this parameter must meet the following condition: "INTERFTHRES4" Read & > "INTERFTHRES5". Write
ms
20
20 Cell
None
Read & Write
None
5
5 Cell
None
Read & Write
None
65535
65535 Cell
None
Read & Write
None
2
2 Cell
None
Read & Write
None
2
2 Cell
None
Read & Write
None
2
2 Cell
None
Read & Write
None
2
2 Cell
None
Read & Write
None
0
0 Cell
None
Read & Write
Cell
None
Read & Write
None
NO
NO
None
None
None
NO
NO
36671
2
Cell
36671 Cell
2 Cell
This parameter is valid when "FREQADJ" in the "SET GCELLOTHEXT" command is set to YES.
Read & Write
None
Read & Write
This parameter is valid when "DYNOpenTrxPower" in the "SET GCELLBASICPARA" command is set to YES.
Read & Write
dB
6
6 Cell
None
Read & Write
dB
6
6 Cell
None
Read & Write
55
55 Cell
None
Read & Write
None
None
None
55
NO
None
None
0:00 None
None
dB
None
dB
NO
None
0
YES
YES
20
55 Cell
None
Read & Write
Cell
None
Read & Write
Cell
This parameter is valid when "MAINBCCHPWRDTEN" in the "SET GCELLOTHEXT" command is set to YES.
Read & Write
Cell
This parameter is valid when "MAINBCCHPWRDTEN" in the "SET GCELLOTHEXT" command is set to YES.
Read & Write
0 Cell
This parameter is valid when "MAINBCCHPWRDTEN" in the "SET GCELLOTHEXT" command is set to YES.
Read & Write
Cell
This parameter is valid when "MAINBCCHPWRDTEN" in the "SET GCELLOTHEXT" command is set to YES.
Read & Write
None
Read & Write
20 Cell
None
dB
None
None
1
1 Cell
None
Read & Write
30
30 Cell
None
Read & Write
1
1 Cell
None
Read & Write
Cell
None
Read & Write
OUTDOOR_CE LL OUTDOOR_CELL
dB
6
6 Cell
None
Read & Write
dB
6
6 Cell
None
Read & Write
None
55
55 Cell
None
Read & Write
None
55
55 Cell
None
Read & Write
per mill
40
40 Cell
None
Read & Write
per mill
40
40 Cell
None
Read & Write
per mill
2
2 Cell
None
Read & Write
per mill
4
4 Cell
None
Read & Write
per mill
8
8 Cell
None
Read & Write
per mill
16
16 Cell
None
Read & Write
per mill
32
32 Cell
None
Read & Write
per mill
64
64 Cell
None
Read & Write
per mill
128
128 Cell
None
Read & Write
Cell
None
Read & Write
100 Cell
None
Read & Write
None
NO
None
NO
100
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
None
0
Cell
None
Read & Write
0 Cell
None
Read & Write
None
7_Times
7_Times
Cell
None
Read & Write
None
7_Times
7_Times
Cell
None
Read & Write
None
7_Times
7_Times
Cell
None
Read & Write
None
7_Times
7_Times
Cell
None
Read & Write
None
T_20
T_20
Cell
None
Read & Write
None
T_20
T_20
Cell
None
Read & Write
None
12_level
12_level
Cell
None
Read & Write
None
13_level
13_level
Cell
None
Read & Write
None
14_level
14_level
Cell
None
Read & Write
None
16_level
16_level
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
7
1
7 Cell
GERAN priority must be different from both "UTRANPRI" and "EUTRANPRI".
Read & Write
1 Cell
UTRAN priority must be different from both "GERANPRI" and "EUTRANPRI".
Read & Write
EUTRAN priority must be different from both "GERANPRI" and "UTRANPRI".
Read & Write
None
0
0 Cell
None
15
15 Cell
None
Read & Write
None
0
0 Cell
None
Read & Write
None
20
20 Cell
None
Read & Write
None
20
20 Cell
None
Read & Write
None
9
9 Cell
None
Read & Write
None
20
20 Cell
None
Read & Write
None
20
20 Cell
None
Read & Write
None
9
9 Cell
None
Read & Write
None
0
0 Cell
None
Read & Write
None
0
0 Cell
None
Read & Write
None
2
2 Cell
None
Read & Write
None
0
0 Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
120 Cell
None
Read & Write
ms
120
ms
2000
2000 Cell
None
Read & Write
ms
2400
2400 Cell
None
Read & Write
ms
140
140 Cell
None
Read & Write
None
OFF
DTX
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
Read & Write
None
None
None
Cell
None
NMOII
NMOII
Cell
None
Read & Write
ms
500ms
500ms
Cell
None
Read & Write
ms
500ms
s
None
500ms
4
8BIT
8BIT
Cell
None
Read & Write
4 Cell
None
Read & Write
Cell
None
Read & Write
None
4BURST
None
4BURST
10
Cell
None
Read & Write
10 Cell
None
Read & Write
None
Pan_1
Pan_1
Cell
None
Read & Write
None
Pan_2
Pan_2
Cell
None
Read & Write
None
Pan_20
Pan_20
Cell
None
Read & Write
None
None
NC0
NC0
NO
NO
Cell
Cell
None
Read & Write
None
Read & Write
None
6
6 Cell
None
Read & Write
None
1
1 Cell
None
Read & Write
None
YES
YES
Cell
None
Read & Write
None
NO
NO
Cell
None
Read & Write
None
SEND
None
SEND
1
Cell
If "UPEXTTBFINACTDELAY" in the "SET GCELLPRIVATEOPTPARA" command is set to 0, "EXTUTBFNODATA" must be "SEND". If "UPEXTTBFINACTDELAY" is not set to 0, "EXTUTBFNODATA" can be Read & "SEND" or "NOTSEND". Write
1 Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
30 Cell
None
Read & Write
%
30
None
20
20 Cell
None
Read & Write
None
20
20 Cell
None
Read & Write
None
70
70 Cell
None
Read & Write
None
None
80
CONVERT0
s
None
None
CONVERT0
20
LEVEL0
LEVEL0
2
80 Cell
None
Read & Write
Cell
None
Read & Write
20 Cell
None
Read & Write
Cell
None
Read & Write
0 Cell
None
Read & Write
s
15
15 Cell
None
Read & Write
None
10
10 Cell
None
Read & Write
None
6
6 Cell
None
Read & Write
None
4
4 Cell
None
Read & Write
None
8
8 Cell
None
Read & Write
None
4
4 Cell
None
Read & Write
None
3
3 Cell
None
Read & Write
None
6
6 Cell
None
Read & Write
None
3
3 Cell
None
Read & Write
None
2
2 Cell
None
Read & Write
None
4
4 Cell
None
Read & Write
None
2
2 Cell
None
Read & Write
None
1
1 Cell
None
Read & Write
None
8
8 Cell
None
Read & Write
None
4
4 Cell
None
Read & Write
None
2
2 Cell
None
Read & Write
Cell
None
Read & Write
None
NO
NO
None
None
40
MCS5
40 Cell
MCS5
The value of this parameter must be smaller than or equal to "PDCH Downlink Multiplex Read & Threshold". Write
Cell
None
Read & Write
None
30
30 Cell
None
Read & Write
None
0
0 Cell
None
Read & Write
None
0
0 Cell
None
Read & Write
None
OFF
%
OFF
100
%
10
Cell
None
Read & Write
20 Cell
"Upper Threshold for CS Idle Channel Rate" must be higher than or equal to "Lower Threshold for CS Idle Read & Channel Rate". Write
10 Cell
"Lower Threshold for CS Idle Channel Rate" must be smaller than or equal to "Upper Threshold for CS Idle Channel Rate". When "Upper Threshold for CS Idle Channel Rate" is set Read & to "100", it is invalid. Write
None
NO
NO
Cell
None
Read & Write
None
NO
NO
Cell
None
Read & Write
None
None
80
None
None
80 Cell
None
Read & Write
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
UNFIXED
UNFIXED
Cell
None
Read & Write
None
CS1
CS1
Cell
None
Read & Write
%
5
5 Cell
None
Read & Write
%
2
2 Cell
None
Read & Write
%
2
2 Cell
None
Read & Write
%
10
10 Cell
None
Read & Write
None
Read & Write
%
5
5 Cell
%
5
5 Cell
None
Read & Write
None
UNFIXED
UNFIXED
Cell
None
Read & Write
None
CS2
CS2
Cell
None
Read & Write
%
5
5 Cell
None
Read & Write
%
2
2 Cell
None
Read & Write
%
2
2 Cell
None
Read & Write
%
10
10 Cell
None
Read & Write
%
5
5 Cell
None
Read & Write
%
5
5 Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
None
6
Cell
None
Read & Write
6 Cell
None
Read & Write
None
NO
NO
Cell
None
Read & Write
None
NO
NO
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
NO
NO
Cell
None
Read & Write
None
NO
NO
Cell
None
Read & Write
None
NO
NO
Cell
None
Read & Write
6 Cell
None
Read & Write
None
6
None
16
16 Cell
None
Read & Write
None
650
650 Cell
None
Read & Write
None
NO
NO
Cell
None
Read & Write
None
CLOSE
CLOSE
Cell
None
Read & Write
None
Read & Write
None
SUPPORT
SUPPORT
Cell
None
Support
Support
Cell
None
Read & Write
None
OFF
OFF
Cell
None
Read & Write
None
OFF
OFF
Cell
None
Read & Write
None
NEUTRAL
NEUTRAL
Cell
None
Read & Write
0 Cell
None
Read & Write
None
0
None
None
NOTSUPPORT
RRSCHEDULE
NOTSUPPORT
RRSCHEDULE
Cell
None
Read & Write
Cell
When the value of "Support PS Difference Service" is set to "Support",the value of "MAC Schedule Type" must be set to "Proportion Fair Schedule".
Read & Write
None
10
10 Cell
None
Read & Write
None
50
50 Cell
None
Read & Write
ms
10
10 Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
6
6 Cell
None
Read & Write
None
12
12 Cell
None
Read & Write
None
10
10 Cell
None
Read & Write
None
10
10 Cell
None
Read & Write
dB
DB2
DB2
Cell
None
Read & Write
None
PDCH
PDCH
Cell
None
Read & Write
2 Cell
None
Read & Write
None
2
None
NO
None
10
None
dB
NO
8
DB0
DB0
Cell
None
Read & Write
10 Cell
This parameter is valid only when "Support PS Downlink Read & Power Control" is set to "Yes". Write
8 Cell
This parameter is valid only when "Support PS Downlink Read & Power Control" is set to "Yes". Write
Cell
This parameter is valid only when "Support PS Downlink Read & Power Control" is set to "Yes". Write
dB
3
dB
2
None
1
dB
0.6
3 Cell
This parameter is valid only when "Support PS Downlink Read & Power Control" is set to "Yes". Write
2 Cell
This parameter is valid only when "Support PS Downlink Read & Power Control" is set to "Yes". Write
1 Cell
This parameter is valid only when "Support PS Downlink Read & Power Control" is set to "Yes". Write
0.6 Cell
This parameter is valid only when "Support PS Downlink Read & Power Control" is set to "Yes". Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
Read & Write
None
ms
None
None
5
Cell
5 Cell
This parameter is valid only when "PWRCTRLSW" in "SET GCELLPWRBASIC" is set to PWR2 and "UPPCEN" in "SET GCELLBASICPARA" Read & is set to YES. Write
ms
5
ms
5
ms
None
5
YES
YES
5 Cell
This parameter is valid when "PWRCTRLSW" in the "SET GCELLPWRBASIC" command is set to PWR2 and "DNPCEN" in the "SET GCELLBASICPARA" Read & command is set to YES. Write
5 Cell
This parameter is valid only when "PWRCTRLSW" in "SET GCELLPWRBASIC" is set to PWR2 and "UPPCEN" in "SET GCELLBASICPARA" Read & is set to YES. Write
5 Cell
This parameter is valid when "PWRCTRLSW" in the "SET GCELLPWRBASIC" command is set to PWR2 and "DNPCEN" in the "SET GCELLBASICPARA" Read & command is set to YES. Write
Cell
This parameter is valid when "PWRCTRLSW" in the "SET GCELLPWRBASIC" command is set to PWR2.
Read & Write
None
None
dB
0
0
2
0 Cell
This parameter is valid only when "PWRCTRLSW" in "SET GCELLPWRBASIC" is set to PWR2 and "UPPCEN" in "SET GCELLBASICPARA" Read & is set to YES. Write
0 Cell
This parameter is valid when "PWRCTRLSW" in the "SET GCELLPWRBASIC" command is set to PWR2 and "DNPCEN" in the "SET GCELLBASICPARA" Read & command is set to YES. Write
2 Cell
This parameter is valid when "PWRCTRLSW" in the "SET GCELLPWRBASIC" command is set to PWR2.
Read & Write
dB
dB
dB
dB
dB
None
dB
0
0
2
8
8
3
5
0 Cell
This parameter is valid when "PWRCTRLSW" in the "SET GCELLPWRBASIC" command is set to PWR2.
Read & Write
0 Cell
This parameter is valid when "PWRCTRLSW" in the "SET GCELLPWRBASIC" command is set to PWR2.
Read & Write
2 Cell
This parameter is valid when "PWRCTRLSW" in the "SET GCELLPWRBASIC" command is set to PWR2.
Read & Write
8 Cell
This parameter is valid when "PWRCTRLSW" in the "SET GCELLPWRBASIC" command is set to PWR2.
Read & Write
8 Cell
This parameter is valid when "PWRCTRLSW" in the "SET GCELLPWRBASIC" command is set to PWR2.
Read & Write
3 Cell
This parameter is valid when "PWRCTRLSW" in the "SET GCELLPWRBASIC" command is set to PWR2.
Read & Write
5 Cell
This parameter is valid when "PWRCTRLSW" in the "SET GCELLPWRBASIC" command is set to PWR2.
Read & Write
None
dB
dB
ms
ms
ms
ms
ms
2
10
16
3
5
5
5
5
2 Cell
This parameter is valid when "PWRCTRLSW" in the "SET GCELLPWRBASIC" command is set to PWR2.
Read & Write
10 Cell
This parameter is valid when "PWRCTRLSW" in the "SET GCELLPWRBASIC" command is set to PWR2.
Read & Write
16 Cell
This parameter is valid when "PWRCTRLSW" in the "SET GCELLPWRBASIC" command is set to PWR2.
Read & Write
3 Cell
This parameter is valid when "PWRCTRLSW" in the "SET GCELLPWRBASIC" command is set to PWR2.
Read & Write
5 Cell
This parameter is valid when "PWRCTRLSW" in the "SET GCELLPWRBASIC" command is set to PWR2.
Read & Write
5 Cell
This parameter is valid when "PWRCTRLSW" in the "SET GCELLPWRBASIC" command is set to PWR2.
Read & Write
5 Cell
This parameter is valid when "PWRCTRLSW" in the "SET GCELLPWRBASIC" command is set to PWR2.
Read & Write
5 Cell
This parameter is valid when "PWRCTRLSW" in the "SET GCELLPWRBASIC" command is set to PWR2.
Read & Write
None
None
YES
YES
0
Cell
0 Cell
This parameter is valid when "PWRCTRLSW" in the "SET GCELLPWRBASIC" command is set to PWR2.
Read & Write
This parameter is valid when "PWRCTRLSW" in the "SET GCELLPWRBASIC" command is set to PWR2 and "DNPCEN" in the "SET GCELLBASICPARA" Read & command is set to YES. Write
None
dB
dB
0
30
18
0 Cell
This parameter is valid when "PWRCTRLSW" in the "SET GCELLPWRBASIC" command is set to PWR2 and "DNPCEN" in the "SET GCELLBASICPARA" Read & command is set to YES. Write
30 Cell
This parameter is valid only when "PWRCTRLSW" in "SET GCELLPWRBASIC" is set to PWR2. The following condition must be met: "AMRULSSHTHRED" >= "AMRULSSLTHRED".
Read & Write
18 Cell
This parameter is valid only when "PWRCTRLSW" in "SET GCELLPWRBASIC" is set to PWR2. The following condition must be met: "AMRULSSHTHRED" >= "AMRULSSLTHRED".
Read & Write
None
None
dB
dB
0
3
33
25
0 Cell
This parameter is valid only when "PWRCTRLSW" in "SET GCELLPWRBASIC" is set to PWR2. The following condition must be met: "AMRULQLOWTHRED" >= "AMRULQHTHRED".
Read & Write
3 Cell
This parameter is valid only when "PWRCTRLSW" in "SET GCELLPWRBASIC" is set to PWR2. The following condition must be met: "AMRULQLOWTHRED" >= "AMRULQHTHRED".
Read & Write
33 Cell
This parameter is valid only when "PWRCTRLSW" in "SET GCELLPWRBASIC" is set to PWR2. The following condition must be met: "AMRDLSSHTHRED" >= "AMRDLSSLTHRED".
Read & Write
25 Cell
This parameter is valid only when "PWRCTRLSW" in "SET GCELLPWRBASIC" is set to PWR2. The following condition must be met: "AMRDLSSHTHRED" >= "AMRDLSSLTHRED".
Read & Write
None
None
dB
dB
dB
dB
dB
0
3
2
0
0
4
8
0 Cell
This parameter is valid only when "PWRCTRLSW" in "SET GCELLPWRBASIC" is set to PWR2. The following condition must be met: "AMRDLQLTHRED" >= "AMRDLQHTHRED".
Read & Write
3 Cell
This parameter is valid only when "PWRCTRLSW" in "SET GCELLPWRBASIC" is set to PWR2. The following condition must be met: "AMRDLQLTHRED" >= "AMRDLQHTHRED".
Read & Write
2 Cell
This parameter is valid when "PWRCTRLSW" in the "SET GCELLPWRBASIC" command is set to PWR2.
Read & Write
0 Cell
This parameter is valid when "PWRCTRLSW" in the "SET GCELLPWRBASIC" command is set to PWR2.
Read & Write
0 Cell
This parameter is valid when "PWRCTRLSW" in the "SET GCELLPWRBASIC" command is set to PWR2.
Read & Write
4 Cell
This parameter is valid when "PWRCTRLSW" in the "SET GCELLPWRBASIC" command is set to PWR2.
Read & Write
8 Cell
This parameter is valid when "PWRCTRLSW" in the "SET GCELLPWRBASIC" command is set to PWR2.
Read & Write
dB
8
None
3
dB
6
None
2
dB
8
dB
16
None
1
8 Cell
This parameter is valid when "PWRCTRLSW" in the "SET GCELLPWRBASIC" command is set to PWR2.
Read & Write
3 Cell
This parameter is valid when "PWRCTRLSW" in the "SET GCELLPWRBASIC" command is set to PWR2.
Read & Write
6 Cell
This parameter is valid when "PWRCTRLSW" in the "SET GCELLPWRBASIC" command is set to PWR2.
Read & Write
2 Cell
This parameter is valid when "PWRCTRLSW" in the "SET GCELLPWRBASIC" command is set to PWR2.
Read & Write
8 Cell
This parameter is valid when "PWRCTRLSW" in the "SET GCELLPWRBASIC" command is set to PWR2.
Read & Write
16 Cell
This parameter is valid when "PWRCTRLSW" in the "SET GCELLPWRBASIC" command is set to PWR2.
Read & Write
1 Cell
This parameter is valid only when "SAICALLOWED" in "SET GCELLPWRBASIC" is set to YES.
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
ms
ms
None
None
ms
ms
ms
None
None
5
3
3
1
3
3
3
1
None
Read & Write
5 Cell
This parameter is valid only when "PWRCTRLSW" in "SET GCELLPWRBASIC" is set to PWR3.
Read & Write
3 Cell
This parameter is valid only when "PWRCTRLSW" in "SET GCELLPWRBASIC" is set to PWR3.
Read & Write
3 Cell
This parameter is valid only when "PWRCTRLSW" in "SET GCELLPWRBASIC" is set to PWR3.
Read & Write
1 Cell
This parameter is valid only when "PWRCTRLSW" in "SET GCELLPWRBASIC" is set to PWR3.
Read & Write
3 Cell
This parameter is valid only when "PWRCTRLSW" in "SET GCELLPWRBASIC" is set to PWR3.
Read & Write
3 Cell
This parameter is valid only when "PWRCTRLSW" in "SET GCELLPWRBASIC" is set to PWR3.
Read & Write
3 Cell
This parameter is valid only when "PWRCTRLSW" in "SET GCELLPWRBASIC" is set to PWR3.
Read & Write
1 Cell
This parameter is valid only when "PWRCTRLSW" in "SET GCELLPWRBASIC" is set to PWR3.
Read & Write
Cell
ms
None
None
dB
dB
dB
1
3
6
20
20
16
1 Cell
This parameter is valid only when "PWRCTRLSW" in "SET GCELLPWRBASIC" is set to PWR3.
Read & Write
3 Cell
This parameter is valid only when "PWRCTRLSW" in "SET GCELLPWRBASIC" is set to PWR3.
Read & Write
6 Cell
This parameter is valid only when "PWRCTRLSW" in "SET GCELLPWRBASIC" is set to PWR3.
Read & Write
20 Cell
This parameter is valid only when "PWRCTRLSW" in "SET GCELLPWRBASIC" is set to PWR3. The following condition must be met: "DLREXLEVHIGHTHRED" >= Read & "DLREXLEVLOWTHRED". Write
20 Cell
This parameter is valid only when "PWRCTRLSW" in "SET GCELLPWRBASIC" is set to PWR3. The following condition must be met: "DLREXLEVHIGHTHRED" >= Read & "DLREXLEVLOWTHRED". Write
16 Cell
This parameter is valid only when "PWRCTRLSW" in "SET GCELLPWRBASIC" is set to PWR3. The following condition must be met: "DLFSREXQUALHIGHTHRE D" >= "DLFSREXQUALLOWTHRE Read & D". Write
dB
dB
dB
dB
dB
16
18
18
14
14
16 Cell
This parameter is valid only when "PWRCTRLSW" in "SET GCELLPWRBASIC" is set to PWR3. The following condition must be met: "DLFSREXQUALHIGHTHRE D" >= "DLFSREXQUALLOWTHRE Read & D". Write
18 Cell
This parameter is valid only when "PWRCTRLSW" in "SET GCELLPWRBASIC" is set to PWR3. The following condition must be met: "DLHSREXQUALHIGHTHRE D" >= "DLHSREXQUALLOWTHRE Read & D". Write
18 Cell
This parameter is valid only when "PWRCTRLSW" in "SET GCELLPWRBASIC" is set to PWR3. The following condition must be met: "DLHSREXQUALHIGHTHRE D" >= "DLHSREXQUALLOWTHRE Read & D". Write
14 Cell
This parameter is valid only when "PWRCTRLSW" in "SET GCELLPWRBASIC" is set to PWR3. The following condition must be met: "DLAFSREXQUALHIGHTHR ED" >= "DLAFSREXQUALLOWTHRE Read & D". Write
14 Cell
This parameter is valid only when "PWRCTRLSW" in "SET GCELLPWRBASIC" is set to PWR3. The following condition must be met: "DLAFSREXQUALHIGHTHR ED" >= "DLAFSREXQUALLOWTHRE Read & D". Write
dB
dB
dB
dB
ms
ms
16
16
4
8
3
3
16 Cell
This parameter is valid only when "PWRCTRLSW" in "SET GCELLPWRBASIC" is set to PWR3. The following condition must be met: "DLAHSREXQUALHIGHTHR ED" >= "DLAFSREXQUALLOWTHRE Read & D". Write
16 Cell
This parameter is valid only when "PWRCTRLSW" in "SET GCELLPWRBASIC" is set to PWR3. The following condition must be met: "DLAHSREXQUALHIGHTHR ED" >= "DLAFSREXQUALLOWTHRE Read & D". Write
4 Cell
This parameter is valid only when "PWRCTRLSW" in "SET GCELLPWRBASIC" is set to PWR3.
Read & Write
8 Cell
This parameter is valid only when "PWRCTRLSW" in "SET GCELLPWRBASIC" is set to PWR3.
Read & Write
3 Cell
This parameter is valid only when "PWRCTRLSW" in "SET GCELLPWRBASIC" is set to PWR3.
Read & Write
3 Cell
This parameter is valid only when "PWRCTRLSW" in "SET GCELLPWRBASIC" is set to PWR3.
Read & Write
ms
ms
None
None
dB
dB
1
1
3
6
18
18
1 Cell
This parameter is valid only when "PWRCTRLSW" in "SET GCELLPWRBASIC" is set to PWR3.
Read & Write
1 Cell
This parameter is valid only when "PWRCTRLSW" in "SET GCELLPWRBASIC" is set to PWR3.
Read & Write
3 Cell
This parameter is valid only when "PWRCTRLSW" in "SET GCELLPWRBASIC" is set to PWR3.
Read & Write
6 Cell
This parameter is valid only when "PWRCTRLSW" in "SET GCELLPWRBASIC" is set to PWR3.
Read & Write
18 Cell
This parameter is valid only when "PWRCTRLSW" in "SET GCELLPWRBASIC" is set to PWR3. The following condition must be met: "ULREXLEVHIGHTHRED" >= Read & "ULREXLEVLOWTHRED". Write
18 Cell
This parameter is valid only when "PWRCTRLSW" in "SET GCELLPWRBASIC" is set to PWR3. The following condition must be met: "ULREXLEVHIGHTHRED" >= Read & "ULREXLEVLOWTHRED". Write
dB
dB
dB
dB
dB
16
16
18
18
14
16 Cell
This parameter is valid only when "PWRCTRLSW" in "SET GCELLPWRBASIC" is set to PWR3. The following condition must be met: "ULFSREXQUALHIGHTHRE D" >= "ULFSREXQUALLOWTHRE Read & D". Write
16 Cell
This parameter is valid only when "PWRCTRLSW" in "SET GCELLPWRBASIC" is set to PWR3. The following condition must be met: "ULFSREXQUALHIGHTHRE D" >= "ULFSREXQUALLOWTHRE Read & D". Write
18 Cell
This parameter is valid only when "PWRCTRLSW" in "SET GCELLPWRBASIC" is set to PWR3. The following condition must be met: "ULHSREXQUALHIGHTHRE D" >= "ULHSREXQUALLOWTHRE Read & D". Write
18 Cell
This parameter is valid only when "PWRCTRLSW" in "SET GCELLPWRBASIC" is set to PWR3. The following condition must be met: "ULHSREXQUALHIGHTHRE D" >= "ULHSREXQUALLOWTHRE Read & D". Write
14 Cell
This parameter is valid only when "PWRCTRLSW" in "SET GCELLPWRBASIC" is set to PWR3. The following condition must be met: "ULAFSREXQUALHIGHTHR ED" >= "ULAFSREXQUALLOWTHRE Read & D". Write
dB
dB
dB
dB
dB
None
14
16
16
6
8
3
14 Cell
This parameter is valid only when "PWRCTRLSW" in "SET GCELLPWRBASIC" is set to PWR3. The following condition must be met: "ULAFSREXQUALHIGHTHR ED" >= "ULAFSREXQUALLOWTHRE Read & D". Write
16 Cell
This parameter is valid only when "PWRCTRLSW" in "SET GCELLPWRBASIC" is set to PWR3. The following condition must be met: "ULAHSREXQUALHIGHTHR ED" >= "ULAHSREXQUALLOWTHR Read & ED". Write
16 Cell
This parameter is valid only when "PWRCTRLSW" in "SET GCELLPWRBASIC" is set to PWR3. The following condition must be met: "ULAHSREXQUALHIGHTHR ED" >= "ULAHSREXQUALLOWTHR Read & ED". Write
6 Cell
This parameter is valid only when "PWRCTRLSW" in "SET GCELLPWRBASIC" is set to PWR3.
Read & Write
8 Cell
This parameter is valid only when "PWRCTRLSW" in "SET GCELLPWRBASIC" is set to PWR3.
Read & Write
3 Cell
This parameter is valid only when "PWRCTRLSW" in "SET GCELLPWRBASIC" is set to PWR3.
Read & Write
None
None
NO
NO
None
NO
3
None
3
None
6
None
75
None
5
None
None
NO
55
ON
ON
Cell
This parameter is valid only when "PWRCTRLSW" in "SET GCELLPWRBASIC" is set to PWR3.
Read & Write
Cell
This parameter is valid only when "PWRCTRLSW" in "SET GCELLPWRBASIC" is set to PWR3.
Read & Write
3 Cell
This parameter is valid only when "PWRCTRLOPTIMIZEDEN" is set to YES.
Read & Write
3 Cell
This parameter is valid only when "PWRCTRLOPTIMIZEDEN" is set to YES.
Read & Write
6 Cell
This parameter is valid only when "PWRCTRLOPTIMIZEDEN" is set to YES.
Read & Write
75 Cell
This parameter is valid only when "PWRCTRLOPTIMIZEDEN" is set to YES.
Read & Write
5 Cell
This parameter is valid only when "PWRCTRLOPTIMIZEDEN" is set to YES.
Read & Write
55 Cell
This parameter is valid only when "PWRCTRLOPTIMIZEDEN" is set to YES.
Read & Write
Cell
This parameter is valid only when "PWRCTRLSW" in "SET GCELLPWRBASIC" is set to PWR3.
Read & Write
None
ON
ON
Cell
This parameter is valid only when "PWRCTRLSW" in "SET GCELLPWRBASIC" is set to PWR3.
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
3 Cell
This parameter is valid when "PWRCTRLSW" in the "SET GCELLPWRBASIC" command is set to PWR2.
Read & Write
30 Cell
This parameter is valid only when "PWRCTRLSW" in "SET GCELLPWRBASIC" is set to PWR2. The following condition must be met: "ULSSHIGHTHRED" >= "ULSSLOWTHRED".
Read & Write
18 Cell
This parameter is valid only when "PWRCTRLSW" in "SET GCELLPWRBASIC" is set to PWR2. The following condition must be met: "ULSSHIGHTHRED" >= "ULSSLOWTHRED".
Read & Write
0 Cell
This parameter is valid only when "PWRCTRLSW" in "SET GCELLPWRBASIC" is set to PWR2. The following condition must be met: "ULQLOWTHRED" >= "ULQHIGHTHRED".
Read & Write
ms
dB
dB
None
3
30
18
0
Read & Write
None
dB
dB
None
3
45
28
0
3 Cell
This parameter is valid only when "PWRCTRLSW" in "SET GCELLPWRBASIC" is set to PWR2. The following condition must be met: "ULQLOWTHRED" >= "ULQHIGHTHRED".
Read & Write
45 Cell
This parameter is valid only when "PWRCTRLSW" in "SET GCELLPWRBASIC" is set to PWR2. The following condition must be met: "DLSSHIGHTHRED" >= "DLSSLOWTHRED".
Read & Write
28 Cell
This parameter is valid only when "PWRCTRLSW" in "SET GCELLPWRBASIC" is set to PWR2. The following condition must be met: "DLSSHIGHTHRED" >= "DLSSLOWTHRED".
Read & Write
0 Cell
This parameter is valid only when "PWRCTRLSW" in "SET GCELLPWRBASIC" is set to PWR2. The following condition must be met: "DLQLOWTHRED" >= "DLQHIGHTHRED".
Read & Write
None
None
2
PWR3
None
None
dB
0
NO
45
Read & Write
Cell
None
Read & Write
0 Cell
None
Read & Write
2 Cell
PWR3
NO
This parameter is valid only when "PWRCTRLSW" in "SET GCELLPWRBASIC" is set to PWR2. The following condition must be met: "DLQLOWTHRED" >= "DLQHIGHTHRED".
Cell
45 Cell
Read & None Write This parameter is valid only when "PWRBCDALLOWD" is Read & set to YES. Write
dB
30
30 Cell
dB
79
79 Cell
This parameter is valid only when "PWRBCDALLOWD" is set to YES. This parameter is valid only when "PWRBCDALLOWD" is set to YES.
30 Cell
This parameter is valid only when "PWRBCDALLOWD" is Read & set to YES. Write
dB
30
Read & Write Read & Write
dB
30
30 Cell
This parameter is valid only when "PWRBCDALLOWD" is Read & set to YES. Write
None
NO
NO
Cell
This parameter is valid only when "PWRBCDALLOWD" is Read & set to YES. Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
1 BTS
None
Read & Write
Cell
None
Read & Write
0 Cell
None
Read & Write
None
None
1
NO
None
NO
0
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
None
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
dB
2dB
2dB
Cell
None
Read & Write
None
C31STANDARD C31STANDARD
Cell
None
Read & Write
0 Cell
None
Read & Write
None
Read & Write
None
None
0
YES
YES
Cell
s
10sec
10sec
Cell
None
Read & Write
dB
2dB
2dB
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
Cell
None
Read & Write
65535 Cell
None
Read & Write
None
None
None
None
65535
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
NO
NO
Cell
None
Read & Write
None
None
LAC_CI
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
ENGLISH
Cell
None
Read & Write
None
Cell name
None
Cell
None
Read & Write
60 Cell
None
Read & Write
s
60
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
Permit
Permit
Cell
None
Read & Write
None
NoExclusive
NoExclusive
Cell
None
Read & Write
None
2
2 Cell
None
Read & Write
None
2
2 Cell
None
Read & Write
None
2
2 Cell
None
Read & Write
dB
DB110
DB110
Cell
None
Read & Write
None
REPORT6
REPORT6
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
min
None
15
NO
NO
15 Cell
None
Read & Write
Cell
None
Read & Write
None
1
1 Cell
None
Read & Write
None
1
1 Cell
None
Read & Write
None
1
1 Cell
None
Read & Write
None
1
1 Cell
None
Read & Write
None
1
1 Cell
None
Read & Write
None
1
1 Cell
None
Read & Write
None
1
1 Cell
None
Read & Write
None
1
1 Cell
None
Read & Write
None
1
1 Cell
None
Read & Write
None
1
1 Cell
None
Read & Write
None
1
1 Cell
None
Read & Write
None
1
1 Cell
None
Read & Write
None
1
1 Cell
None
Read & Write
None
1
1 Cell
None
Read & Write
None
1
1 Cell
None
Read & Write
None
1
1 Cell
None
Read & Write
None
1
1 Cell
None
Read & Write
None
1
1 Cell
None
Read & Write
None
MaximumMeanV alue MaximumMeanValue
Cell
None
Read & Write
None
NO
NO
Cell
None
Read & Write
None
YES
YES
Cell
None
Read & Write
Cell
This parameter is valid when "FLEXABISMODE" in the "MOD BTS" command is set to YES.
Read & Write
None
NO
NO
None
NO
NO
Cell
This parameter is valid when "FLEXABISMODE" in the "MOD BTS" command is set to YES.
None
YES
YES
Cell
None
Read & Write
None
INTBANII
INTBANII
Cell
None
Read & Write
None
OPEN
OPEN
Cell
None
Read & Write
Read & Write
ms
2
2 Cell
None
Read & Write
None
5
5 Cell
None
Read & Write
None
OFF
OFF
Cell
None
Read & Write
None
OFF
OFF
Cell
None
Read & Write
None
NO
None
180
None
None
NO
220
NO
NO
Cell
None
Read & Write
180 Cell
This parameter is valid when "ALLOWG2FLOWCTRALGL" in the "SET BSCFCPARA" Read & command is set to YES. Write
220 Cell
This parameter is valid when "ALLOWG2FLOWCTRALGL" in the "SET BSCFCPARA" Read & command is set to YES. Write
Cell
None
Read & Write
None
NO
NO
Cell
None
Read & Write
None
NO
NO
Cell
None
Read & Write
None
OFF
OFF
Cell
None
Read & Write
60 Cell
None
Read & Write
s
60
None
OFF
OFF
Cell
None
Read & Write
None
OFF
OFF
Cell
None
Read & Write
None
OFF
OFF
Cell
None
Read & Write
None
NO
NO
Cell
None
Read & Write
55 Cell
None
Read & Write
None
55
s
3
3 Cell
None
Read & Write
None
DISABLE
DISABLE
Cell
None
Read & Write
None
ALLPwrLoc
ALLPwrLoc
Cell
None
Read & Write
None
NO
For the doubletransceiver BTS and NGBTS, the default value is NO; for other BTS, this parameter is invalid. Cell
None
Read & Write
None
NO
NO
None
Read & Write
OFF
For the doubletransceiver BTS and NGBTS, the default value is ON; for other BTS, the default value is OFF. Cell
None
Read & Write
None
Cell
None
None
NO
NO
CA_MA
CA_MA
None
Read & Write
Cell
None
Read & Write
Cell
None
1
1 Cell
None
Read & Write
None
1
1 Cell
None
Read & Write
None
1
1 Cell
None
Read & Write
None
4
4 Cell
None
Read & Write
None
NO
NO
Cell
None
Read & Write
None
NO
NO
Cell
None
Read & Write
ms
None
255
DISABLE
DISABLE
255 Cell
None
Read & Write
Cell
None
Read & Write
This parameter is valid when "TCMUTEDETECTFLAG" is set to YES.
Read & Write
None
Read & Write
This parameter is valid when "TCMUTEDETECTFLAG" is set to YES.
Read & Write
s
5
5 Cell
%
25
25 Cell
None
DISABLE
DISABLE
Cell
s
2
2 Cell
None
Read & Write
s
4
4 Cell
None
Read & Write
min
0
0 Cell
None
Read & Write
None
NO
NO
Cell
None
Read & Write
None
NO
NO
Cell
None
Read & Write
None
OFF
OFF
Cell
None
Read & Write
%
100
100 Cell
None
Read & Write
%
0
0 Cell
None
Read & Write
s
None
None
NO
10
10 Cell
None
Read & Write
1
1 Cell
None
Read & Write
Cell
None
Read & Write
NO
None
MSC_STRATEG Y MSC_STRATEGY
Cell
None
Read & Write
None
OFF
OFF
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
20 Cell
None
Read & Write
None
20
None
3
3 Cell
None
Read & Write
None
10
10 Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
None
None
Read & Write
None
None
None
None
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
None
None
Read & Write
None
None
None
None
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
ms
3000
3000 Cell
None
Read & Write
ms
5000
5000 Cell
None
Read & Write
ms
10000
10000 Cell
None
Read & Write
None
Read & Write
ms
10000
10000 Cell
ms
10000
10000 Cell
None
Read & Write
ms
10000
10000 Cell
None
Read & Write
ms
10000
10000 Cell
None
Read & Write
ms
10000
10000 Cell
None
Read & Write
ms
27000
27000 Cell
None
Read & Write
ms
1000
1000 Cell
None
Read & Write
ms
15000
15000 Cell
None
Read & Write
10
10 Cell
None
Read & Write
s
ms
34000
34000 Cell
None
Read & Write
ms
26000
26000 Cell
None
Read & Write
8
8 Cell
None
Read & Write
None
Read & Write
s
s
8
8 Cell
s
ms
ms
15 In Abis over TDM transmission, the recommended value is 180; in Abis over IP transmission, the recommended value is 180 200.
5000 None
15 Cell
None
Read & Write
Cell
None
Read & Write
Cell
None
Read & Write
None
None
None
BSC
None
Read & Write
None
None
None
SCCP
None
Read & Write
None
None
None
BSC
None
Read & Write
None
None
None
BSC
None
Read & Write
1800 MSC
None
Read & Write
None
1800
None
None
None
MSC
None
Read & Write
None
NORMAL
NORMAL
MSC
None
Read & Write
None
NONSUPPORT NONSUPPORT
MSC
None
Read & Write
None
YES
MSC
None
Read & Write
15 MSC
None
Read & Write
s
YES
15
None
ON
None
None
None
None
BSC6900
None
Read & Write
1 BSC6900
None
Read & Write
BSC6900
This parameter is required when "Default DPC" is set to NO.
Read & Write
NO
BSC6900
This parameter is required when "Trunking MSC" is set to YES.
Read & Write
TDM
Transmissi on resource group None
ON
1
NO
NO
TDM
NO
Read & Write
None
NO
NO
MSC
When the parameter "Bearer for A Interface User Plane" is set to "IP" or "TDM_IP", this parameter must be set to Read & "YES". Write
None
None
None
BSC
None
Read & Write
None
None
None
BSC
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
NOTSPPRTBC
NOTSPPRTBC
BSC
None
Read & Write
None
NO
NO
BSC
None
Read & Write
None
NO
NO
BSC
None
Read & Write
1 BSC
None
Read & Write
MSC
None
Read & Write
None
None
1
RANDOMALG
RANDOMALG
s
5
5 BSC
This parameter is valid when "MSCPOOLALLOW" is set to Read & YES. Write
min
5
5 BSC
This parameter is valid when "MSCPOOLALLOW" is set to Read & YES. Write
None
0
0 BSC
None
Read & Write
BSC
None
Read & Write
1 BSC
This parameter is valid when "SGSNPOOLALLOW" is set to YES.
Read & Write
0 BSC
This parameter is valid when "SGSNPOOLALLOW" is set to YES.
Read & Write
None
Read & Write
None
Read & Write
None
NO
None
1
None
None
None
NO
0
None
ON
None
ON
BSC
BSC
None
None
None
BSC
None
Read & Write
None
CALL
CALL
BSC
None
Read & Write
None
ABNORMREC
ABNORMREC
BSC
None
OFF
ON
BSC
This parameter is valid only when "CHR Output Mode" is set to "Common User Mode". This parameter is valid only when "CHR Output Mode" is set to "Common User Mode".
None
OFF
OFF
BSC
None
Read & Write Read & Write
Read & Write
None
None
BSC
This parameter is valid only when "CHR Output Mode" is Read & set to "Common User Mode". Write
None
RESINSUFF,UM ABNORM,TRAF RESINSUFF,UMABNOR FREJECT,MSC M,TRAFFREJECT,MSC REL REL BSC
This parameter is valid only when "CHR Output Mode" is Read & set to "Common User Mode". Write
None
None
None
5
OFF
5 BSC
OFF
BSC
None
OFF
OFF
BSC
None
OFF
OFF
BSC
None
OFF
OFF
BSC
This parameter is valid only when "CHR Output Mode" is set to "Common User Mode". This parameter is valid only when "CHR Output Mode" is set to "Common User Mode".
This parameter is valid only when "CHR Output Mode" is set to "Common User Mode". This parameter is valid only when "CHR Output Mode" is set to "Specified User Mode". This parameter is valid only when "CHR Output Mode" is set to "Specified User Mode".
Read & Write Read & Write
Read & Write Read & Write Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
OFF
OFF
None
None
Read & Write
None
None
None
BSC
None
Read & Write
None
None
None
BSC
None
Read & Write
None
None
None
BSC
None
Read & Write
None
None
None
BSC
None
Read & Write
None
None
None
BSC
None
Read & Write
None
None
None
BSC
None
Read & Write
None
None
None
None
None
30 None
None
None
Read & Write Read & Write
min
None
None
None
BSC
None
Read & Write
None
None
None
BSC
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
NO
NO
Cell
None
Read & Write
None
None
dB
3
Prior-1
Prior-1
25
3 Cell
There are four network layers, that is, layer 1 to layer 4. A lower layer No. indicates a higher priority. The cell priority is determined by both the network layer and the Read & "PRIOR" parameter. Write
Cell
This parameter, together with "LAYER", determines the Read & priority of the cell. Write
25 Cell
None
Read & Write
dB
30
30 Cell
None
Read & Write
s
40
40 Cell
None
Read & Write
dB
10
10 Cell
None
Read & Write
s
10
10 Cell
None
Read & Write
dB
63
63 Cell
None
Read & Write
68 Cell
This parameter is valid only when "QUICKHOEN" in "SET GCELLHOBASIC" is set to Read & YES. Write
dB
None
68
NO
NO
Cell
None
Read & Write
%
80
80 Cell
When the cell is a 2G external cell, this parameter is valid only when the "" OutBscLoadHoEn"" parameter regarding the "SET GCELLHOAD" command is set to YES. When the cell is a 3G external cell, this parameter is valid only when either of the following conditions is met: 1. The ""INTERRATOUTBSCHOEN" " parameter regarding the "SET GCELLHOBASIC" is set to YES and the ""OutSysLoadHoEn "" parameter regarding the "SET GCELLHOINTERRATLDB" command is set to YES. 2. The ""InterRatServiceLoadHoSwit ch"" parameter is not set to OFF. When the cell is under the BSC, this parameter is valid only when the ""LoadHoEn"" parameter regarding the "SET GCELLHOBASIC" Read & command is set to YES. Write
None
NO
NO
Cell
None
Read & Write
None
YES
YES
Cell
None
Read & Write
None
YES
YES
Cell
None
Read & Write
0 Cell
None
Read & Write
None
Read & Write
None
None
0
None
None
Cell
None
None
None
BSC
None
Read & Write
None
None
None
BSC
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
BSC
None
Read & Write
None
None
None
BSC
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
Read & Write
3 Cell
None
Read & Write
Cell
None
Read & Write
0 Cell
None
Read & Write
None
Read & Write
None
255
None
3
None
None
None
None
None
None
255 BSC
None
None
Cell
None
None
None
None
None
None
Read & Write
Cell
None
Cell
This parameter is valid only when "UTRANCELLTYPE" is Read & set to TDD. Write
dB
30
30 Cell
None
Read & Write
dB
10
10 Cell
None
Read & Write
dB
10
10 Cell
None
Read & Write
None
10
10 Cell
None
Read & Write
None
10
10 Cell
None
Read & Write
dB
30
30 Cell
None
Read & Write
10 Cell
A 3G cell can be added into the candidate cell queue when the following conditions are met: "INTERRATOUTBSCHOEN" is set to YES; "BET3GHOEN" is set to YES; the RSCP of the 3G cell for a period of time is greater than the sum of "HORSCPTH3G" and Read & "RSCPOFF". Write
dB
10
None
NO
%
None
80
None
None
None
None
NO
80 Cell
None
0
None
None
Cell
None
None
None
Read & Write
When the cell is a 2G external cell, this parameter is valid only when the "" OutBscLoadHoEn"" parameter regarding the "SET GCELLHOAD" command is set to YES. When the cell is a 3G external cell, this parameter is valid only when either of the following conditions is met: 1. The ""INTERRATOUTBSCHOEN" " parameter regarding the "SET GCELLHOBASIC" is set to YES and the ""OutSysLoadHoEn "" parameter regarding the "SET GCELLHOINTERRATLDB" command is set to YES. 2. The ""InterRatServiceLoadHoSwit ch"" parameter is not set to OFF. When the cell is under the BSC, this parameter is valid only when the ""LoadHoEn"" parameter regarding the "SET GCELLHOBASIC" Read & command is set to YES. Write
None
Read & Write
0 Cell
None
Read & Write
Cell
None
Read & Write
None
Read & Write
BSC
Cell
None
None
None
BSC
None
Read & Write
None
None
None
BSC
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
0 Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
BSC
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
BSC
None
Read & Write
None
None
None
BSC
None
Read & Write
None
None
None
BSC
None
Read & Write
None
None
NOTSUPPORT
BSC
None
Read & Write
None
None
None
SCCP
None
Read & Write
s
s
s
s
300
280
20
30
300 BSC
Timer of MS Location Response from MS
280 BSC
Timer of MS Location Response from MS
20 BSC
Lb Congestion Protection Timer 1
Read & Write
30 BSC
Lb Congestion Protection Timer 1
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
BSC
None
Read & Write
None
None
None
BSC
None
Read & Write
None
None
None
BSC
None
Read & Write
None
None
None
BSC
None
Read & Write
None
None
None
BSC
None
None
None
BSC
Read & None Write This parameter is required when the Connection Type is Read & Internal RNC. Write
None
None
None
BSC
None
None
None
BSC
This parameter is required when the Connection Type is Internal RNC. This parameter is required when the Connection Type is Internal RNC.
None
None
None
BSC6900
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
Read & Write Read & Write
None
None
None
Cell
None
Read & Write
None
SUPPORT
SUPPORT
Cell
None
Read & Write
None
UNSUPPORT
UNSUPPORT
Cell
None
Read & Write
None
UNSUPPORT
UNSUPPORT
Cell
None
Read & Write
None
None
255 None
None
None
4
None
None
None
1
None
Cell
If this parameter is not set to 255, all neighboring EUTRAN cells on the same frequency have the same "NCELLPRI". The value of this parameter, "NCELLPRI" of all neighboring GSM cells and neighboring UTRAN cells, "GERANPRI" of the serving cell, and "UTRANPRI" of the serving cell must not be of the Read & same value. Write
BSC
None
Read & Write
4 BSC
None
Read & Write
None
Read & Write
None
Read & Write
1 BSC
BYCELLID
None
None
None
None
BTS
None
Read & Write
None
None
None
Cell
None
Read & Write
None
OFF
OFF
None
None
Read & Write
None
None
None
BSC
None
Read & Write
None
None
None
None
None
Read & Write
None
None
None
BSC
None
Read & Write
None
None
None
SCCP
None
Read & Write
None
None
None
BSC
None
Read & Write
None
NO
NO
BSC
s
3
3 BSC
Read & None Write Set when Allow Common Measurement at Iur-g is set to Read & Yes Write
None
NO
NO
BSC
None
Read & Write
None
NO
NO
BSC
None
Read & Write
None
CELLCAPCLAS S CELLCAPCLASS
BSC
Set when Allow Info Exchange at Iur-g is set to Yes
Read & Write
s
30
30 BSC
Set when Allow Common Measurement at Iur-g is set to Yes or Allow Info Exchange at Read & Iur-g is set to Yes Write
s
15
15 BSC
None
Read & Write
None
None
None
None
None
Read & Write
None
None
None
Board
None
Read & Write
min
10
10 None
None
Read & Write
min
1
1 None
None
Read & Write
None
DEG
DEG
None
None
Read & Write
None
MET
MET
None
None
Read & Write
Read & Write
degree
None
None
None
None
degree
None
None
None
None
m
None
None
BSC6900
None
Read & Write Read & Write
Read & Write
SEC
None
None
None
None
SEC
None
None
None
None
feet
None
None
BSC6900
None
Read & Write Read & Write
min
None
None
None
None
Read & Write
min
None
None
None
None
Read & Write
None
Read & Write
None
None
ON
BSC
None
None
None
BSC
None
ON
ON
BSC
None
OFF
OFF
BSC
This parameter is valid only when "PSRCDSW" is set to on. This parameter is valid only when "PS CHR Record Switch" is set to "on". This parameter is valid only when "PS CHR Record Switch" is set to "on".
Read & Write Read & Write Read & Write
None
When "Mode Control" is set to "Common User Mode", the default value is "OFF"; when "Mode Control" is set to "Specified User Mode", the default value is "ON".
When "Mode Control" is set to "Common User Mode", the recommended value is "OFF"; when "Mode Control" is set to "Specified User Mode", the recommended value is "ON".
BSC
This parameter is valid only when "PS CHR Record Switch" is set to "on".
Read & Write
BSC
This parameter is valid only when "PS CHR Record Switch" is set to "on".
Read & Write
Read & Write
None
ON
ON
None
When "Mode Control" is set to "Common User Mode", the default value is "OFF"; when "Mode Control" is set to "Specified User Mode", the default value is "ON".
When "Mode Control" is set to "Common User Mode", the recommended value is "OFF"; when "Mode Control" is set to "Specified User Mode", the recommended value is "ON".
BSC
This parameter is valid only when "PS CHR Record Switch" is set to "on".
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
OFF
OFF
BSC
None
Read & Write
None
None
None
BSC
None
Read & Write
None
None
None
Subsystem None
Read & Write
Cell
None
Read & Write
600 None
Cell
None
Read & Write
None
REHOSTDELAY REHOSTDELAY
s
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
LAC_CI
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
None
ENGLISH
None
Read & Write
Cell
None
Cell
The maximum length of this parameter is decided by "SCHEME": When "SCHEME" is set to BINARY, the length of this parameter should not extend 2462 bytes; otherwise, the length should not extend Read & 1395 bytes. Write
Cell
None
Read & Write
60 Cell
None
Read & Write
None
Cell
None
Read & Write
None
None
Cell
None
Read & Write
None
None
None
TRX
None
Read & Write
None
None
None
TRX
None
Read & Write
None
None
s
None
None
None
None
None
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
Read & Write
None
None
None
Cell
None
NO
NO
TRX
None
Read & Write
None
None
None
TRX
None
Read & Write
None
None
None
TRX
None
Read & Write
None
Unlock
Unlock
TRX
None
Read & Write
None
None
None
TRX
None
Read & Write
None
8
8 TRX
None
Read & Write
None
32
32 TRX
None
Read & Write
TRX
None
Read & Write
None
None
None
None
None
None
BTS
None
Read & Write
None
None
None
TRX
None
Read & Write
None
None
None
Physical channel
None
Read & Write
None
TCHFR
TCHFR
Physical channel
None
Read & Write
None
NONGPRS
None
NONGPRS
0
Physical channel
None
Read & Write
Physical 0 channel
None
Read & Write
None
None
None
TRX
None
Read & Write
None
None
None
Physical channel
None
Read & Write
None
Read & Write
None
Unlock
Unlock
Current BFD session
None
None
None
TRX
None
Read & Write
None
None
None
Physical channel
None
Read & Write
None
255
None
None
0 None
None
None
Physical 255 channel
None
Read & Write
Physical channel
None
Read & Write
TRX
None
Read & Write
None
None
0
DEFAULT
None
0 TRX
None
Read & Write
TRX
None
Read & Write
None
L0
L0
TRX
This parameter is valid only when "TRXPRIALLOW" is set Read & to YES. Write
None
ENABLE
ENABLE
TRX
None
Read & Write
None
NO
NO
TRX
None
Read & Write
0 TRX
None
Read & Write
TRX
None
Read & Write
dB
None
0
Default
Default
None
if TRX of Board type is TRU, QTRU the recommended value is "INDEPENDENT". if TRX of Board type is MRRU, GRRU, BTS3900B, DRFU, DRRU the recommended value is INDEPENDENT "MAINDIVERSITY". TRX
None
Read & Write
None
if TRX of Board type is TRU, QTRU, MRRU, GRRU the recommended value is "NOCOMB". if TRX of Board type is BTS3900B, DRFU, DRRU the recommended value is "DTIC". TRX
None
Read & Write
NO
This parameter is valid only when "BSCDynSwitchTrxPAAllow" in "SET BSCDSTPA" and "DYNOpenTrxPower" in "SET GCELLBASICPARA" are set to YES.
Read & Write
None
Read & Write
None
W
NOCOMB
NO
TRX
If the board is configured with two to four TRXs, the recommended value of this parameter is 20. If the board is configured with five TRXs, the recommended value of this parameter is 50. If the board is configured with six TRXs, the recommended value of 20 this parameter is 48. TRX
None
None
LOOSE
LOOSE
L0
L0
Read & Write
TRX
None
TRX
This parameter is valid only when "BSCDynSwitchTrxPAAllow" in "SET BSCDSTPA","DYNOpenTrxP ower" in "SET GCELLBASICPARA" and Read & "CPS" are set to YES. Write
W
15
15 TRX
None
Read & Write
W
8
8 TRX
None
Read & Write
dB
0
0 TRX
None
Read & Write
dB
0
0 TRX
None
Read & Write
None
None
None
TRX
None
Read & Write
%
90
90 TRX
None
Read & Write
%
80
80 TRX
None
Read & Write
%
85
85 TRX
None
Read & Write
%
55
75 TRX
None
Read & Write
TRX
None
Read & Write
None
None
None
None
NO_FH
NO_FH
TRX
This parameter depends on "FHMODE" in "SET GCELLHOPTP". This parameter can be set to BaseBand_FH only when "FHMODE" is set to BaseBand_FH or Hybrid_FH. This parameter can be set to RF_FH only when "FHMODE" Read & is set to RF_FH or Hybrid_FH. Write
None
None
None
TRX
None
Read & Write
Read & Write
None
NONE
NONE
TRX
This parameter is valid only when "IUOTP" in "MOD GCELL" is set to Concentric_cell.
None
None
None
TRX
None
Read & Write
None
NO
NO
TRX
None
Read & Write
None
100
%
100
%
50
min
None
min
h
48
NO
NO
100 TRX
This parameter is valid only when "WLNKALMFLAG" is set to YES.
Read & Write
100 TRX
This parameter is valid only when "WLNKALMFLAG" is set to YES.
Read & Write
50 TRX
This parameter is valid only when "WLNKALMFLAG" is set to YES.
Read & Write
48 TRX
This parameter is valid only when "WLNKALMFLAG" is set to YES.
Read & Write
TRX
This parameter is valid only when "WLNKALMFLAG" is set to YES.
Read & Write
12
12 TRX
8
8 TRX
This parameter is valid only when "WLNKALMFLAG" is set to YES. This parameter is valid only when "WLNKALMFLAG" is set to YES.
Read & Write Read & Write
h
22
None
8
None
30
%
80
22 TRX
This parameter is valid only when "WLNKALMFLAG" is set to YES.
Read & Write
8 TRX
This parameter is valid only when "WLNKALMFLAG" is set to YES.
Read & Write
30 TRX
This parameter is valid only when "WLNKALMFLAG" is set to YES.
Read & Write
80 TRX
This parameter is valid only when "WLNKALMFLAG" is set to YES.
Read & Write
None
None
None
None
None
Read & Write
None
CATEGORY3
None
None
None
Read & Write
None
None
None
None
None
Read & Write
None
None
None
BSC6900
None
Read & Write
None
None
None
Ethernet port
None
Read & Write
None
None
None
Ethernet port
None
Read & Write
None
None
None
Ethernet port
None
Read & Write
None
None
None
BSC
None
Read & Write
None
None
None
BSC
None
Read & Write
None
None
None
BSC
The parameter must be less than or equal to "ImsiMax" in "ADD IMSIGRP".
Read & Write
None
None
None
BSC
The parameter must be greater than or equal to Read & "ImsiMin" in "ADD IMSIGRP". Write
None
None
None
BSC
None
Read & Write
None
None
None
BSC
None
Read & Write
None
None
None
BSC
None
Read & Write
None
None
None
BSC
None
Read & Write
None
None
None
BSC
Each SRAC is configured with a maximum of 32 LAs (MCC + MNC + LAC), and each LA can be bound to Read & only an SRAC. Write
None
None
None
BSC
None
Read & Write
None
None
None
BSC
None
Read & Write
None
None
None
None
None
Read & Write
None
None
None
BSC6900
None
Read & Write
None
None
None
IP logical port
None
Read & Write
None
None
None
ATM logical port None
Read & Write
None
Read & Write
None
None
None
IP logical port
None
None
None
IP logical port
None
Read & Write
None
None
None
IP logical port
None
Read & Write
None
None
None
None
None
Read & Write
None
None
None
IP logical port
None
Read & Write
None
None
None
IP logical port
None
Read & Write
None
None
None
None
None
Read & Write
None
None
None
IP logical port
None
Read & Write
The dynamic bandwidth switch is turned only when the IPPM function is activated Read & through "ACT IPPM". Write
None
None
None
IP logical port
kbit/s
None
None
IP logical port
None
Read & Write
kbit/s
None
None
IP logical port
None
Read & Write
IP logical 25 port
None
Read & Write
IP logical port
None
Read & Write
4500
IP logical 4500 port
None
Read & Write
%
0
IP logical 0 port
None
Read & Write
%
96
IP logical 96 port
None
Read & Write
%
kbit/s
byte
25
None
None
5
IP logical 5 port
None
Read & Write
10
IP logical 10 port
None
Read & Write
5
IP logical 5 port
None
Read & Write
120
IP logical 120 port
None
Read & Write
30
IP logical 30 port
None
Read & Write
ms
2
IP logical 2 port
None
Read & Write
ms
25
IP logical 25 port
None
Read & Write
1
IP logical 1 port
None
Read & Write
kbit/s
ms
None
%
None
None
None
4
IP logical 4 port
None
Read & Write
None
8
IP logical 8 port
None
Read & Write
None
3
IP logical 3 port
None
Read & Write
IP logical port
None
Read & Write
None
ON
ON
This index can correspond with any threshold (maximum value of 80) in the six queues. The following condition must be met: threshold x 64 x 1024 x logical port bandwidth < Read & 4294967295(0xFFFFFFFF). Write
None
0
IP logical 0 port
None
20
IP logical 20 port
None
Read & Write
None
30
IP logical 30 port
None
Read & Write
None
None
IP logical 2 port
None
Read & Write
None
IP logical port
None
Read & Write
None
Read & Write
2
None
None
None
None
IP logical port
None
None
None
IP path
None
Read & Write
None
None
None
IP path
None
Read & Write
None
None
None
IP Path
None
Read & Write
None
None
None
IP Path
None
Read & Write
None
None
None
IP Path
None
Read & Write
byte
352
352 IP Path
None
Read & Write
byte
1031
1031 IP Path
None
Read & Write
2
2 IP Path
None
Read & Write
ms
None
None
None
None
None
Read & Write
None
None
None
IP Path
None
Read & Write
None
None
None
None
None
Read & Write
None
Read & Write
None
None
None
IP path
None
None
None
Adjacent node
None
Read & Write
None
None
None
IP path
None
Read & Write
None
None
None
BSC6900
None
Read & Write
None
None
None
IP path
None
Read & Write
None
None
QoS
IP path
None
Read & Write
None
None
None
None
None
None
IP path
The "IPADDR" in "ADD IPPATH" can not be at one network segment with the peer IP address of SCTPLNK or IPPATH whose local IP address is device IP address of FG2/GOU in this subrack;"IPADDR" and "PEERIPADDR" in "ADD IPPATH" must be at one network segment;("IPADDR","PEERIP ADDR","PEERMASK" in "ADD IPPATH") conflicts with other IPPATH whose type is Read & IUPS. Write
IP path
"IPADDR" and "PEERIPADDR" in "ADD IPPATH" must be at one network segment;("IPADDR","PEERIP ADDR","PEERMASK" in "ADD IPPATH") conflicts with other IPPATH whose type is Read & IUPS. Write
None
255.255.255.255 255.255.255.255
IP path
("IPADDR","PEERIPADDR"," PEERMASK" in "ADD IPPATH") conflicts with other Read & IPPATH whose type is IUPS. Write
kbit/s
None
None
IP path
None
Read & Write
kbit/s
None
None
IP path
None
Read & Write
None
NULL
NULL
IP path
None
Read & Write
None
None
None
None
None
None
None
None
None
None
2
IP path
When the value of "CARRYFLAG" in "ADD IPPATH" is set to IP LGCPORT, this parameter is Read & valid. Write
IP path
When the value of "CARRYFLAG" in "ADD IPPATH" is set to IP LGCPORT, this parameter is Read & valid. Write
AAL2 path None
Read & Write
2 BSC6900
None
Read & Write
None
DISABLE
DISABLE
IP path
None
Read & Write
None
None
None
BSC6900
None
Read & Write
None
DISABLED
DISABLED
IP path
None
Read & Write
IP path
When the value of "PATHCHK" in "ADD IPPATH" is set to ENABLED, Read & this parameter is valid. Write
None
None
None
s
5
None
5
byte
64
5 IP path
When the value of "PATHCHK" in "ADD IPPATH" is set to ENABLED, Read & this parameter is valid. Write
5 IP path
When the value of "PATHCHK" in "ADD IPPATH" is set to ENABLED, Read & this parameter is valid. Write
64 IP path
When the value of "PATHCHK" in "ADD IPPATH" is set to ENABLED, Read & this parameter is valid. Write
None
None
None
IP path
None
Read & Write
None
None
None
IP Path
None
Read & Write
None
None
None
None
None
Read & Write
None
None
None
BSC6900
None
Read & Write
None
None
None
None
None
Read & Write
None
None
None
None
None
Read & Write
None
None
None
BSC6900
None
Read & Write
None
None
None
IP route
None
Read & Write
None
None
None
IP route
None
Read & Write
None
None
None
IP route
None
Read & Write
None
None
None
IP route
None
Read & Write
None
None
None
IP route
None
Read & Write
None
None
None
None
None
Read & Write
None
None
None
BSC6900
None
Read & Write
None
None
None
None
None
Read & Write
None
None
None
Ethernet port
None
Read & Write
None
None
None
None
None
Read & Write
None
None
None
None
None
Read & Write
None
None
None
None
None
Read & Write
None
None
None
None
None
Read & Write
None
None
None
None
None
Read & Write
None
None
None
None
None
Read & Write
None
None
None
None
None
Read & Write
None
None
None
BSC
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
BSC
None
Read & Write
None
None
None
BSC
None
Read & Write
None
None
None
BSC
None
Read & Write
BSC
If this parameter is not set to CLOSE, it value must not be the same as "LDRSND", "LDRTRD", or "LDRFOUH".
Read & Write
BSC
If this parameter is not set to CLOSE, it value must not be the same as "LDRFST", "LDRTRD", or "LDRFOUH".
Read & Write
BSC
If this parameter is not set to CLOSE, it value must not be the same as "LDRSND", "LDRFST", or "LDRFOUH".
Read & Write
BSC
If this parameter is not set to CLOSE, it value must not be the same as "LDRSND", "LDRTRD", or "LDRFST".
Read & Write
None
None
None
None
PSDOWN
PSDOWN
AMRC
AMRC
CSPH
CSPH
CSFHHO
CSFHHO
%
90
90 None
None
Read & Write
%
70
70 None
None
Read & Write
None
None
none
BSC6900
None
Read & Write
None
None
None
BSC6900
None
Read & Write
None
None
None
BSC6900
None
Read & Write
d
None
30
30 BSC6900
None
Read & Write
50000
50000 BSC6900
None
Read & Write
None
None
None
SCCP
None
Read & Write
None
None
None
SCCP
None
Read & Write
None
None
None
SCCP
None
Read & Write
None
None
None
SCCP
Negotiation with the peer network element is required.
Read & Write
None
Read & Write
None
Read & Write
None
None
4294967295
None
4294967295 SCCP
None
None
None
None
None
SCCP
None
Read & Write
None
None
None
SCCP
None
Read & Write
None
None
None
SCCP
None
Read & Write
None
Read & Write
None
4294967295
4294967295 SCCP
None
None
None
None
None
Read & Write
None
None
None
SCCP
None
Read & Write
None
Read & Write
None
None
None
SCCP
None
B1111
SCCP
None
Read & Write
None
M3UA_LOADSH M3UA_LOADSHARE_M ARE_MOD OD SCCP
None
Read & Write
None
M3UA_ASP
SCCP
None
Read & Write
5 SCCP
None
Read & Write
s
B1111
M3UA_ASP
5
None
None
None
None
None
Read & Write
None
None
None
SCCP
None
Read & Write
None
None
None
BSC6900
None
Read & Write
None
None
None
BSC6900
None
Read & Write
None
None
None
BSC6900
None
Read & Write
None
None
None
SCTP link None
Read & Write
None
0
0 None
None
Read & Write
None
M3UA_MASTER _MOD M3UA_MASTER_MOD
BSC6900
None
Read & Write
None
None
None
None
None
Read & Write
None
None
None
SCCP
None
Read & Write
None
None
None
SCCP
None
Read & Write
None
None
0 SCCP
None
Read & Write
None
None
None
Read & Write
7 None
None
None
Read & Write
0
None
None
None
None
None
None
None
Read & Write
None
None
None
None
None
Read & Write
None
None
None
BSC6900
None
Read & Write
None
None
None
BSC6900
None
Read & Write
None
None
None
Board
None
Read & Write
None
None
None
MP group
None
Read & Write
None
MCPPP
MCPPP
MP group
None
Read & Write
None
None
NO
MP group
None
Read & Write
None
None
None
MP group
None
Read & Write
None
None
None
BSC6900
None
Read & Write
None
None
None
MP group
None
Read & Write
None
None
None
MP group
None
Read & Write
None
LONG
LONG
MP group
None
Read & Write
None
None
None
MP group
None
Read & Write
256 None
MP group
None
Read & Write
byte
None
UDP/IP_HC
UDP/IP_HC
MP group
None
Read & Write
None
Enable
Enable
MP link
None
Read & Write
None
Enable
Enable
PPP link
None
Read & Write
None
Disable
Disable
MP group
None
Read & Write
None
None
None
MP group
None
Read & Write
None
None
None
MP group
None
Read & Write
ls
None
None
MP group
None
Read & Write
None
ON
ON
MP group
None
Read & Write
None
0
0 MP group
None
Read & Write
%
0
0 MP group
None
Read & Write
None
NO_V
NO_V
MP group
None
Read & Write
None
None
None
MP group
None
Read & Write
None
None
None
MP group
None
Read & Write
None
None
None
MP group
None
Read & Write
2 None
None
Read & Write
None
2
None
OFF
OFF
Board
None
Read & Write
None
O5E4_R1E4
O5E4_R1E4
Board
None
Read & Write
None
OFF
OFF
Board
None
Read & Write
None
None
ERR_PFM_1E5
Board
None
Read & Write
None
None
ERR_PFM_5E6
Board
None
Read & Write
None
None
None
MP group
None
Read & Write
None
Read & Write
None
8
8 MP group
byte
byte
64
256
64 MP group
256 MP group
None
Read & Write
None
Read & Write
ls
1000
1000 MP group
None
Read & Write
None
ERR_PFM_1E5 ERR_PFM_1E5
Board
None
Read & Write
None
ERR_PFM_5E6 ERR_PFM_5E6
Board
None
Read & Write
None
None
None
MP group
None
Read & Write
None
None
None
None
None
Read & Write
None
None
None
BSC6900
None
Read & Write
None
None
None
BSC6900
None
Read & Write
None
None
None
MP group
None
Read & Write
None
None
None
MP link
None
Read & Write
None
None
None
MP link
None
Read & Write
None
None
None
MP link
None
Read & Write
s
3
3 MP link
None
Read & Write
s
2
2 PPP link
None
Read & Write
None
16bit
16bit
MP link
None
Read & Write
None
None
None
BSC6900
None
Read & Write
None
None
None
MP link
None
Read & Write
None
None
None
None
None
Read & Write
None
None
None
None
None
Read & Write
None
None
None
None
None
Read & Write
None
None
None
None
None
Read & Write
None
None
None
BSC
None
Read & Write
None
YES
YES
MSC
None
Read & Write
None
NO
NO
MSC
None
Read & Write
None
YES
YES
MSC
None
Read & Write
None
YES
YES
MSC
None
Read & Write
None
YES
YES
MSC
None
Read & Write
None
YES
YES
MSC
None
Read & Write
None
YES
YES
MSC
None
Read & Write
None
YES
YES
MSC
None
Read & Write
None
NOTSENDING
NOTSENDING
MSC
None
Read & Write
None
YES
YES
MSC
None
Read & Write
None
SYSTEMOPT
SYSTEMOPT
MSC
None
Read & Write
None
YES
YES
MSC
None
Read & Write
None
YES
YES
MSC
None
Read & Write
None
NOTSENDING
NOTSENDING
MSC
None
Read & Write
None
YES
YES
MSC
None
Read & Write
None
YES
YES
MSC
None
Read & Write
None
YES
YES
MSC
None
Read & Write
None
YES
YES
MSC
None
Read & Write
None
NO
NO
MSC
None
Read & Write
None
NO
NO
MSC
None
Read & Write
None
OFF
OFF
MSC
None
Read & Write
None
None
None
None
None
Read & Write
None
None
None
None
None
Read & Write
None
None
None
Board
None
Read & Write
None
MSP protect group
None
Read & Write
None
MSP protect 600 group
None
Read & Write
None
None
MSP protect group
None
Read & Write
DISABLE
MSP protect group
None
Read & Write
None
s
None
None
None
None
None
None
None
MSP protect 1.00E-06 group
None
Read & Write
None
MSP protect group
None
Read & Write
None
MSP protect group
None
Read & Write
1.00E-06
None
None
None
None
None
None
None
Read & Write
None
None
None
None
None
Read & Write
None
None
None
Board
None
Read & Write
None
None
None
MSP protect group
None
Read & Write
None
None
None
Subsystem None
Read & Write
None
None
None
Subsystem None
Read & Write
None
None
None
Subsystem None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
SCCP
None
Read & Write
None
None
None
SCCP
None
Read & Write
None
B1111
B1111
SCCP
None
Read & Write
None
OFF
OFF
MTP3 link None
Read & Write
None
None
None
None
None
Read & Write
None
None
None
SCCP
None
Read & Write
None
None
None
MTP3 link None
Read & Write
None
None
None
BSC6900
None
Read & Write
None
Transmissi on resource group None
Read & Write
None
None
None
None
None
MTP3 link None
Read & Write
None
None
None
MTP3 link None
Read & Write
None
None
None
E1/T1 link None
Read & Write
None
None
None
MTP3 link None
Read & Write
None
None
None
MTP3 link None
Read & Write
MTP3 link None
Read & Write
MTP3 link None
Read & Write
None
None
None
None
None
None
None
None
None
MTP3 link None
Read & Write
bit/s
64K
64K
MTP3 link None
Read & Write
None
NO
NO
MTP3 link None
Read & Write
None
0
None
10
None
Read & Write
10 MTP3 link None
Read & Write
0 None
None
ms
170
None
170 MTP3 link None
45000(64k),150000(2M)
Read & Write
MTP3 link None
Read & Write
ms
None
30000(64k),130000(2M)
MTP3 link None
Read & Write
ms
None
1300(64k),1000(2M)
MTP3 link None
Read & Write
ms
None
8200(64k),30000(2M)
MTP3 link None
Read & Write
ms
500
500 MTP3 link None
Read & Write
ms
100
100 MTP3 link None
Read & Write
ms
5000
5000 MTP3 link None
Read & Write
ms
None
1500(64k),2000(2M)
MTP3 link None
Read & Write
ms
None
100(64k),10(2M)
MTP3 link None
Read & Write
None
None
None
None
None
Read & Write
None
None
None
SCCP
None
Read & Write
None
None
None
SCCP
None
Read & Write
None
None
0
None
None
0 SCCP
None
Read & Write
None
None
Read & Write
ms
1200
1200 MTP3 link None
Read & Write
ms
2000
2000 MTP3 link None
Read & Write
ms
1200
1200 MTP3 link None
Read & Write
ms
1200
1200 MTP3 link None
Read & Write
ms
1200
1200 MTP3 link None
Read & Write
ms
1200
1200 MTP3 link None
Read & Write
ms
60000
60000 MTP3 link None
Read & Write
ms
1500
1500 MTP3 link None
Read & Write
ms
1500
1500 MTP3 link None
Read & Write
ms
3000
3000 MTP3 link None
Read & Write
ms
1500
1500 MTP3 link None
Read & Write
ms
360000
360000 MTP3 link None
Read & Write
ms
360000
360000 MTP3 link None
Read & Write
ms
12000
12000 MTP3 link None
Read & Write
ms
60000
60000 MTP3 link None
Read & Write
None
None
None
None
None
Read & Write
None
None
None
SCCP
None
Read & Write
None
None
None
SCCP
None
Read & Write
None
None
None
None
None
None
WNF
None
None
Read & Write
SCCP
None
SCCP
When the value of "SPDF" in "ADD N7DPC" is set to WNF, Read & this parameter is valid. Write
SCCP
When the value of "SPDF" in "ADD N7DPC" is set to DNF, Read & this parameter is valid. Write
None
None
None
SCCP
None
Read & Write
None
B0000
B0000
SCCP
None
Read & Write
None
YES
YES
SCCP
None
Read & Write
None
OFF
OFF
SCCP
None
Read & Write
None
None
None
SCCP
None
Read & Write
None
None
None
SCCP
None
Read & Write
None
ITUT
None
ITUT
250
SCCP
None
Read & Write
250 SCCP
None
Read & Write
None
None
None
BSC6900
None
Read & Write
None
None
None
BSC6900
None
Read & Write
None
None
None
BSC6900
None
Read & Write
None
None
None
BSC6900
None
Read & Write
None
None
None
BSC6900
None
Read & Write
None
None
None
BSC6900
None
Read & Write
None
None
None
BSC6900
None
Read & Write
None
None
None
BSC
None
Read & Write
None
None
None
BSC
None
Read & Write
None
None
None
BSC
None
Read & Write
None
None
None
BSC
None
Read & Write
None
None
None
NSE
None
Read & Write
None
None
None
NSE
None
Read & Write
None
None
None
BSC
None
Read & Write
None
None
None
Board
None
Read & Write
None
None
None
NSE
None
Read & Write
None
STATIC
None
NSE
None
Read & Write
None
None
None
NSE
None
Read & Write
None
None
None
NSE
None
Read & Write
None
None
None
BSC
None
Read & Write
None
None
None
NSE
None
Read & Write
None
NO
NO
NSE
None
Read & Write
None
NO
NO
NSE
None
Read & Write
None
NO
NO
NSE
None
Read & Write
None
None
None
NSVC
None
Read & Write
None
None
None
NSVC
None
Read & Write
None
None
None
NSE
None
Read & Write
None
None
None
None
None
Read & Write
None
None
None
None
None
Read & Write
None
None
None
BC
None
Read & Write
None
None
None
NSVC
None
Read & Write
None
None
None
NSE
None
Read & Write
None
None
None
NSE
None
Read & Write
None
None
None
NSE
None
Read & Write
None
None
None
NSE
None
Read & Write
None
None
None
None
None
Read & Write
None
None
None
None
None
Read & Write
None
Read & Write
None
100
100 NSE
None
100
100 NSE
None
Read & Write
None
None
None
NSE
None
Read & Write
None
None
None
NSE
None
Read & Write
None
Read & Write
None
Read & Write
None
None
None
None
None
None
NSE
NSE
None
100
100 NSE
None
Read & Write
None
100
100 NSE
None
Read & Write
None
None
None
BSC6900
None
Read & Write
None
None
None
BSC6900
None
Read & Write
Read & Write
None
None
None
BSC6900
This parameter is valid when OBJTP is BOARD, PORT or DSP.
None
None
None
BSC6900
This parameter is valid when OBJTP is PORT.
Read & Write
None
None
None
BSC6900
This parameter is valid when OBJTP is DSP.
Read & Write
BSC6900
This parameter is valid when OBJTP is BOARD, PORT or DSP.
Read & Write
Read & Write
Read & Write
None
None
None
None
None
None
BSC6900
This parameter is valid when OBJTP is ALL or AIDST is ONEBYONE.
None
ON
ON
BSC6900
None
None
None
None
BSC6900
None
Read & Write
None
None
None
None
None
Read & Write
None
None
None
BSC6900
None
Read & Write
None
None
None
BSC6900
None
Read & Write
None
None
None
BSC6900
None
Read & Write
None
None
None
BSC6900
None
Read & Write
None
None
None
BSC6900
None
Read & Write
None
None
None
BSC6900
None
Read & Write
None
Guests
Guests
BSC6900
None
Read & Write
BSC6900
This parameter is valid when UG is Customs.
Read & Write
None
None
None
None
NOLIMIT
NOLIMIT
BSC6900
None
Read & Write
None
None
None
BSC6900
This parameter is valid when DATE is LIMIT.
Read & Write
None
None
None
BSC6900
This parameter is valid when DATE is LIMIT.
Read & Write
None
NOLIMIT
NOLIMIT
BSC6900
None
Read & Write
None
None
None
BSC6900
This parameter is valid when TIME is LIMIT.
Read & Write
None
None
None
BSC6900
This parameter is valid when TIME is LIMIT.
Read & Write
None
NOLIMIT
NOLIMIT
BSC6900
None
Read & Write
None
None
None
BSC6900
This parameter is valid when WEEK is LIMIT.
Read & Write
None
None
None
BSC6900
None
Read & Write
None
None
None
BSC6900
None
Read & Write
None
None
None
BSC6900
None
Read & Write
None
None
None
BSC6900
None
Read & Write
None
None
None
None
None
Read & Write
None
None
None
SCCP
None
Read & Write
None
None
None
SCCP
This parameter depends on network planning.
Read & Write
None
None
None
SCCP
This parameter depends on network planning.
Read & Write
None
None
None
None
None
None
WNF
None
None
Read & Write
SCCP
None
SCCP
When the value of "SPDF" is set to WNF, this parameter is Read & valid. Write
SCCP
When the value of "SPDF" is set to DNF, this parameter is valid.
Read & Write
None
OFF
OFF
SCCP
When the value of "SPCBITS" is set to BIT14 or BIT24, this Read & parameter is valid. Write
None
SINGLEHOST
SINGLEHOST
SCCP
None
Read & Write
None
ON
OFF
BSC6900
None
Read & Write
None
ON
None
BSC6900
None
Read & Write
None
Read & Write
None
Read & Write
None
None
None
None
None
None
None
BSC6900
None
None
None
Board
None
Read & Write
None
None
None
Board
None
Read & Write
None
None
None
Board
None
Read & Write
None
None
None
Board
None
Read & Write
None
None
None
Board
None
Read & Write
None
None
OFF
Board
None
Read & Write
Board
None
Read & Write
Character_String Character_String
None
None
Read & Write
None
None
SBS 155
Board
None
Read & Write
None
None
SBS 155
Board
None
Read & Write
None
None
OFF
Board
None
Read & Write
None
None
16byte
Board
None
Read & Write
none
Character_String Character_String
None
None
Read & Write
None
None
None
16byte
None
None
SBS 155
Board
None
Read & Write
None
None
SBS 155
Board
None
Read & Write
None
OFF
OFF
Board
None
Read & Write
None
None
None
Board
None
Read & Write
None
None
None
Board
None
Read & Write
None
None
None
Board
None
Read & Write
None
None
None
Board
None
Read & Write
None
None
None
Board
None
Read & Write
None
None
None
Board
None
Read & Write
None
None
None
Board
None
Read & Write
None
None
SPACE
Board
None
Read & Write
AU4
Channelize d optical port None
Read & Write
None
None
None
None
None
None
None
Read & Write
None
None
None
BSC6900
None
Read & Write
None
None
None
Board
None
Read & Write
None
None
None
Loopback optical port None
Read & Write
None
NO
NO
BSC
None
Read & Write
None
YES
YES
BSC
None
Read & Write
2 BSC
None
Read & Write
2 BSC
This parameter is valid only when "TYPE" in "SET BSCPCUTYPE" is set to OUTER.
Read & Write
None
Read & Write
None
2
None
None
2
YES
YES
BSC
None
YES
YES
BSC
None
Read & Write
None
YES
YES
BSC
None
Read & Write
None
NO
NO
BSC
None
Read & Write
3 BSC
None
Read & Write
s
3
None
YES
YES
BSC
None
Read & Write
None
YES
YES
BSC
None
Read & Write
None
YES
YES
BSC
None
Read & Write
None
YES
YES
BSC
None
Read & Write
BSC
This parameter is valid only when "TYPE" in "SET BSCPCUTYPE" is set to OUTER.
Read & Write
None
NO
NO
None
None
None
NO
NO
NO
NO
None
None
NO
NO
3
NO
NO
BSC
This parameter is valid only when "TYPE" in "SET BSCPCUTYPE" is set to OUTER.
Read & Write
BSC
This parameter is valid only when "TYPE" in "SET BSCPCUTYPE" is set to OUTER.
Read & Write
BSC
This parameter is valid only when "TYPE" in "SET BSCPCUTYPE" is set to OUTER.
Read & Write
3 BSC
This parameter is valid only when "TYPE" in "SET BSCPCUTYPE" is set to OUTER.
Read & Write
None
Read & Write
BSC
min
5
%
None
dB
dB
5 BSC
85
Open
85 BSC
Open
BSC
Set this parameter to about 68 in densely populated urban areas and about 72 in suburban 68 areas. BSC
30
30 BSC
This parameter is valid only when "ResetAlmDelaySwitch" Read & is set to YES. Write
This parameter is valid only when "AterCongHRFlag" is set to OPEN.
Read & Write
If the resource usage on the Ater interface exceeds the value of "AterCongstRatio" and this parameter is set to Open, the BSC preferentially selects TCHF when assigning Read & traffic channels. Write
None
Read & Write
None
Read & Write
None
100
100 BSC
None
Read & Write
None
NO
NO
BSC
None
Read & Write
None
NO
NO
BSC
None
Read & Write
None
NO
NO
BSC
None
Read & Write
None
Read & Write
None
YES
YES
BSC
None
NO
NO
BSC
None
Read & Write
None
NO
NO
BSC
None
Read & Write
0 BSC
The following condition must be met: "NcellInterFLevelThres1" > "NcellInterFLevelThres0".
Read & Write
60 BSC
The following condition must be met: "NcellInterFLevelThres2" > "NcellInterFLevelThres1" > "NcellInterFLevelThres0".
Read & Write
64 BSC
The following condition must be met: "NcellInterFLevelThres3" > "NcellInterFLevelThres2" > "NcellInterFLevelThres1".
Read & Write
68 BSC
The following condition must be met: "NcellInterFLevelThres4" > "NcellInterFLevelThres3" > "NcellInterFLevelThres2".
Read & Write
72 BSC
The following condition must be met: "NcellInterFLevelThres5" > "NcellInterFLevelThres4" > "NcellInterFLevelThres3".
Read & Write
74 BSC
The following condition must be met: "NcellInterFLevelThres6" > "NcellInterFLevelThres5" > "NcellInterFLevelThres4".
Read & Write
76 BSC
The following condition must be met: "NcellInterFLevelThres7" > "NcellInterFLevelThres6" > "NcellInterFLevelThres5".
Read & Write
80 BSC
The following condition must be met: "NcellInterFLevelThres7" > "NcellInterFLevelThres6".
Read & Write
dB
dB
dB
dB
dB
dB
dB
dB
0
60
64
68
72
74
76
80
None
YES
YES
BSC
None
Read & Write
None
NO
NO
BSC
None
Read & Write
None
YES
YES
BSC
None
Read & Write
None
NO
NO
BSC
None
Read & Write
None
YES
YES
BSC
None
Read & Write
None
CLOSE
CLOSE
BSC
None
Read & Write
None
65535
65535 BSC
None
Read & Write
None
65535
65535 BSC
None
Read & Write
None
65535
65535 BSC
None
Read & Write
None
65535
65535 BSC
None
Read & Write
None
65535
65535 BSC
None
Read & Write
None
0
0 BSC
None
Read & Write
None
0
0 BSC
None
Read & Write
None
0
0 BSC
None
Read & Write
None
65535
65535 BSC
None
Read & Write
None
65535
65535 BSC
None
Read & Write
None
65535
65535 BSC
None
Read & Write
None
0
0 BSC
None
Read & Write
None
0
0 BSC
None
Read & Write
None
0
0 BSC
None
Read & Write
None
0
0 BSC
None
Read & Write
None
0
0 BSC
None
Read & Write
None
0
0 BSC
None
Read & Write
None
0
0 BSC
None
Read & Write
None
0
0 BSC
None
Read & Write
None
0
0 BSC
None
Read & Write
None
0
0 BSC
None
Read & Write
None
0
0 BSC
None
Read & Write
None
0
0 BSC
None
Read & Write
None
0
0 BSC
None
Read & Write
None
0
0 BSC
None
Read & Write
None
0
0 BSC
None
Read & Write
None
0
0 BSC
None
Read & Write
None
0
0 BSC
None
Read & Write
None
0
0 BSC
None
Read & Write
BSC
None
Read & Write
None
Read & Write
None
None
NO
YES
NO
YES
BSC
None
None
None
CLOSE
CLOSE
NO
NO
100
Read & Write
BSC
None
BSC
This parameter is valid only when "OUTSYSSERVICEHOEN" is Read & set to YES. Write
100 BSC
None
Read & Write
None
DENY
When the disorder phenomenon is severe in the IP network, the recommended value is ALLOW; when there is no or little disordered packets, you are recommended to set this parameter to DENY to avoid extra transmission delay. BSC
None
DENY
None
None
Read & Write
BSC
None
Read & Write
ms
2000
2000 BSC
None
Read & Write
ms
4000
4000 BSC
None
Read & Write
BSC
None
Read & Write
None
Read & Write
None
%
OFF
OFF
110
110 BSC
s
None
10
YES
YES
10 BSC
None
Read & Write
BSC
None
Read & Write
None
None
YES
NO
YES
NO
BSC
When "BSCPMA" is set to YES and "BSCQAD" is also set to Yes, high-priority calls try to preempt radio resources of low-priority calls firstly if radio resources are insufficient. If no radio resources of low-priority calls can be preempted, then the high-priority calls are put into the queue. When "BSCPMA" is set to NO and "BSCQAD" is set to Yes, high-priority calls are directly put into the queue if the radio Read & resources are insufficient. Write
BSC
This parameter is valid only when "BSCPMA" is set to YES.
Read & Write
Read & Write
None
NO
NO
BSC
This parameter is valid only when "BSCQAD" is set to YES.
None
YES
YES
BSC
None
Read & Write
None
NOT_ALLOWED NOT_ALLOWED
BSC
None
Read & Write
None
NO
NO
BSC
None
Read & Write
None
NO
NO
BSC
None
Read & Write
None
CLOSE
CLOSE
BSC
None
Read & Write
BSC
This parameter can be set when the parameter "MOCN Read & Switch" is not set to "CLOSE". Write
BSC
This parameter can be set when the parameter "MOCN Read & Switch" is not set to "CLOSE". Write
None
None
NOTREDIR
NO
NOTREDIR
NO
None
NO
NO
BSC
This parameter can be set when the parameter "MOCN Read & Switch" is not set to "CLOSE". Write
None
NO
NO
BSC
None
Read & Write
None
NO
NO
BSC
None
Read & Write
None
ALLOWED
ALLOWED
BSC
None
Read & Write
None
100
100 BSC
None
Read & Write
None
100
100 BSC
None
Read & Write
None
85
None
Read & Write
None
Read & Write
None
CLOSE
85 None
CLOSE
BSC
None
NO
NO
BSC
This parameter is invalid when "TYPE" in "SET BSCPCUTYPE" is set to OUTER.
None
CLOSE
CLOSE
BC
None
Read & Write
Read & Write
s
10
10 BSC
None
Read & Write
None
CLOSE
CLOSE
BC
None
Read & Write
None
CLOSE
CLOSE
BC
None
Read & Write
None
Read & Write
ms
200
200 BSC
None
OPEN
OPEN
BC
None
Read & Write
None
Step_by_Step
Step_by_Step
None
None
Read & Write
None
None
None
None
None
Read & Write
None
None
None
None
None
Read & Write
None
None
None
None
None
Read & Write
None
None
None
BSC6900
None
Read & Write
None
Transmissi on resource group None
Read & Write
None
None
None
None
None
PBE1T1
None
Read & Write
None
TRRS
TRRS
PBE1T1
None
Read & Write
None
None
None
PBE1T1
None
Read & Write
None
None
None
PBE1T1
None
Read & Write
None
None
None
PBE1T1
None
Read & Write
None
None
None
PBE1T1
None
Read & Write
None
ALLCIC
ALLCIC
PBE1T1
None
Read & Write
None
None
None
PBE1T1
When the value of "OPMODE" is MODSGLCIC, the value of TSN needs to be Read & set. Write
None
None
None
PBE1T1
None
Read & Write
None
None
None
PBE1T1
None
Read & Write
None
None
None
None
None
Read & Write
None
None
None
BSC
None
Read & Write
None
None
None
Transmissi on resource group None
None
None
None
PBSL
None
Read & Write
None
None
None
PBSL
None
Read & Write
63 PBSL
None
Read & Write
90
90 BSC
The congestion start threshold must be greater than the congestion end threshold.
Read & Write
80
The congestion start threshold must be greater ATERCON than the congestion end 80 SL threshold.
Read & Write
None
63
None
None
Read & Write
None
None
None
BSC
None
Read & Write
None
None
None
BSC
None
Read & Write
None
None
None
BSC
None
Read & Write
None
None
None
BSC6900
None
Read & Write
None
None
None
E1/T1 link None
Read & Write
None
None
None
None
None
None
ms
None
48
None
48 SCTP link None
None
None
Board
The phb of the traffic's transmission path is determined like this: if the phb of this transmission path is QOS, use the traffic's phb from TRMMAP; if the phb of this transmission path is BE,AF11,AF12,AF13,AF21,A F22,AF23,AF31,AF32,AF33,A F41,AF42,AF43,EF, use the Read & phb of transmission path. Write
None
2
25 IP/HDLC:25
BSC6900
BSC6900
2 BSC6900
BSC6900
Read & Write
None
Read & Write
None
Read & Write
When the value of "PORTPROTYPE" in "ADD PORTFLOWCTRLPARA" is set to IP, this parameter should be set.
Read & Write
None
Read & Write
ms
15 IP/HDLC:15
BSC6900
None
Read & Write
ms
60 IP/HDLC:60
BSC6900
None
Read & Write
ms
25 IP/HDLC:25
BSC6900
None
Read & Write
ms
15 IP/HDLC:15
BSC6900
None
Read & Write
ms
60 IP/HDLC:60
BSC6900
None
Read & Write
ms
25 IP/HDLC:25
BSC6900
None
Read & Write
ms
15 IP/HDLC:15
BSC6900
None
Read & Write
ms
60 IP/HDLC:60
BSC6900
None
Read & Write
ms
25 IP/HDLC:25
BSC6900
None
Read & Write
ms
15 IP/HDLC:15
BSC6900
None
Read & Write
ms
60 IP/HDLC:60
BSC6900
None
Read & Write
ms
50
50 BSC6900
None
Read & Write
ms
25
25 BSC6900
None
Read & Write
ms
80
80 BSC6900
None
Read & Write
ms
50
50 BSC6900
None
Read & Write
ms
25
25 BSC6900
None
Read & Write
ms
80
80 BSC6900
None
Read & Write
None
None
None
None
None
Read & Write
None
None
None
BSC6900
None
Read & Write
None
None
None
BSC6900
None
Read & Write
None
None
None
Board
None
Read & Write
None
None
None
PPP link
None
Read & Write
None
None
None
PPP link
None
Read & Write
None
None
None
PPP link
None
Read & Write
None
None
NO
MP group
None
Read & Write
None
None
None
BSC6900
None
Read & Write
None
None
None
BSC6900
None
Read & Write
None
None
None
PPP link
None
Read & Write
None
None
None
BSC6900
None
Read & Write
None
UDP/IP_HC
UDP/IP_HC
PPP link
None
Read & Write
None
Enable
Enable
PPP link
None
Read & Write
None
Enable
Enable
PPP link
None
Read & Write
None
Disable
Disable
MP group
None
Read & Write
byte
64
64 PPP link
None
Read & Write
byte
256
256 PPP link
None
Read & Write
1000
1000 MP group
None
Read & Write
None
Read & Write
ls
None
NO_V
NO_V
PPP link
None
None
None
PPP link
None
Read & Write
None
None
None
PPP link
None
Read & Write
None
None
None
PPP link
None
Read & Write
s
3
3 PPP link
None
Read & Write
s
2
2 PPP link
None
Read & Write
None
ON
ON
PPP link
None
Read & Write
%
0
0 PPP link
None
Read & Write
None
0
0 PPP link
None
Read & Write
PPP link
None
Read & Write
2 PPP link
None
Read & Write
Board
None
Read & Write
None
16bit
None
None
16bit
2
OFF
OFF
None
O5E4_R1E4
O5E4_R1E4
Board
None
Read & Write
None
Enable
Enable
PPP link
None
Read & Write
1000 PPP link
None
Read & Write
None
Read & Write
ls
None
1000
None
None
None
None
None
None
BSC6900
None
Read & Write
None
None
None
MP group
None
Read & Write
None
None
None
MP group
None
Read & Write
None
None
None
PPP link
None
None
None
None
None
None
Read & Write Read & Write
None
Read & Write
BSC
None
Read & Write
None
Cell
None
Read & Write
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
None
None
Read & Write
None
None
None
None
None
None
None
BSC
None This parameter is valid only when "IDXTYPE" is set to BYCELL.
min
None
10 None
None
None
None
None
None
None
Read & Write Read & Write
None
1
1 BSC
None
Read & Write
None
1
1 BSC
None
Read & Write
None
0
0 BSC
None
Read & Write
None
13
13 BSC
None
Read & Write
None
13
13 BSC
None
Read & Write
None
15
15 BSC
None
Read & Write
None
6
6 BSC
None
Read & Write
None
3
3 BSC
None
Read & Write
None
10
10 BSC
None
Read & Write
None
1
1 BSC
None
Read & Write
None
15
15 BSC
None
Read & Write
None
None
None
NSE
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
8 None
BSC6900
None
Read & Write
None
LOWERCASE1&UPPERCASE1&DIGIT1&SPECHAR-0 None
BSC6900
None
Read & Write
3 None
BSC6900
None
Read & Write
min
30 None
BSC6900
None
Read & Write
min
5 None
BSC6900
None
Read & Write
d
90 None
BSC6900
None
Read & Write
d
5 None
BSC6900
None
Read & Write
None
5 None
BSC6900
None
Read & Write
None
None
Read & Write
None
None
None
None
None
None
None
None
None
Read & Write
None
None
None
None
None
Read & Write
None
None
None
None
None
Read & Write
V
57 None
None
None
Read & Write
V
43 None
None
None
Read & Write
V
57 None
None
None
Read & Write
V
43 None
None
None
Read & Write
V
57 None
None
None
Read & Write
V
43 None
None
None
Read & Write
V
57 None
None
None
Read & Write
V
43 None
None
None
Read & Write
V
57 None
None
None
Read & Write
V
43 None
None
None
Read & Write
V
57 None
None
None
Read & Write
V
43 None
None
None
Read & Write
None
None
None
None
None
Read & Write
None
None
None
BSC6900
None
Read & Write
None
None
None
Port queue None
Read & Write
None
None
None
Port queue None
Read & Write
None
None
None
Port queue None
Read & Write
None
None
None
Port queue None
Read & Write
None
None
None
Port queue None
Read & Write
None
None
None
Port queue None
Read & Write
None
None
None
Port queue None
Read & Write
None
None
OFF
BSC6900
None
Read & Write
None
None
None
BC
None
Read & Write
None
None
None
BSC
None
Read & Write
None
None
None
BSC6900
None
Read & Write
None
None
None
BSC6900
None
Read & Write
None
None
None
BSC6900
None
Read & Write
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
BSC6900
None
Read & Write
None
Transmissi on resource group None
Read & Write
None
Transmissi on resource group None
Read & Write
None
Transmissi on resource group None
Read & Write
None
Transmissi on resource group None
Read & Write
None
Transmissi on When "ISFIRSTCLASSE" in resource "ADD RSCGRP" is set to NO, Read & group this parameter is valid. Write
None
Transmissi on resource group None
Read & Write
None
Transmissi on When "GRPT" in "ADD resource RSCGRP" is set to IP, this group parameter is valid.
Read & Write
kbit/s
kbit/s
None
None
None
When "GRPT" in "ADD RSCGRP" is set to ATM or "BWMODE" is set to FULL_DUPLEX, this parameter is valid;The sum of "TxBw" and "RxBw" in "ADD RSCGRP" of upper class RSCGRP can not less than the "TxBw" and "AllBw" in "ADD RSCGRP"of lower class RSCGRP;The "TxBw" in "ADD RSCGRP" of upper class RSCGRP can not less than the "TxBw" in "ADD RSCGRP" of lower class RSCGRP, and the "RxBw" in "ADD RSCGRP" of upper Transmissi class RSCGRP can not less on than the "RxBw" in "ADD resource RSCGRP" of lower class Read & group RSCGRP. Write
None
When "GRPT" in "ADD RSCGRP" is set to ATM or "BWMODE" is set to FULL_DUPLEX, this parameter is valid;The sum of "TxBw" and "RxBw" in "ADD RSCGRP" of upper class RSCGRP can not less than the "TxBw" and "AllBw" in "ADD RSCGRP"of lower class RSCGRP;The "TxBw" in "ADD RSCGRP" of upper class RSCGRP can not less than the "TxBw" in "ADD RSCGRP" of lower class RSCGRP, and the "RxBw" in "ADD RSCGRP" of upper Transmissi class RSCGRP can not less on than the "RxBw" in "ADD resource RSCGRP" of lower class Read & group RSCGRP. Write
kbit/s
None
None
When "BWMODE" in "ADD RSCGRP" is set to HALF_DUPLEX, this parameter is valid;if the "BWMODE" in "ADD RSCGRP" of upper class and lower class RSCGRP is set to HALF_DUPLEX, the "AllBw" in "ADD RSCGRP" of upper class RSCGRP can not less than the "AllBwE" in "ADD RSCGRP" of lower class RSCGRP;The "AllBw" in "ADD RSCGRP" of upper Transmissi class RSCGRP can not less on than the sum of "TxBw" and resource "RxBw" in "ADD RSCGRP" of Read & group lower class RSCGRP. Write
None
2
2 BSC6900
None
Read & Write
None
0
0 BSC6900
None
Read & Write
s
90
90 SCCP
None
Read & Write
s
720
720 SCCP
None
Read & Write
None
None
None
BSC6900
None
Read & Write
None
None
None
BSC6900
None
Read & Write
None
ENABLED
None
BSC6900
None
Read & Write
None
None
None
BSC6900
None
Read & Write
Read & Write
Read & Write
None
None
None
Transmissi on resource group None
None
None
None
SCTP link None
None
None
None
SCTP link None
Read & Write
None
None
None
SCTP link None
Read & Write
48 SCTP link None
Read & Write
None
48
None
None
None
When the value of "MODE" in "ADD SCTPLNK" is set to Client, this parameter can be Read & SCTP link modified. Write
None
None
None
SCTP link None
Read & Write
None
None
None
SCTP link None
Read & Write
None
None
None
SCTP link None
Read & Write
None
None
None
SCTP link None
Read & Write
None
None
None
SCTP link None
Read & Write
None
None
None
ms
ms
None
This parameter determines whether "LOGPORTSN" and "LOGPORTNO" in "ADD SCTP link SCTPLNK" are valid.
Read & Write
None
When the value of "LOGPORTFLAG" in "ADD SCTPLNK" is set to ON, this SCTP link parameter is valid.
Read & Write
None
None
When the value of "LOGPORTFLAG" in "ADD SCTPLNK" is set to ON, this SCTP link parameter is valid.
Read & Write
None
The value to be set should be 150(application type is smaller than the value of M3UA), 1000(application "RTOMAX" in "ADD Read & type is BBAP) SCTP link SCTPLNK". Write
None
None
3000
The value to be set should be larger than the value of "RTOMIN" in "ADD Read & 3000 SCTP link SCTPLNK". Write
ms
1000
The value to be set should be larger than the value of "RTOMIN" in "ADD SCTPLNK" but smaller than Read & 1000 SCTP link the value of "RTOMAX". Write
%
12
12 SCTP link None
%
25
None
25 SCTP link None 1000(application type is M3UA), 5000(application type is BBAP) SCTP link None
None
4(application type is M3UA), 10(application type is BBAP)
None
None
SCTP link None
Read & Write
Read & Write Read & Write
Read & Write
None
None
2(application type is M3UA), 5(application type is BBAP)
None
NO
NO
SCTP link None
Read & Write
None
NO
NO
SCTP link None
Read & Write
None
CRC32
CRC32
SCTP link None
Read & Write
SCTP link None
Read & Write
None
800
800 SCTP link None
Read & Write
None
DISABLE
DISABLE
SCTP link None
Read & Write
None
None
None
BSC6900
None
Read & Write
None
DISABLE
DISABLE
SCTP link None
Read & Write
None
None
None
BSC6900
None
Read & Write
None
UNAVAILABLE
UNAVAILABLE
SCTP link None
Read & Write
None
YES
YES
SCTP link None
Read & Write
10 SCTP link None
Read & Write
SCTP link None
Read & Write
None
5000(application type is NBAP), 1000(application type is M3UA), 1000(application type is 1000 BBAP) SCTP link None
Read & Write
None
10(application type is NBAP), 4(application type is M3UA), 10(application 4 type is BBAP) SCTP link None
Read & Write
None
5(application type is NBAP), 2(application type is M3UA), 5(application 2 type is BBAP) SCTP link None
Read & Write
None
None
10
NO
NO
None
58080
58080 SCTP link None
Read & Write
None
2905
2905 SCTP link None
Read & Write
None
58000
58000 SCTP link None
Read & Write
None
None
None
None
None
Read & Write
None
None
None
None
None
Read & Write
None
None
None
None
None
Read & Write
None
None
None
None
None
Read & Write
None
None
None
BSC
None
Read & Write
None
None
None
BSC
None
Read & Write
None
None
None
None
None
Read & Write
None
BSC
None
When configure TC data, for example, select TC for "BM/TC config Flag", or MTP2 for "Application Type", the Read & E1/T1 link parameter should be set. Write
None
None
None
MTP3 link None
Read & Write
None
None
None
BSC
None
Read & Write
None
None
None
BSC
None
Read & Write
None
None
None
BSC
None
Read & Write
None
Read & Write
None
None
None
BSC
None
None
None
BSC
None
Read & Write
None
None
None
BSC
None
Read & Write
None
None
None
BSC
None
Read & Write
None
None
None
BSC
None
Read & Write
None
None
None
BSC
None
Read & Write
None
None
None
BSC
None
Read & Write
None
None
None
BSC
None
Read & Write
None
None
None
BSC
None
Read & Write
None
None
None
BSC
None
Read & Write
None
None
None
BSC
None
Read & Write
None
None
None
BSC
None
Read & Write
None
None
None
BSC
None
Read & Write
None
None
None
BSC
None
Read & Write
None
None
None
BSC
None
Read & Write
None
None
None
NSE
None
Read & Write
None
None
ALLOW
ALLOW
1800
BSC
None
Read & Write
1800 BSC
None
Read & Write
None
None
None
BSC
None
Read & Write
None
None
None
BSC
None
Read & Write
None
None
None
BSC
None
Read & Write
None
None
None
BSC
None
Read & Write
None
None
None
BSC
None
Read & Write
None
None
None
BSC
None
Read & Write
None
None
None
BSC
None
Read & Write
None
None
None
BSC
None
Read & Write
None
None
None
BSC
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
ON
None
None
None
ON
ON
None
None
ON
ON
None
None
ON
ON
None
None
None
None
Subsystem None
Read & Write
None
None
None
Subsystem None
Read & Write
None
None
None
Subsystem None
Read & Write
None
None
None
BSC
None
Read & Write
60 None
BSC6900
None
Read & Write
None
BSC6900
None
Read & Write
min
None
None
None This parameter is valid when SWITCH is ON in SET SLFSLVSW. This parameter is valid when SWITCH is ON in SET SLFSLVSW. This parameter is valid when SWITCH is ON in SET SLFSLVSW.
Read & Write Read & Write Read & Write Read & Write
None
None
None
BSC
Each SRAC is configured with a maximum of 32 LAs (MCC + MNC + LAC), and each LA can be bound to Read & only an SRAC. Write
None
None
None
BSC
None
BSC
The shared operators correspond to the location areas under an SRA must be Read & the same. Write
None
None
None
Read & Write
None
None
None
BSC
Each SRAC is configured with a maximum of 32 LAs (MCC + MNC + LAC), and each LA can be bound to Read & only an SRAC. Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Control plane link
None
Read & Write
None
None
None
BSC6900
None
Read & Write
None
None
None
Control plane link
None
Read & Write
None
None
None
Control plane link
None
Read & Write
None
Read & Write
None
None
None
None
None
OFF
OFF
BSC6900
None
Read & Write
None
OFF
OFF
BSC6900
None
Read & Write
None
OFF
OFF
BSC6900
None
Read & Write
None
OFF
OFF
BSC6900
None
Read & Write
None
OFF
OFF
BSC6900
None
Read & Write
None
OFF
OFF
BSC6900
None
Read & Write
None
0
0 BSC6900
None
Read & Write
None
0
0 BSC6900
None
Read & Write
None
0
0 BSC6900
None
Read & Write
None
0
0 BSC6900
None
Read & Write
BSC6900
None
Read & Write
None
NONE
None
None
None
None
BSC6900
None
Read & Write
None
None
None
BSC6900
None
Read & Write
None
None
None
BSC6900
None
Read & Write
None
None
None
BSC6900
None
Read & Write
None
None
None
BSC6900
None
Read & Write
None
None
None
None
None
Read & Write
None
NO
NO
None
None
Read & Write
None
None
None
None
None
Read & Write
None
NO
NO
None
None
Read & Write
None
None
None
None
None
Read & Write
None
SCUa
SCUa
None
None
Read & Write
None
NO
NO
None
None
Read & Write
None
None
None
None
None
Read & Write
None
None
None
BSC6900
None
Read & Write
None
None
None
BSC6900
None
Read & Write
None
ENABLED
ENABLED
BSC6900
None
Read & Write
None
None
None
BSC6900
None
Read & Write
None
None
None
BSC6900
None
Read & Write
None
Read & Write
None
None
None
BSC6900
None
None
None
None
None
1 None
None
None
BSC6900
This parameter is valid when FREQ is not ONTIME in ADD Read & SUBTSK. Write
BSC6900
This parameter is valid when FREQ is not ONTIME in ADD Read & SUBTSK. Write
BSC6900
This parameter is valid when FREQ is MONTHLY_T or MONTHLY_C.
Read & Write
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
min
None
None
None
30
None
BSC6900
This parameter is valid when FREQ is WEEKLY_T or WEEKLY_C.
BSC6900
This parameter is valid when FREQ is DAILY_T, WEEKLY_T or MONTHLY_T Read & in ADD SUBTSK. Write
BSC6900
This parameter is valid when FREQ is DAILY_T, WEEKLY_T or MONTHLY_T Read & in ADD SUBTSK. Write
BSC6900
This parameter is valid when FREQ is DAILY_T, WEEKLY_T or MONTHLY_T Read & in ADD SUBTSK. Write
BSC6900
This parameter is valid when FREQ is DAILY_T, WEEKLY_T or MONTHLY_T Read & in ADD SUBTSK. Write
BSC6900
This parameter is valid when FREQ is DAILY_T, WEEKLY_T or MONTHLY_T Read & in ADD SUBTSK. Write
BSC6900
This parameter is valid when FREQ is DAILY_C, WEEKLY_C or MONTHLY_C Read & in ADD SUBTSK. Write
BSC6900
This parameter is valid when FREQ is DAILY_C, WEEKLY_C or MONTHLY_C Read & in ADD SUBTSK. Write
30 BSC6900
None
BSC6900
This parameter is valid when FREQ is DAILY_C, WEEKLY_C or MONTHLY_C in ADD SUBTSK. This parameter is valid when FREQ is ONTIME in ADD SUBTSK.
Read & Write
Read & Write Read & Write
None
None
None
BSC6900
None
None
None
BSC6900
None
None
None
BSC6900
Read & None Write This parameter is valid when FREQ is not ONTIME in MOD Read & SUBTSK. Write
BSC6900
This parameter is valid when FREQ is not ONTIME in MOD Read & SUBTSK. Write
BSC6900
This parameter is valid when FREQ is DAILY_T, WEEKLY_T or MONTHLY_T Read & in MOD SUBTSK. Write
BSC6900
This parameter is valid when FREQ is DAILY_T, WEEKLY_T or MONTHLY_T Read & in MOD SUBTSK. Write
BSC6900
This parameter is valid when FREQ is DAILY_T, WEEKLY_T or MONTHLY_T Read & in MOD SUBTSK. Write
BSC6900
This parameter is valid when FREQ is DAILY_T, WEEKLY_T or MONTHLY_T Read & in MOD SUBTSK. Write
BSC6900
This parameter is valid when FREQ is DAILY_T, WEEKLY_T or MONTHLY_T Read & in MOD SUBTSK. Write
BSC6900
This parameter is valid when FREQ is DAILY_C, WEEKLY_C or MONTHLY_C Read & in MOD SUBTSK. Write
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
None
Read & Write
None
None
None
BSC6900
min
None
None
BSC6900
None
None
None
BSC6900
This parameter is valid when FREQ is DAILY_C, WEEKLY_C or MONTHLY_C Read & in MOD SUBTSK. Write This parameter is valid when FREQ is DAILY_C, WEEKLY_C or MONTHLY_C in MOD SUBTSK. This parameter is valid when FREQ is ONTIME in MOD SUBTSK.
Read & Write Read & Write
None
MBSC
None
None
None
Read & Write
None
BSC
None
None
None
Read & Write
None
None
None
None
None
Read & Write
None
None
None
None
None
Read & Write
None
None
None
None
None
Read & Write
None
None
None
BSC
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Board
None
Read & Write
None
A0
A0
Board
None
Read & Write
84 Board
None
Read & Write
None
84
None
OFF
OFF
Board
None
Read & Write
ms
0
0 Board
None
Read & Write
ms
400
400 Board
None
Read & Write
dB
20
20 Board
None
Read & Write
None
OFF
OFF
Board
None
Read & Write
None
MODE1
MODE1
Board
None
Read & Write
None
RELATIVELEVE L RELATIVELEVEL
Board
None
Read & Write
None
RELATIVE_2
dBm
RELATIVE_2
-43
Board
None
Read & Write
-43 Board
None
Read & Write
None
OFF
OFF
Board
None
Read & Write
None
FIXEDGAIN
FIXEDGAIN
Board
None
Read & Write
dBm
-4
-4 Board
None
Read & Write
dBm
-23
-23 Board
None
Read & Write
dBm
-18
-18 Board
None
Read & Write
dB
0
0 Board
None
Read & Write
dB
6
6 Board
None
Read & Write
Board
None
Read & Write
None
OFF
OFF
dB
12
12 Board
None
Read & Write
dB
6
6 Board
None
Read & Write
Board
None
Read & Write
0 Board
None
Read & Write
Board
None
Read & Write
4 Board
If the number of echo cancellations performed by AEC exceeds "AEC Detect Threshold" within the time specified by "AEC Detect Time", the TFO is closed forcibly.
Read & Write
20 Board
If the number of echo cancellations performed by AEC exceeds "AEC Detect Threshold" within the time specified by "AEC Detect Time", the TFO is closed forcibly.
Read & Write
None
OFF
s
None
s
None
OFF
0
OFF
OFF
4
20
None
OFF
OFF
Board
None
Read & Write
None
OFF
OFF
Board
None
Read & Write
None
ON
ON
Board
None
Read & Write
None
ON
ON
Board
None
Read & Write
None
OFF
OFF
Board
None
Read & Write
None
OFF
OFF
Board
None
Read & Write
None
Read & Write
None
OFF
OFF
Board
None
ON
ON
BSC
None
Read & Write
None
None
None
BSC
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Board
None
Read & Write
None
None
None
Board
None
Read & Write
None
None
None
Board
None
Read & Write
None
None
None
Board
None
Read & Write
0 None
Board
None
Read & Write
s
None
None
None
BSC
None
Read & Write
None
None
None
Cell
None
Read & Write
None
None
None
Board
None
Read & Write
None
None
None
None
None
Read & Write
None
Read & Write
None
None
None
BSC6900
None
None
None
BSC6900
None
Read & Write
None
None
None
BSC6900
None
Read & Write
None
None
None
BSC6900
None
Read & Write
None
None
None
None
None
Read & Write
None
None
None
BSC6900
None
Read & Write
None
None
None
BSC6900
None
Read & Write
None
None
None
None
None
Read & Write
None
Read & Write
None
None
None
BSC6900
None
None
None
BSC6900
None
Read & Write
None
None
None
BSC6900
None
Read & Write
None
None
None
BSC6900
None
Read & Write
None
None
None
BSC6900
None
Read & Write
None
None
None
BSC6900
None
Read & Write
None
None
None
BSC6900
None
Read & Write
None
None
None
BSC6900
None
Read & Write
None
None
None
BSC6900
None
Read & Write
None
None
None
BSC6900
None
Read & Write
None
None
None
BSC6900
None
Read & Write
None
None
None
BSC6900
None
Read & Write
None
None
None
BSC6900
None
Read & Write
None
None
None
BSC6900
None
Read & Write
None
None
None
BSC6900
None
Read & Write
None
None
None
BSC6900
None
Read & Write
None
None
None
BSC6900
None
Read & Write
%
50
50 BSC6900
None
Read & Write
%
50
50 BSC6900
None
Read & Write
%
100
100 BSC6900
None
Read & Write
%
100
100 BSC6900
None
Read & Write
%
100
100 BSC6900
None
Read & Write
%
None
100
None
None
100 BSC6900
None
Read & Write
BSC6900
None
Read & Write
None
None
None
BSC6900
When the value of "ITFT" in "ADD TRMMAP" is set to IUB, IUR or IUCS, this parameter Read & is valid. Write
None
None
None
BSC6900
None
Read & Write
0 BSC6900
None
Read & Write
kbit/s
0
kbit/s
0
0 BSC6900
None
Read & Write
kbit/s
0
0 BSC6900
None
Read & Write
kbit/s
0
0 BSC6900
None
Read & Write
kbit/s
0
0 BSC6900
None
Read & Write
kbit/s
0
0 BSC6900
None
Read & Write
kbit/s
0
0 BSC6900
None
Read & Write
kbit/s
0
0 BSC6900
None
Read & Write
kbit/s
0
0 BSC6900
None
Read & Write
kbit/s
0
0 BSC6900
None
Read & Write
%
5
5 BSC6900
None
Read & Write
%
5
5 BSC6900
None
Read & Write
%
15
15 BSC6900
None
Read & Write
%
15
15 BSC6900
None
Read & Write
%
20
20 BSC6900
None
Read & Write
%
20
20 BSC6900
None
Read & Write
%
0
0 BSC6900
None
Read & Write
%
0
0 BSC6900
None
Read & Write
%
1
1 BSC6900
None
Read & Write
%
1
1 BSC6900
None
Read & Write
%
15
15 BSC6900
None
Read & Write
%
20
20 BSC6900
None
Read & Write
80 BSC6900
None
Read & Write
%
80
None
None
None
BSC6900
None
Read & Write
None
None
None
BSC6900
None
Read & Write
None
None
None
None
None
BSC6900
None
Read & Write
None
None
BSC6900
When the value of "ITFT" in "ADD TRMMAP" is set to IUB, IUR or IUCS, this parameter Read & is valid. Write
None
When the interface type is Abis, transmission type is IP, the parameter is EF; When the interface type is A, Ater or Iur-g, the parameter is EF. BSC6900
When the value of "ITFT" in "ADD TRMMAP" is set to A or Read & ABIS, this parameter is valid. Write
None
None
When the interface type is Abis, transmission type is IP, the parameter is AF43; When the interface type is A, Ater or Iur-g, the parameter is AF43. BSC6900
When the value of "ITFT" in "ADD TRMMAP" is set to A or Read & ABIS, this parameter is valid. Write
None
None
When the interface type is Abis, the parameter is AF43.
BSC6900
When the value of "ITFT" in "ADD TRMMAP" is set to Read & ABIS, this parameter is valid. Write
None
None
When the interface type is Abis, transmission type is IP, the parameter is AF33. BSC6900
When the value of "ITFT" in "ADD TRMMAP" is set to Read & ABIS, this parameter is valid. Write
None
None
When the interface type is Abis and transmission type is HDLC, the parameter is 1. BSC6900
When the value of "ITFT" in "ADD TRMMAP" is set to Read & ABIS, this parameter is valid. Write
None
None
When the interface type is Abis and transmission type is HDLC, the parameter is 1. BSC6900
When the value of "ITFT" in "ADD TRMMAP" is set to Read & ABIS, this parameter is valid. Write
None
None
When the interface type is Abis and transmission type is HDLC, the parameter is 1. BSC6900
When the value of "ITFT" in "ADD TRMMAP" is set to Read & ABIS, this parameter is valid. Write
None
None
When the interface type is Abis and transmission type is HDLC, the parameter is 2. BSC6900
None
None
None
TRX
None
Read & Write
None
None
None
TRX
None
Read & Write
When the value of "ITFT" in "ADD TRMMAP" is set to Read & ABIS, this parameter is valid. Write
None
None
None
TRX
None
Read & Write
None
None
None
TRX
None
Read & Write
None
None
None
BTS
The value range of this parameter varies with BTS type. Different types of BTSs support a different number of Read & cabinets. Write
None
None
None
BTS
None
Read & Write
None
None
None
BTS
None
Read & Write
None
None
None
TRX
None
Read & Write
None
None
None
TRX
None
Read & Write
None
None
None
TRX
None
Read & Write
None
None
None
TRX
None
Read & Write
None
None
None
None
None
Read & Write
None
None
None
BSC6900
None
Read & Write
None
None
None
E1/T1 port None
Read & Write
None
None
None
E1/T1 port None
Read & Write
None
None
None
E1/T1 port None
Read & Write
None
None
None
E1/T1 port None
Read & Write
None
None
None
E1/T1 port None
Read & Write
None
GMT+0800
None
BSC6900
None
Read & Write
None
NO
None
BSC6900
None
Read & Write
None
None
None
BSC6900
None
Read & Write
None
None
None
BSC6900
None
Read & Write
d
None
None
BSC6900
None
Read & Write
None
None
None
BSC6900
None
Read & Write
None
None
None
BSC6900
None
Read & Write
None
None
None
BSC6900
None
Read & Write
None
None
None
BSC6900
None
Read & Write
None
None
None
BSC6900
None
Read & Write
d
None
None
BSC6900
None
Read & Write
None
None
None
BSC6900
None
Read & Write
None
None
None
BSC6900
None
Read & Write
None
Read & Write
None
None
None
BSC6900
min
None
None
BSC6900
None
Read & Write
None
None
None
Subsystem None
Read & Write
None
None
None
Subsystem None
Read & Write
None
None
None
Subsystem None
Read & Write
None
None
None
BSC
None
Read & Write
None
None
None
BSC
None
Read & Write
None
None
None
BSC
The sum rate of routing of each operator must be 100.
Read & Write
None
None
None
BSC
None
Read & Write
None
None
None
BSC
The sum rate of routing of each operator must be 100.
Read & Write
None
None
None
BSC
None
Read & Write
None
None
None
BSC
The sum rate of routing of each operator must be 100.
Read & Write
None
None
None
None
None
Read & Write
None
None
None
BSC6900
None
Read & Write
None
None
None
BSC6900
None
Read & Write
None
None
None
BSC6900
None
Read & Write
None
None
None
None
None
Read & Write
None
None
None
None
None
Read & Write
None
None
None
None
None
Read & Write
None
CLOSE
None
None
None
Read & Write
None
None
None
None
None
Read & Write
None
None
None
None
None
Read & Write
None
None
None
None
None
Read & Write
None
None
None
None
None
Read & Write
None
None
None
None
None
Read & Write
None
None
None
None
None
Read & Write
Service Interrupted After Modification
No (No impact on the UE in idle mode)
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
No (No impact on the UE in idle mode)
No (No impact on the UE in idle mode)
Interruption Scope
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Interruption Duration(Min)
Caution
Not involved
The parameter cannot be modified.
Not involved
The parameter cannot be modified.
Not involved
The parameter cannot be modified.
Not involved
The parameter cannot be modified.
Not involved
The parameter cannot be modified.
Not involved
The parameter cannot be modified.
Not involved
The parameter cannot be modified.
Not involved
The TRMMAP must be configured.
Not involved
The FACTORT ABLE must be configured.
Not involved
Not involved
Not involved
The parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
Not involved
Not involved
The parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
The parameter cannot be modified.
Not involved
The parameter cannot be modified.
Not involved
The parameter cannot be modified.
Not involved
The parameter cannot be modified.
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Yes
E1/T1 link
Less than 5 minutes
None
Yes
E1/T1 link
Less than 5 minutes
None
Yes
E1/T1 link
Less than 5 minutes
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
Not involved
Not involved
The parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
Not involved
Not involved
The value of this parameter cannot be changed.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
This parameter should be set on the basis of the negotiation with the MSC at the peer end.
No (No impact on the UE in idle mode)
Not involved
No (No impact on the UE in idle mode)
Not involved
Not involved
The setting of this parameter needs negotiation with the MSC of the opposite network element. If the MSC supports processing assignmen t failure messages containing the cause value of direct retry, set this parameter to YES; otherwise, set this parameter to NO.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
The purpose of setting this parameter is to avoid call connection failure when an MS supporting the full rate channel only requests a half rate channel or an MS supporting the half rate channel only requests a full rate channel. In this way, the BSC can easily interconne ct with an MSC of another vendor.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
To disable the alarm blink filter function, set this parameter to "0". To enable the alarm blink filter function, set this parameter to a value greater than 0 and turn on the alarm blink filter switch. See "SET ALMBLKS W" for setting the alarm blink filter switch.
No (No impact on the UE in idle mode)
Not involved
Not involved
1. If you set "Upper count threshold of raised fault" and "Lower count threshold of raised fault" to "0", the accumulat ed number of blink times for the alarm is counted but not reported. 2. If "Upper count threshold of raised fault" is not "0", the value of "Lower count threshold of raised fault" cannot be "0" and you must
No (No impact on the UE in idle mode)
Not involved
Not involved
1. If you set "Upper count threshold of raised fault" and "Lower count threshold of raised fault" to "0", the accumulat ed number of blink times for the alarm is counted but not reported. 2. If "Lower count threshold of raised fault" is not 0, the value of "Upper count threshold of raised fault" cannot be 0 and you must
No (No impact on the UE in idle mode)
Not involved
Not involved
1. If you set "Upper time threshold of raised fault" and "Lower time threshold of raised fault" to "0", the accumulat ed alarm blink duration is counted but not reported. 2. If "Upper time threshold of raised fault" is not "0", the value of "Lower time threshold of raised fault" cannot be "0" and you must ensure that
No (No impact on the UE in idle mode)
Not involved
Not involved
1. If you set "Upper time threshold of raised fault" and "Lower time threshold of raised fault" to "0", the accumulat ed alarm blink duration is counted but not reported. 2. If "Upper time threshold of raised fault" is not "0", the value of "Lower time threshold of raised fault" cannot be "0" and you must ensure that
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
To enable the alarm blink filter function, set "Alarm switch of blinking filter" and "Switch of stat blinking alarm" to "ENABLE".
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
The parameter cannot be modified.
Not involved
The parameter cannot be modified.
Not involved
The parameter cannot be modified.
Not involved
The parameter cannot be modified.
Not involved
The parameter cannot be modified.
Not involved
The parameter cannot be modified.
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
The parameter cannot be modified.
Not involved
The parameter cannot be modified.
Not involved
The parameter cannot be modified.
Not involved
Not involved
Not involved
The parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
No (No impact on the UE in idle mode)
Not involved
Not involved
Not involved
None
Not involved
The congestion start threshold must be greater than the congestion end threshold.
No (No impact on the UE in idle mode)
Not involved
Not involved
The congestion start threshold must be greater than the congestion end threshold.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
The parameter cannot be modified.
Not involved
The parameter cannot be modified.
Not involved
The parameter cannot be modified.
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
The parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
The parameter cannot be modified.
Not involved
Not involved
Not involved
Not involved
Not involved
The parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
The parameter cannot be modified.
Not involved
Not involved
Not involved
Not involved
Not involved
The parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
No (No impact on the UE in idle mode)
Not involved
Not involved
Not involved
None
Not involved
The congestion start threshold must be greater than the congestion end threshold.
No (No impact on the UE in idle mode)
Not involved
Not involved
The congestion start threshold must be greater than the congestion end threshold.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
Not involved
Not involved
The parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Yes
BC
Services are interrupted until the parameter is consistent with the SGSN at the peer end.
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Yes
Cell
Less than 1 minute
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
Not involved
Not involved
The parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
Not involved
Not involved
None
Not involved
The parameter cannot be modified.
Not involved
Not involved
Not involved
The parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
The parameter cannot be modified.
Not involved
The parameter cannot be modified.
Not involved
The parameter cannot be modified.
Not involved
The parameter cannot be modified.
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
The parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
The parameter cannot be modified.
Not involved
Not involved
No (No impact on the UE in idle mode)
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
None
Not involved
The parameter cannot be modified.
Not involved
The parameter cannot be modified.
Not involved
Not involved
Not involved
The parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
The parameter cannot be modified.
Not involved
The parameter cannot be modified.
Not involved
The parameter cannot be modified.
Not involved
The parameter cannot be modified.
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
The parameter cannot be modified.
Not involved
The parameter cannot be modified.
Not involved
The parameter cannot be modified.
Not involved
The parameter cannot be modified.
Not involved
Not involved
Not involved
The parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
The value of this parameter cannot be changed.
Not involved
Not involved
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
No (No impact on the UE in idle mode)
Not involved
Not involved
Not involved
This parameter should be set according to the requireme nts of the existing network. If this parameter is set to Yes, the voice signals are encoded only once at the originating MS and decoded only once at the terminating MS. This improves the QoS of the MS-toMS call. The TFO function is performed only between
Not involved
If the TRXs in a cell under this BSC are at a frequency on DCS1800, this parameter cannot be set to PCS1900, and vice versa.
Yes
BSC6900
Less than 10 minutes
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
According to the GSM protocols, the BSC performs CRC on each TRAU frame. If the CRC of a certain TRAU frame fails, the TRAU frame is regarded as an invalid one. Then, the BSC performs smoothing on the invalid frame, thus eliminating the noise caused by the errors in parameter transmissi on. The CRC should be
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Yes
BSC6900
Less than 5 minutes
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Yes
BSC6900
Less than 10 minutes
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
Not involved
Not involved
None
Not involved
Not involved
Not involved
None
Not involved
Not involved
Not involved
None
Not involved
Not involved
Not involved
None
Not involved
Not involved
Not involved
None
Not involved
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
Not involved
Not involved
None
Not involved
Not involved
Not involved
None
Not involved
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
In principle, you should not configure the frequencie s on the P frequency band and on the E frequency band in one MA group. If the frequencie s on the P frequency band and on the E frequency band are configured in one MA group, some MSs may not process calls. In this case, you can set this parameter to No.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
If this parameter is set to a smaller value, the control of the arrival rate of paging messages is sensitive. If this parameter is set to a greater value, the control is insensitive.
No (No impact on the UE in idle mode)
Not involved
Not involved
If this parameter is set to a greater value, more paging messages are processed. When the BSC is overloaded , the control on the arrival rate of paging messages does not take effect. If this parameter is set to a smaller value, some paging messages that can be processed by the BSC are discarded, thus
No (No impact on the UE in idle mode)
Not involved
Not involved
If this parameter is set to a higher value, more PS paging messages can be processed, thus increasing the BSC load. As a result, the control on the message arrival rate may fail to protect the BSC. If this parameter is set to a lower value, more PS paging messages are discarded, thus affecting the paging success
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
The smaller the value of this parameter is, the more sensitively the BSC controls the arrival rate of channel request messages, and vice versa.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
No (No impact on the UE in idle mode)
Not involved
Not involved
No (No impact on the UE in idle mode)
Not involved
Not involved
If this parameter is set to a greater value, the CPU may be overloaded . If this parameter is set to a smaller value, the call loss rate is high. If this parameter is set to a greater value, the CPU may be overloaded . If this parameter is set to a smaller value, the call loss rate is high. If this parameter is set to a greater value, the CPU may be overloaded . If this parameter is set to a smaller value, the call loss rate is high.
No (No impact on the UE in idle mode)
Not involved
Not involved
If this parameter is set to a greater value, the CPU may be overloaded . If this parameter is set to a smaller value, the call loss rate is high.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
No (No impact on the UE in idle mode)
Not involved
Not involved
Not involved
Before flow control is started, check the CPU usage on the A interface board. If the CPU usage on the A interface board exceeds "A Interface Board CPU Usage Threshold" , it is recommen ded that the number of signaling links on the A interface be increased before flow control is started.
Not involved
If this parameter is set to a higher value, the A interface board may be reset when the traffic volume is high.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
Not involved
No (No impact on the UE in idle mode)
Not involved
Not involved
Not involved
No (No impact on the UE in idle mode)
Not involved
Not involved
Not involved
No (No impact on the UE in idle mode)
Not involved
Not involved
Not involved
No (No impact on the UE in idle mode)
Not involved
Not involved
Not involved
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Less than 30 minutes
The modified parameter takes effect after the BSC is reset.
Yes
BSC
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
The high multislot class function requires the support from the MS. For an MS of a high multislot class 32, 33, or34, the extended dynamic allocation (EDA) function must be used if more than three timeslots are required on the uplink.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
The EDA requires the support from the MS.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
If this parameter is set to a small value, error is likely to occur during the detection of the burst packets.
Not involved
If this parameter is set to a great value, the PS DSP load will be heavy.
No (No impact on the UE in idle mode)
No (No impact on the UE in idle mode)
Not involved
Not involved
No (No impact on the UE in idle mode)
Not involved
Not involved
If this parameter is set to a small value, the detection of service type is sensitive and may lead to ping-pong handover between different services.
No (No impact on the UE in idle mode)
Not involved
Not involved
If this parameter is set to a small value, the detection of service type is sensitive and may lead to ping-pong switching between different services.
Not involved
Not involved
Not involved
None
Not involved
Not involved
Not involved
None
Not involved
Not involved
Not involved
None
Not involved
Not involved
Not involved
None
Not involved
Not involved
Not involved
None
Not involved
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
Not involved
Not involved
The parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
If the value of this parameter is too small, the SCUs of the TC subrack may remain congested. If the value is too large, the call failure rate may retain a higher value for a longer time.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
Not involved
Not involved
The parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
Not involved
Not involved
This parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
This parameter cannot contain #.
Yes
BTS
Less than 5 minutes
None
Yes
BTS
Less than 5 minutes
None
Yes
BTS
Less than 5 minutes
None
Yes
BTS
Less than 5 minutes
None
Yes
BTS
Less than 5 minutes
None
Yes
BTS
Less than 5 minutes
None
Yes
BTS
Less than 5 minutes
None
Less than 5 minutes
This parameter depends on the type of the actual physical IP transport cable of the BTS.
Yes
BTS
Yes
BTS
Less than 5 minutes
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
Not involved
Not involved
The parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
This parameter cannot be modified.
Not involved
This parameter cannot be modified.
Not involved
This parameter cannot be modified.
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
This parameter cannot be modified.
Yes
BTS
Less than 5 minutes
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
Not involved
Not involved
The parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
Not involved
Not involved
The parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
Not involved
Not involved
None
Not involved
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
Not involved
Not involved
The parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
Not involved
Not involved
The parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
This parameter is supported only by the BTS3012A and BTS3006A .
Not involved
This parameter is supported only by the BTS3012A and BTS3006A .
Not involved
This parameter is supported only by the BTS3012A and BTS3006A .
No (No impact on the UE in idle mode)
No (No impact on the UE in idle mode)
No (No impact on the UE in idle mode)
Not involved
Not involved
Not involved
No (No impact on the UE in idle mode)
No (No impact on the UE in idle mode)
Yes
Not involved
Not involved
Not involved
Not involved
This parameter is supported only by the BTS3012A and BTS3006A .
Not involved
This parameter is supported only by the BTS3012A and BTS3006A .
Not involved
This parameter is supported only by the BTS3012A and BTS3006A .
No (No impact on the UE in idle mode)
Not involved
Not involved
This parameter is supported only by the BTS3012A and BTS3006A .
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
The parameter cannot be modified.
Not involved
Not involved
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
Not involved
Not involved
The parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
Not involved
Not involved
This parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
Not involved
Not involved
The parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
Not involved
Not involved
The parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
Not involved
Not involved
The parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
Not involved
Not involved
This parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
The parameter cannot be modified.
Not involved
Not involved
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
Not involved
Not involved
This parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
Not involved
Not involved
The parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
BTS
Interrupt according to the configuration. See the parameter "Power-off Start Time" and "Power-off End Time".
None
Yes
BTS
Interrupt according to the configuration. See the parameter "Power-off Start Time" and "Power-off End Time".
None
Yes
BTS
Interrupt according to the configuration. See the parameter "Power-off Start Time" and "Power-off End Time".
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Yes
Not involved
Not involved
Not involved
The parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
Not involved
Not involved
The parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
Not involved
Not involved
This parameter cannot be modified.
Yes
BTS
Less than 5 minutes
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
This parameter cannot be modified.
Less than 5 minutes
This parameter can be modified only when the BTS is deactivate d.
Less than 5 minutes
This parameter can be modified only when the BTS is deactivate d.
Less than 5 minutes
This parameter can be modified only when the BTS is deactivate d.
Less than 5 minutes
This parameter can be modified only when the BTS is deactivate d.
Not involved
Yes
Yes
Yes
Yes
Not involved
BTS
BTS
BTS
BTS
Yes
BTS
Less than 5 minutes
This parameter can be modified only when the BTS is deactivate d.
Yes
BTS
Less than 5 minutes
This parameter can be modified only when the BTS is deactivate d.
Yes
BTS
Less than 5 minutes
None
Yes
BTS
Less than 5 minutes
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Yes
BTS
Less than 5 minutes
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Yes
BTS
Less than 5 minutes
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Yes
BTS
Less than 5 minutes
This parameter must be set according to the medium type of the actual IP transmissi on cable used by the BTS.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
Not involved
Not involved
The parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
Not involved
Not involved
This parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
The CI can be input in hexadecim al format. The hexadecim al format is H'****, for example, H'1214.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
The parameter cannot be modified.
Not involved
Not involved
No (No impact on the UE in idle mode)
No (No impact on the UE in idle mode)
No (No impact on the UE in idle mode)
Not involved
Not involved
Not involved
Not involved
None
Not involved
This parameter is supported only by the BTS3012A .
Not involved
This parameter is supported only by the BTS3012A .
No (No impact on the UE in idle mode)
Not involved
Not involved
This parameter is supported only by the BTS3012A .
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
Not involved
Not involved
The parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
The parameter cannot be modified.
Not involved
Not involved
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
This parameter is supported only by the BTS3012A and BTS3006A .
Not involved
This parameter is supported only by the BTS3012A and BTS3006A .
Not involved
This parameter is supported only by the BTS3012A and BTS3006A .
No (No impact on the UE in idle mode)
No (No impact on the UE in idle mode)
No (No impact on the UE in idle mode)
Not involved
Not involved
Not involved
No (No impact on the UE in idle mode)
No (No impact on the UE in idle mode)
No (No impact on the UE in idle mode)
No (No impact on the UE in idle mode)
Not involved
Not involved
Not involved
Not involved
Not involved
This parameter is supported only by the BTS3012A and BTS3006A .
Not involved
This parameter is supported only by the BTS3012A and BTS3006A .
Not involved
This parameter is supported only by the BTS3012A and BTS3006A .
Not involved
This parameter is supported only by the BTS3012A and BTS3006A .
No (No impact on the UE in idle mode)
No (No impact on the UE in idle mode)
No (No impact on the UE in idle mode)
No (No impact on the UE in idle mode)
Not involved
Not involved
Not involved
Not involved
Not involved
This parameter is supported only by the BTS3012A and BTS3006A .
Not involved
This parameter is supported only by the BTS3012A and BTS3006A .
Not involved
This parameter is supported only by the BTS3012A and BTS3006A .
Not involved
This parameter is supported only by the BTS3012A and BTS3006A .
No (No impact on the UE in idle mode)
No (No impact on the UE in idle mode)
No (No impact on the UE in idle mode)
Not involved
Not involved
Not involved
Not involved
This parameter is supported only by the BTS3012A and BTS3006A .
Not involved
This parameter is supported only by the BTS3012A and BTS3006A .
Not involved
This parameter is supported only by the BTS3002C .
No (No impact on the UE in idle mode)
Not involved
Not involved
This parameter is supported only by the BTS3002C .
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
The parameter cannot be modified.
Not involved
Not involved
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
Not involved
Not involved
None
Not involved
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
Not involved
Not involved
The parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
Not involved
Not involved
The parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
This parameter cannot be modified.
Not involved
Not involved
Not involved
Not involved
Not involved
This parameter cannot be modified.
Yes
BTS
Less than 5 minutes
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
Not involved
Not involved
This parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
Not involved
Not involved
The parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not Involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
The parameter cannot be modified.
Not involved
Not involved
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
Not involved
Not involved
The parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
Not involved
Not involved
The parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
The parameter cannot be modified.
Not involved
Not involved
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Yes
BTS
Less than 5 minutes
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
The parameter cannot be modified.
Not involved
Not involved
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
Not involved
Not involved
The parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
Not involved
Not involved
The parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
This parameter is supported only by the following types of BTSs: BTS3012, BTS3006C , BTS3012A E, BTS3012 II, and BTS3002E .
No (No impact on the UE in idle mode)
Not involved
No (No impact on the UE in idle mode)
No (No impact on the UE in idle mode)
Not involved
Not involved
Not involved
This parameter is supported only by the following types of BTSs: BTS3012, BTS3006C , BTS3012A E, BTS3012 II, and BTS3002E .
Not involved
This parameter is supported only by the following types of BTSs: BTS3012, BTS3006C , BTS3012A E, BTS3012 II, and BTS3002E .
No (No impact on the UE in idle mode)
No (No impact on the UE in idle mode)
Not involved
Not involved
Not involved
This parameter is supported only by the following types of BTSs: BTS3012, BTS3006C , BTS3012A E, BTS3012 II, and BTS3002E .
Not involved
This parameter is supported only by the following types of BTSs: BTS3012, BTS3006C , BTS3012A E, BTS3012 II, and BTS3002E .
No (No impact on the UE in idle mode)
Not involved
Not involved
This parameter is supported only by the following types of BTSs: BTS3012, BTS3006C , BTS3012A E, BTS3012 II, and BTS3002E .
No (No impact on the UE in idle mode)
Not involved
Not involved
This parameter is supported only by the following types of BTSs: BTS3012, BTS3006C , BTS3012A E, BTS3012 II, and BTS3002E .
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
The parameter cannot be modified.
Not involved
Not involved
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
Not involved
Not involved
The parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
The parameter cannot be modified.
Not involved
Not involved
No (No impact on the UE in idle mode)
Yes
Yes
Yes
Yes
Yes
Not involved
BTS
BTS
BTS
BTS
BTS
Not involved
None
Less than 5 minutes
This parameter can be modified only when the BTS is deactivate d.
Less than 5 minutes
This parameter can be modified only when the BTS is deactivate d.
Less than 5 minutes
This parameter can be modified only when the BTS is deactivate d.
Less than 5 minutes
This parameter can be modified only when the BTS is deactivate d.
Less than 5 minutes
This parameter can be modified only when the BTS is deactivate d.
Yes
Yes
Yes
Not involved
Yes
Yes
BTS
BTS
BTS
Not involved
BTS
BTS
Less than 5 minutes
This parameter can be modified only when the BTS is deactivate d.
Less than 5 minutes
This parameter can be modified only when the BTS is deactivate d.
Less than 5 minutes
This parameter can be modified only when the BTS is deactivate d.
Not involved
This parameter cannot be modified.
Less than 5 minutes
This parameter can be modified only when the BTS is deactivate d.
Less than 5 minutes
This parameter can be modified only when the BTS is deactivate d.
Yes
Yes
Yes
Yes
Yes
Yes
BTS
BTS
BTS
BTS
BTS
BTS
Less than 5 minutes
This parameter can be modified only when the BTS is deactivate d.
Less than 5 minutes
This parameter can be modified only when the BTS is deactivate d.
Less than 5 minutes
This parameter can be modified only when the BTS is deactivate d.
Less than 5 minutes
This parameter can be modified only when the BTS is deactivate d.
Less than 5 minutes
This parameter can be modified only when the BTS is deactivate d.
Less than 5 minutes
This parameter can be modified only when the BTS is deactivate d.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
Not involved
Not involved
The parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
This parameter is not supported by the BTS3001C and BTS3001C P.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
Not involved
Not involved
The parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Yes
BTS
Less than 5 minutes
If this parameter of an activated BTS is modified, the entire BTS chain is reset.
Yes
BTS
Less than 5 minutes
If this parameter of an activated BTS is modified, the entire BTS chain is reset.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
Not involved
Not involved
The parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
Not involved
Not involved
The parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
Not involved
Not involved
The parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
The parameter cannot be modified.
Not involved
Not involved
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
Not involved
Not involved
None
Yes
BTS
Less than 5 minutes
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Yes
BTS
Less than 5 minutes
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
Not involved
Not involved
The parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
The parameter cannot be modified.
Not involved
Not involved
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
Not involved
Not involved
The parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
Not involved
Not involved
The parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
The parameter cannot be modified.
Not involved
Not involved
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
Not involved
Not involved
The parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
Not involved
Not involved
The parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
Not involved
Not involved
The parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
Not involved
Not involved
The parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
The parameter cannot be modified.
Not involved
Not involved
Not involved
Not involved
Not involved
The parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
Not involved
Not involved
The parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
This parameter cannot be modified.
Not involved
This parameter cannot be modified.
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
This parameter cannot be modified.
Yes
BTS
Less than 5 minutes
None
Yes
BTS
Less than 5 minutes
None
Yes
BTS
Less than 5 minutes
None
Yes
BTS
Less than 5 minutes
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
The parameter cannot be modified.
Not involved
Not involved
No (No impact on the UE in idle mode)
Not involved
Not involved
Not involved
Not involved
None
Not involved
This parameter cannot be modified.
Not involved
Not involved
Not involved
This parameter cannot be modified.
Yes
BTS
Less than 5 minutes
None
Yes
BTS
Less than 5 minutes
None
Yes
BTS
Less than 5 minutes
None
Not involved
Not involved
Not involved
This parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
Not involved
Not involved
The parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
Not involved
Not involved
This parameter cannot be modified.
Not involved
Not involved
Not involved
This parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
Not involved
Not involved
The parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Yes
BTS
Less than 5 minutes
None
Yes
BTS
Less than 5 minutes
None
Yes
BTS
Less than 5 minutes
None
Yes
BTS
Less than 5 minutes
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
The parameter cannot be modified.
Not involved
Not involved
No (No impact on the UE in idle mode)
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
None
Not involved
This parameter cannot be modified.
Not involved
This parameter cannot be modified.
Not involved
Not involved
Not involved
This parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
Not involved
Not involved
The parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
Not involved
Not involved
The parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
The setting of this parameter must be greater than "HLTHD".
Not involved
This parameter must be less than "HUTHD".
Not involved
The setting of this parameter must be greater than "TLTHD".
No (No impact on the UE in idle mode)
No (No impact on the UE in idle mode)
No (No impact on the UE in idle mode)
Not involved
Not involved
Not involved
No (No impact on the UE in idle mode)
Not involved
Not involved
This parameter must be less than "TUTHD".
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
Not involved
Not involved
The parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
This parameter is supported only by the following types of BTSs: BTS3012, BTS3006C , BTS3012A E, BTS3012 II, and BTS3002E .
No (No impact on the UE in idle mode)
Not involved
No (No impact on the UE in idle mode)
No (No impact on the UE in idle mode)
Not involved
Not involved
Not involved
This parameter is supported only by the following types of BTSs: BTS3012, BTS3006C , BTS3012A E, BTS3012 II, and BTS3002E .
Not involved
This parameter is supported only by the following types of BTSs: BTS3012, BTS3006C , BTS3012A E, BTS3012 II, and BTS3002E .
No (No impact on the UE in idle mode)
Not involved
Not involved
This parameter is supported only by the following types of BTSs: BTS3012, BTS3006C , BTS3012A E, BTS3012 II, and BTS3002E .
No (No impact on the UE in idle mode)
Not involved
Not involved
This parameter is supported only by the following dualdensity BTSs: BTS3012, BTS3006C , BTS3012A E, BTS3012 II, and BTS3002E .
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
The parameter cannot be modified.
Not involved
Not involved
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
Not involved
Not involved
The parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
Not involved
Not involved
The parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Yes
BTS
Less than 5 minutes
None
Yes
BTS
Less than 5 minutes
None
Yes
BTS
Less than 5 minutes
None
Yes
BTS
Less than 5 minutes
None
Yes
BTS
Less than 5 minutes
None
Yes
BTS
Less than 5 minutes
None
Yes
BTS
Less than 5 minutes
None
Yes
BTS
Less than 5 minutes
None
Yes
BTS
Less than 5 minutes
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
Not involved
Not involved
The parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
Not involved
Not involved
The parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
Not involved
Not involved
The parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Yes
BTS
Less than 5 minutes
None
Yes
BTS
Less than 5 minutes
None
Yes
BTS
Less than 5 minutes
None
Yes
BTS
Less than 5 minutes
None
Yes
BTS
Less than 5 minutes
None
Yes
BTS
Less than 5 minutes
None
Yes
BTS
Less than 5 minutes
None
Yes
BTS
Less than 5 minutes
None
Yes
BTS
Less than 15 minutes
None
Yes
IP path
Less than 5 minutes
None
Not involved
Not involved
Not involved
Not involved
Not involved
The parameter cannot be modified.
Not involved
The parameter cannot be modified.
Not involved
Not involved
Not involved
The parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
Not involved
Not involved
The parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
Not involved
Not involved
The parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Yes
BTS
Less than 5 minutes
None
Yes
BTS
Less than 5 minutes
None
Yes
BTS
Less than 5 minutes
None
Not involved
Not involved
Not involved
This parameter cannot be modified.
Yes
BTS
Less than 5 minutes
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
Not involved
Not involved
The parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Yes
BTS
Less than 5 minutes
This parameter must be set according to the medium type of the actual IP transmissi on cable used by the BTS.
No (No impact on the UE in idle mode)
BTS
Less than 5 minutes
None
Yes
BTS
Less than 5 minutes
None
Yes
BTS
Less than 5 minutes
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
Not involved
Not involved
The parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
If the routing port of the BTS works in IP over FE mode, Route Type can be set to either NEXTHOP or OUTIF. If the routing port of the BTS works in IP over E1 mode, Route Type can be set to only OUTIF.
Yes
BTS
Less than 5 minutes
None
Yes
BTS
Less than 5 minutes
None
Yes
BTS
Less than 5 minutes
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
Not involved
Not involved
The parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
Not involved
Not involved
The parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Yes
BTS
Less than 5 minutes
None
Yes
BTS
Less than 5 minutes
None
Yes
BTS
Less than 5 minutes
None
Not involved
Not involved
Not involved
This parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
Not involved
Not involved
The parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
Not involved
Not involved
The parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
Not involved
Not involved
The parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
Not involved
Not involved
The parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
Not involved
Not involved
This parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
Not involved
Not involved
The parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
The parameter cannot be modified.
Not involved
Not involved
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
Not involved
Not involved
The parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
The parameter cannot be modified.
Not involved
Not involved
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Yes
PPP link
Less than 5 minutes
None
Yes
BTS
Less than 5 minutes
None
Yes
BTS
Less than 5 minutes
None
Yes
BTS
Less than 5 minutes
None
Yes
BTS
Less than 5 minutes
None
Yes
PPP link
Less than 5 minutes
None
Yes
PPP link
Less than 5 minutes
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Yes
PPP link
Less than 5 minutes
None
Yes
Yes
Yes
Yes
Yes
PPP link
PPP link
PPP link
PPP link
PPP link
Less than 5 minutes
None
Less than 5 minutes
Negotiation can succeed only when the configurati on is consistent on the local and peer ends.
Less than 5 minutes
Negotiation can succeed only when the configurati on is consistent on the local and peer ends.
Less than 5 minutes
Negotiation can succeed only when the configurati on is consistent on the local and peer ends.
Less than 5 minutes
Negotiation can succeed only when the configurati on is consistent on the local and peer ends.
Yes
PPP link
Less than 5 minutes
None
Yes
PPP link
Less than 5 minutes
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
Not involved
Not involved
The parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Yes
PPP link
Less than 5 minutes
None
Not involved
Not involved
Not involved
This parameter cannot be modified.
Yes
BTS
Less than 5 minutes
None
Yes
BTS
Less than 5 minutes
None
Yes
BTS
Less than 5 minutes
None
Yes
BTS
Less than 5 minutes
None
Yes
PPP link
Less than 5 minutes
The modificatio n of the PPP link that is between the BTS and the BSC will affect the services. The modificatio n of the PPP link that is between the BTS and the lower-level BTSs will lead to intermittent services carried by the lowerlevel BTSs.
Yes
PPP link
Less than 5 minutes
None
Yes
BTS
Less than 5 minutes
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
The parameter cannot be modified.
Not involved
Not involved
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
Not involved
Not involved
The parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
Not involved
Not involved
The parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
Not involved
Not involved
The parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
If BTS Bar Code is incorrect, the OML between the BTS and the BSC cannot be established . In this case, no alarm or status is displayed. When the BBU or BTS3900E module of a BTS is replaced, you need to set a new BTS bar code for the BTS on the BSC.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
Not involved
Not involved
The parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Yes
BTS
Less than 5 minutes
None
Yes
BTS
Less than 5 minutes
None
Yes
BTS
Less than 5 minutes
None
Yes
BTS
Less than 5 minutes
None
Yes
BTS
Less than 5 minutes
None
Yes
BTS
Less than 5 minutes
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
Not involved
Not involved
The parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
To handle services on the channel at a great coding scheme as soon as possible, you need to set this parameter to a great value.
No (No impact on the UE in idle mode)
Not involved
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
This parameter should be set to ON when the transmissi on delays of different 64 kbit/s timeslots are different over the Abis interface in TDM transmissi on mode. Different transmissi on delays usually occur in the DXX network mode or when the transmissi on paths of multiple E1 links are different under the same site.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
Not involved
Not involved
The parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
The parameter cannot be modified.
Not involved
Not involved
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
This parameter is required only by BTSs in IP transmissi on mode.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
Not involved
Not involved
The parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
Not involved
Not involved
The parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
Not involved
Not involved
The parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
Not involved
Not involved
The parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
Not involved
Not involved
The parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
Not involved
Not involved
This parameter cannot be modified.
Yes
BTS
Less than 5 minutes
None
Yes
BTS
Less than 5 minutes
None
Yes
BTS
Less than 5 minutes
None
Yes
BTS
Less than 5 minutes
None
Yes
PPP link
Less than 5 minutes
The modificatio n of the PPP link that is between the BTS and the BSC will affect the services. The modificatio n of the PPP link that is between the BTS and the lower-level BTSs will lead to intermittent services carried by the lowerlevel BTSs.
Yes
BTS
Less than 5 minutes
None
Yes
PPP link
Less than 5 minutes
None
Yes
PPP link
Less than 5 minutes
None
Yes
PPP link
Less than 5 minutes
None
Yes
PPP link
Less than 5 minutes
None
Yes
PPP link
Less than 5 minutes
None
Less than 5 minutes
Negotiation can succeed only when the configurati on is consistent on the local and peer ends.
Less than 5 minutes
Negotiation can succeed only when the configurati on is consistent on the local and peer ends.
Less than 5 minutes
Negotiation can succeed only when the configurati on is consistent on the local and peer ends.
Yes
Yes
Yes
PPP link
PPP link
PPP link
Yes
PPP link
Less than 5 minutes
Negotiation can succeed only when the configurati on is consistent on the local and peer ends.
Yes
BTS
Less than 5 minutes
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
Not involved
Not involved
The parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
Not involved
Not involved
The parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
Not involved
Not involved
The parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
Not involved
Not involved
The parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
Not involved
Not involved
This parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
This parameter cannot be modified.
Not involved
Not involved
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
Not involved
Not involved
The parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
Not involved
Not involved
This parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
Not involved
Not involved
The parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
Not involved
Not involved
This parameter cannot be modified.
Not involved
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
Not involved
Not involved
The parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
This parameter cannot be modified.
Not involved
Not involved
Not involved
Not involved
Not involved
This parameter cannot be modified.
Not involved
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
Not involved
Not involved
The parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
Not involved
Not involved
This parameter cannot be modified.
Not involved
Not involved
Not involved
This parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
Not involved
Not involved
None
Not involved
Not involved
Not involved
This parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
Not involved
Not involved
The parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
Not involved
Not involved
This parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
Not involved
Not involved
The parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
Not involved
Not involved
The parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
Not involved
Not involved
This parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
Not involved
Not involved
The parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
Not involved
Not involved
The parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
Not involved
Not involved
The parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
The parameter cannot be modified.
Not involved
Not involved
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
Not involved
Not involved
This parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
The parameter cannot be modified.
Not involved
Not involved
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Yes
BTS
Less than 5 minutes
None
Yes
BTS
Less than 5 minutes
None
Yes
BTS
Less than 5 minutes
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
The parameter cannot be modified.
Not involved
Not involved
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Yes
Cell
Less than 5 minutes
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
Not involved
Not involved
The parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
Not involved
Not involved
The parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
Not involved
Not involved
The parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
Not involved
Not involved
This parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
Not involved
Not involved
The parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
This parameter cannot be modified.
Not involved
Not involved
No (No impact on the UE in idle mode)
Not involved
Not involved
This parameter cannot be modified.
Not involved
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
Not involved
Not involved
The parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
The parameter cannot be modified.
Not involved
Not involved
No (No impact on the UE in idle mode)
Not involved
Not involved
Not involved
Not involved
None
Not involved
This parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
This parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
Not involved
Not involved
The parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Yes
BTS
Less than 5 minutes
None
Yes
BTS
Less than 5 minutes
None
Yes
BTS
Less than 5 minutes
None
Yes
BTS
Less than 5 minutes
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Yes
BTS
Less than 5 minutes
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
Not involved
Not involved
The parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Yes
BTS
Less than 5 minutes
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
Not involved
Not involved
The parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Yes
BTS
Less than 5 minutes
This parameter cannot be modified.
Yes
BTS
Less than 5 minutes
None
Yes
BTS
Less than 5 minutes
None
Yes
BTS
Less than 5 minutes
None
Yes
BTS
Less than 5 minutes
None
Yes
BTS
Less than 5 minutes
None
Yes
BTS
Less than 5 minutes
None
Yes
BTS
Less than 5 minutes
None
Yes
BTS
Less than 5 minutes
None
Yes
BTS
Less than 5 minutes
None
Yes
BTS
Less than 6 minutes
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
The parameter cannot be modified.
Not involved
Not involved
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
Not involved
Not involved
The parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
The parameter cannot be modified.
Not involved
Not involved
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
Not involved
Not involved
The parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
Not involved
Not involved
The parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
Not involved
Not involved
This parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
Not involved
Not involved
The parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
Not involved
Not involved
This parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
Not involved
Not involved
This parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
Not involved
Not involved
The parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
This parameter cannot be modified.
Not involved
Not involved
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
Not involved
Not involved
This parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
Not involved
Not involved
The parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
The parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
No (No impact on the UE in idle mode)
Not involved
Not involved
The parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
Not involved
Not involved
The parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
The parameter cannot be modified.
Not involved
The parameter cannot be modified.
Not involved
The parameter cannot be modified.
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
The parameter cannot be modified.
Not involved
The parameter cannot be modified.
Not involved
Not involved
Not involved
The parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
The parameter cannot be modified.
Not involved
The parameter cannot be modified.
Not involved
The parameter cannot be modified.
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
The parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
The parameter cannot be modified.
Not involved
Not involved
No (No impact on the UE in idle mode)
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
None
Not involved
The parameter cannot be modified.
Not involved
The parameter cannot be modified.
Not involved
The parameter cannot be modified.
Not involved
The parameter cannot be modified.
Not involved
The parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
If the interface board clock source of the MPS/TCS subrack is set, you can set the 8 kHz output clock source. For the MPS and TCS, you can set the backplane board 8K output clock as the clock source of the interface board. For the EPS, you cannot perform the setting.
No (No impact on the UE in idle mode)
Not involved
Not involved
The parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
Each backplane board 8K clock has only one clock source. You are not allowed to turn on the same backplane board 8K clock switch for multiple interface boards.
No (No impact on the UE in idle mode)
Not involved
Not involved
Each backplane board 8K clock has only one clock source. You are not allowed to turn on the same backplane board 8K clock switch for multiple interface boards.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
No (No impact on the UE in idle mode)
No (No impact on the UE in idle mode)
Not involved
Not involved
Not involved
Not involved
Clock sources and priorities are in oneto-one mapping.
Not involved
Clock sources and priorities are in oneto-one mapping.
Not involved
Clock sources and priorities are in oneto-one mapping. Each backplane board 8K clock has only one clock source.
Yes
BSC6900
Less than 10 minutes
If you want to modify the value of "Clock board type" from "GCGa" to "GCUa", the board must not be configured with GPS.
Not involved
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
The parameter cannot be modified.
Not involved
The parameter cannot be modified.
Not involved
1. This command is applicable to the boards AOUa and POUa. 2. It is used for interworkin g with products of other manufactur ers.
Not involved
Not involved
No (No impact on the UE in idle mode)
Not involved
Not involved
Not involved
No (No impact on the UE in idle mode)
No (No impact on the UE in idle mode)
No (No impact on the UE in idle mode)
Not involved
Not involved
Not involved
Not involved
1. This command is applicable to the boards AOUa and POUa. 2. It is used for interworkin g with products of other manufactur ers.
Not involved
It is used for interworkin g with products of other manufactur ers.
Not involved
It is used for interworkin g with products of other manufactur ers.
No (No impact on the UE in idle mode)
Not involved
Not involved
1. This command is applicable to the boards AOUa, POUa, AOUc, POUc, and OIUa. 2. It is used for interworkin g with products of other manufactur ers.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
1. This command is applicable to the boards AOUa and POUa. 2. It is used for interworkin g with products of other manufactur ers.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
The setting of this parameter must be negotiated with that on the interconne cted side.
Yes
Optical port
If the mode is not consistent, will interrupt service until it is consistent.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
If this parameter is set to 0, the emergency call may be affected.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
The parameter cannot be modified.
Not involved
The parameter cannot be modified.
Not involved
The parameter cannot be modified.
Not involved
Not involved
Not involved
The parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Yes
BSC6900
Less than 5 minutes
None
Not involved
The existing networking can be affected when the relation between the VLAN and the DSCP are reset.
No (No impact on the UE in idle mode)
Not involved
No (No impact on the UE in idle mode)
Not involved
Not involved
The existing networking can be affected when the relation between the VLAN and the DSCP are reset.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None The adjustment of the parameter setting changes the service distribution on the DSPs. The DSPs without LVDS links do not carry services.
Yes
Cell
Services are disrupted until the cells are re-distributed successfully.
Yes
BTS
Less than 5 minutes
None
Yes
BTS
Less than 5 minutes
None
Yes
BTS
Less than 5 minutes
None
Yes
BTS
Less than 5 minutes
None
Yes
BTS
Less than 5 minutes
None
Yes
BTS
Less than 5 minutes
None
Yes
BTS
Less than 5 minutes
None
Yes
BTS
Less than 5 minutes
None
Yes
BTS
Less than 5 minutes
None
Yes
BTS
Less than 5 minutes
None
Yes
BTS
Less than 5 minutes
None
Yes
BTS
Less than 5 minutes
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
The parameter cannot be modified.
Not involved
If certain link is occupied, conversion from E1 to T1 or from T1 to E1 cannot be performed.
Not involved
No (No impact on the UE in idle mode)
Not involved
Not involved
Not involved
Not involved
Not involved
The parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
The parameter cannot be modified.
Not involved
Not involved
Yes
Yes
Yes
BSC6900
BSC6900
BSC6900
Less than 5 minutes
The conversion from E1 to T1 or from T1 to E1 takes effect after the board is reset.
Interrupt the service until negotiate successfully again.
The frame structure must be consistent with that on the interconne cted side.
Interrupt the service until negotiate successfully again.
The frame structure must be consistent with that on the interconne cted side.
Yes
Yes
BSC6900
BSC6900
Interrupt the service until negotiate successfully again.
The frame structure must be consistent with that on the interconne cted side.
Interrupt the service until negotiate successfully again.
The line code must be consistent with that on the interconne cted side. HDB3 (HDB3 code) and AMI (AMI code) are used for E1 ports. B8ZS (B8ZS code) and AMI_ZCS (AMI code) are used for T1 ports.
Yes
E1/T1 port
1. When the peer end unconditio nally changes the bits in the check message, the services are disrupted if the switch is set to ON. 2. When the switch is set to OFF, the alarm "Inconsiste nt Configurati ons at the Two Ends When the peer end of the Link unconditionally changes the over the bits in the check message, the Ater services will not resume Interface" unless the switch is set to will not be OFF. reported.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
The parameter cannot be modified.
Not involved
Not involved
No (No impact on the UE in idle mode)
Not involved
Not involved
If certain link is occupied, conversion from E1 to T1 or from T1 to E1 cannot be performed.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
E1/T1 port
If this parameter is set to REMOTE_ LOOP and LOCAL_L OOP, the service on this link is affected until the loopback is cancelled. When the upper layer bearer is IMAGRP, IMAGRP is reset after the loopback is canceled. Otherwise, the state of the IMAGRP is abnormal and upper layer service The loopback keeps cannot be interrupting the services until it established is cancelled. .
Yes
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
Not involved
Not involved
The parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
The parameter cannot be modified.
Not involved
The parameter cannot be modified.
Not involved
The parameter cannot be modified.
Not involved
The parameter cannot be modified.
Not involved
The parameter cannot be modified.
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
The parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
The parameter cannot be modified.
Not involved
Not involved
Not involved
Not involved
Not involved
The parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
The parameter cannot be modified.
Interrupt the service until negotiate successfully again.
The port can be set to the DOWN or UP state when this parameter is modified. If the negotiation modes on the local and peer end are not consistent, the service can be interrupted.
Not involved
Yes
Not involved
BSC6900
Yes
BSC6900
Interrupt the service until negotiate successfully again.
The port can be set to the DOWN or UP state when this parameter is modified. If the speed modes on the local and peer end are not consistent, the service can be interrupted. The interconne ction may be affected if this parameter is modified.
Yes
BSC6900
If the mode is not consistent, will interrupt service until it is consistent.
No (No impact on the UE in idle mode)
Not involved
Not involved
None If this parameter is set to a larger value, the bandwidth of the service is smaller.
Yes
Ethernet port
If the value is too big, will interrupt service until it is set to the normal value.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
The parameter cannot be modified.
Not involved
Not involved
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (Impact on the UE in idle mode)
Ethernet port
Not involved
If this threshold is set to a too small value, the Ethernet Port Broadcast Packets Exceeding alarm (alarm ID: 21387) may be generated.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
Not involved
Not involved
The setting of this parameter at the local end must be consistent with that at the peer end. Otherwise, the CFM function is unavailable .
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
The parameter cannot be modified.
Not involved
The parameter cannot be modified.
Not involved
The parameter cannot be modified.
Not involved
The parameter cannot be modified.
Not involved
The parameter cannot be modified.
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
The parameter cannot be modified.
Not involved
The parameter cannot be modified.
Not involved
The parameter cannot be modified.
Not involved
The setting of this parameter at the local end must be consistent with that at the peer end. Otherwise, the CFM function is unavailable .
Not involved
The parameter cannot be modified.
Not involved
The parameter cannot be modified.
Not involved
The parameter cannot be modified.
Not involved
The parameter cannot be modified.
Not involved
The parameter cannot be modified.
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
The parameter cannot be modified.
Not involved
The parameter cannot be modified.
Not involved
The parameter cannot be modified.
Not involved
The parameter cannot be modified.
Not involved
The parameter cannot be modified.
Not involved
Not involved
Not involved
The parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
Not involved
Not involved
The parameter cannot be modified.
Not involved
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
Not involved
Not involved
None
Not involved
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
Not involved
Not involved
None
Not involved
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
No (No impact on the UE in idle mode)
Not involved
Not involved
None 1. If Neighborin g Cell Type was set to HANDOVE RNCELL(H andover Neighborin g Cell) and is now set to IBCANCEL L(IBCA Neighborin g Cell), the neighborin g cell is removed from handover neighborin g cells and added to IBCA neighborin g cells. 2. If Neighborin g Cell Type was set to IBCANCEL L(IBCA Neighborin g Cell) and is now set
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
When the M900/M18 00 BSC is upgraded to BSC6000, this parameter needs to be set to 69. If this parameter is not set to 69 in this case, the handover algorithm supported by this parameter is invalid.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Yes
BTS
Less than 10 minutes
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
The parameter cannot be modified.
Not involved
Not involved
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
Not involved
No (No impact on the UE in idle mode)
Not involved
Not involved
Not involved
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Yes
Cell
Less than 5 minutes
None
Yes
Cell
Less than 5 minutes
None
Yes
Cell
Less than 1 minute
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
No (No impact on the UE in idle mode)
Not involved
Not involved
Not involved
The larger the value of this parameter, the higher the proportion of discarded messages during congestion . Therefore, the priority value of a more important service must be less than that of a less important service.
Not involved
The larger the value of this parameter, the higher the proportion of discarded messages during congestion . Therefore, the priority value of a more important service must be less than that of a less important service.
No (No impact on the UE in idle mode)
Not involved
Not involved
If this parameter is set to a larger value, more packets are discarded when the congestion occurs. Thus, the priority value of the major service should be smaller than that of the minor service.
No (No impact on the UE in idle mode)
Not involved
Not involved
If this parameter is set to a larger value, more packets are discarded when the congestion occurs. Thus, the priority value of the major service should be smaller than that of the minor service.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
The value of this parameter cannot be changed.
Not involved
Not involved
Yes
Cell
Less than 5 minutes
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Cell
The services are disrupted until this parameter is set to Unlock.
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
This parameter is used in handover decision. An uplink interferenc e handover is easily triggered if this parameter is set to a smaller value.
No (No impact on the UE in idle mode)
Not involved
No (No impact on the UE in idle mode)
No (No impact on the UE in idle mode)
No (No impact on the UE in idle mode)
Not involved
Not involved
Not involved
Not involved
This parameter is used in handover decision. An uplink interferenc e handover is easily triggered if this parameter is set to a smaller value.
Not involved
This parameter is used in handover decision. An uplink interferenc e handover is easily triggered if this parameter is set to a too small value.
Not involved
This parameter is used in handover decision. An uplink interferenc e handover is easily triggered if this parameter is set to a smaller value.
No (No impact on the UE in idle mode)
No (No impact on the UE in idle mode)
No (No impact on the UE in idle mode)
Not involved
Not involved
Not involved
Not involved
This parameter is used in handover decision. An uplink interferenc e handover is easily triggered if this parameter is set to a smaller value.
Not involved
This parameter is used in handover decision. An uplink interferenc e handover is easily triggered if this parameter is set to a too small value.
Not involved
This parameter is used in handover decision. An uplink interferenc e handover is easily triggered if this parameter is set to a smaller value.
No (No impact on the UE in idle mode)
No (No impact on the UE in idle mode)
No (No impact on the UE in idle mode)
Not involved
Not involved
Not involved
Not involved
This parameter is used in handover decision. An uplink interferenc e handover is easily triggered if this parameter is set to a too small value.
Not involved
This parameter is used in handover decision. An uplink interferenc e handover is easily triggered if this parameter is set to a smaller value.
Not involved
This parameter is used in handover decision. An uplink interferenc e handover is easily triggered if this parameter is set to a smaller value.
No (No impact on the UE in idle mode)
No (No impact on the UE in idle mode)
Not involved
Not involved
Not involved
This parameter is used in handover decision. An uplink interferenc e handover is easily triggered if this parameter is set to a smaller value.
Not involved
This parameter is used in handover decision. An uplink interferenc e handover is easily triggered if this parameter is set to a smaller value.
No (No impact on the UE in idle mode)
No (No impact on the UE in idle mode)
Not involved
Not involved
Not involved
For AMR calls, this parameter, together with "Interfere HO Qual Thresh n for NonAMR FR", is used in interferenc e handover decision. An uplink interferenc e handover is easily triggered if this parameter is set to a smaller value.
Not involved
The setting of this parameter affects the triggering of a handover for poor quality in an AMR full rate call. The smaller the value of this parameter is, the easier a downlink handover due to a poor quality occurs.
No (No impact on the UE in idle mode)
No (No impact on the UE in idle mode)
Not involved
Not involved
Not involved
The setting of this parameter affects the triggering of BQ(Bad Quality) handover of AMR FR calls. If it is set to a smaller value, the uplink BQ handover is easily triggered.
Not involved
The setting of this parameter affects the triggering of a handover for poor quality in an AMR half rate call. The smaller the value of this parameter is, the easier a downlink handover due to a poor quality occurs.
No (No impact on the UE in idle mode)
Not involved
Not involved
The setting of this parameter affects the triggering of BQ handover of AMR HR calls. If it is set to a smaller value, the uplink BQ handover is easily triggered.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
No (No impact on the UE in idle mode)
Not involved
Not involved
Not involved
Each layer has 16 priorities, numbered 1-16 respectivel y. If the number of the priority is small, the priority is high. This parameter along with Layer of the Cell determines the priority of a cell. The priority affects the sequence of neighborin g cells for handover. It also affects handover algorithms, such as PBGT handover algorithm
Not involved
If this parameter is set to a smaller value, the handover success rate may be affected.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
The value of this parameter must be the same at both the BSS side and the NSS side. Whether the BSC is encrypted and the chosen encryption algorithm type must be described in the MAP function process of the MSC. When setting the encryption algorithm type of the BSC, you must refer to the data configurati on function of the BSC and the
No (No impact on the UE in idle mode)
Not involved
Not involved
If the value of this parameter is too small, the required level of received signals is low. Therefore, many MSs attempt to camp on the cell, thus increasing the load of the cell and the risk of call drops. In such a case, you must set the parameter based on the balance conditions of the uplink and downlink levels.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
No (No impact on the UE in idle mode)
Not involved
Not involved
Not involved
In a GSM900 cell, the power control level of the MS ranges from 0 to 19. Generally, the maximum transmit power supported by an MS is level 5 (mapping to 33 dBm). The minimum transmit power supported by an MS is level 19 (mapping to 5 dBm). Other transmit power levels are reserved for highpower
Not involved
The downlink power control (at the BTS side) can support up to 15 levels, in each of which the power of 2 dB is dynamicall y controlled.
No (No impact on the UE in idle mode)
Not involved
Not involved
The SDCCH dynamic adjustment converts the TCHs to the SDCCHs, this reduces the available TCHs and decreases the TCH traffic bearing capability.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
The value of this parameter is valid only for the BTSs of the doubletransceiver series and the distributed BTSs.
No (No impact on the UE in idle mode)
Not involved
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
This parameter applies to only the doubletransceiver BTS and the correspond ing distributed BTS.
No (No impact on the UE in idle mode)
Not involved
No (No impact on the UE in idle mode)
Not involved
Not involved
This parameter applies to only the doubletransceiver BTS and the correspond ing distributed BTS.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
This parameter applies to only the EDGE trx.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
No (No impact on the UE in idle mode)
Not involved
Not involved
NoneTRX After aiding (BCCH aiding or baseband FH aiding) or switchback occurs, the cell is reinitialized. For any types of BTS, no aiding is performed within a period specified by "Aiding Delay Protect Time" after the cell is initialized. "Aiding Delay Protect Time" can be set by using the "SET GCELLSO FT" command.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
No (No impact on the UE in idle mode)
Not involved
Not involved
Not involved
This parameter should be set on the basis of the actual receiver sensitivity of the BTS and the minimum access level of the MS to avoid the situation where a call cannot be made even though there are signals detected.
Not involved
This parameter should be set on the basis of the actual receiver sensitivity of the BTS and the minimum access level of the MS to avoid the situation where a call cannot be made even though there are signals detected.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
Pay special attention to the setting of this parameter during an upgrade. If sending short messages is allowed, this parameter must be set to No. If this parameter is set to Yes, radio channels cannot be used to send short messages regardless of whether an MS is busy or not.
No (No impact on the UE in idle mode)
Not involved
Not involved
During upgrade, pay more attention to the setting of this parameter. Be sure to check it. If an area is allowed for receiving short messages, set this parameter to NO. If the value of this parameter is YES, the MS in either idle or connected mode cannot occupy radio channel resources to send short messages.
No (No impact on the UE in idle mode)
Not involved
Not involved
To improve the success rate of reassignm ent, it is recommen ded that you use the default value Different Band. That is, the frequency band of the preferential ly reassigned channel is different from what is used in the original assignmen t.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
If this parameter is set to Algorithm I, the BTS performs AMR rate adaptation according to the C/I value. If this parameter is set to Algorithm II, the BTS performs AMR rate adaptation according to the BER value. Algorithm II is valid only for the EMR. If this parameter is set to None, the AMR rate adaptation algorithm is not enabled,
No (No impact on the UE in idle mode)
Not involved
Not involved
The number of the chosen data rates must be from one to four. If this parameter involves only one full rate coding rate, the value of "AMR Starting Mode[F]" can be 0 only; all the adjustable thresholds and hysteresis of AMR coding rate make no sense. If this parameter involves two coding rates, the value of "AMR
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
No (No impact on the UE in idle mode)
Not involved
Not involved
None The number of the chosen data rates must be from one to four. If this parameter involves only one half rate coding rate, the value of "AMR Starting Mode[H]" can be 0 only; all the adjustable thresholds and hysteresis of AMR coding rate make no sense. If this parameter involves two coding rates, the value of "AMR
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
No (No impact on the UE in idle mode)
Not involved
Not involved
No (No impact on the UE in idle mode)
Not involved
Not involved
None Generally, the value of this parameter does not need adjustment . It is the upper limit for adjusting the value of LongTerm FERTarget Generally, the value of this parameter does not need adjustment . It is the lower limit for adjusting the value of LongTerm FERTarget
No (No impact on the UE in idle mode)
Not involved
Not involved
The value of this parameter decides whether the threshold is adjusted upwards or downwards . When the voice is in poor performan ce (excluding the cause of poor channel quality: If the low rate mode is more used in the adaptation, you can increase the value of this parameter; if the high rate mode is more used in the adaptation
No (No impact on the UE in idle mode)
Not involved
Not involved
Generally, the value of this parameter is fixed to 2, with no need of adjustment . The value of this parameter decides only the adjustment value or the adjusting frequency of the threshold. That is, the greater the value of this parameter is, the more frequently the threshold is adjusted. The setting of this parameter, however,
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
No (No impact on the UE in idle mode)
Not involved
Not involved
Generally, the value of this parameter does not need adjustment . It is the upper limit for adjusting the value of DLLongTer mFERTarg et. Generally, the value of this parameter does not need adjustment . It is the lower limit for adjusting the value of DLLongTer mFERTarg et.
No (No impact on the UE in idle mode)
Not involved
Not involved
This parameter is used for the adaptive adjustment function of AMR downlink threshold. When the voice is in poor performan ce not being affected by the channel quality: If the low rate mode is more used in the adaptation, you can increase the value of this parameter; if the high rate mode is more used in the adaptation,
No (No impact on the UE in idle mode)
Not involved
Not involved
Generally, the value of this parameter is fixed to 2, with no need of adjustment . The value of this parameter decides only the adjustment value or the adjusting frequency of the threshold. That is, the greater the value of this parameter is, the more frequently the threshold is adjusted. The setting of this parameter, however,
No (No impact on the UE in idle mode)
Not involved
Not involved
The number of the chosen data rates must be from one to three. If this parameter involves only one coding rate, the value of "AMR Starting Mode[WB]" can be 0 only; all the adjustable thresholds and hysteresis of AMR coding rate make no sense. If this parameter involves two coding rates, the value of "AMR Starting
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
For the BTS3X series and doubletransceiver BTSs, this parameter does not affect MS access but affects the reporting of CCCH_LO AD_IND. If the level received by the BCCH on the network side is greater than the RACH Busy Threshold, the CCCH_LO AD_IND is counted once whether the decoding is successful.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
With a good antiinterferenc e capability, AMR codes can support a lower carrier-tointerferenc e ratio than non-AMR codes in a same FER. When the AMR is enabled, the voice quality improves. In this case, the value of this parameter can be a little larger than that of "SACCH MultiFrames".
No (No impact on the UE in idle mode)
Not involved
No (No impact on the UE in idle mode)
Not involved
Not involved
With a good antiinterferenc e capability, AMR codes can support a lower carrier-tointerferenc e ratio than non-AMR codes in a same FER. When the AMR is enabled, the voice quality improves. In this case, the value of this parameter can be a little larger than that of "SACCH MultiFrames".
No (No impact on the UE in idle mode)
Not involved
Not involved
With a good antiinterferenc e capability, AMR codes can support a lower carrier-tointerferenc e ratio than non-AMR codes in a same FER. When the AMR is enabled, the voice quality improves. In this case, the value of this parameter can be a little larger than that of "Radio Link Timeout".
No (No impact on the UE in idle mode)
Not involved
Not involved
With a good antiinterferenc e capability, AMR codes can support a lower carrier-tointerferenc e ratio than non-AMR codes in a same FER. When the AMR is enabled, the voice quality improves. In this case, the value of this parameter can be a little larger than that of "Radio Link Timeout".
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
No (No impact on the UE in idle mode)
Not involved
Not involved
Not involved
None
Not involved
It is recommen ded that this parameter be set to Yes on a multiband cell.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
The default value of "MS_TXP WR_MAX_ CCH" in the GSM900 and GSM850 cells is 5; the default value of "MS_TXP WR_MAX_ CCH" in the DCS1800 and PCS1900 cells is 0.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
If the GSM BSC is connected to the GSM MSC, it is recommen ded that you set this parameter to R98_or_be low. If the GSM BSC is connected to the UMTS MSC, it is recommen ded that you set this parameter to R99_or_ab ove.
No (No impact on the UE in idle mode)
Not involved
Not involved
The Enhanced Measurem ent Report supports the measurem ent of 3G neighborin g cells to implement the interoperab ility between the 2G system and 3G system, and thus ensures the service continuity.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
Before switched on, please insure that all the TRXs in this cell are suitable version.
No (No impact on the UE in idle mode)
Not involved
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
This parameter is valid only when the MCPA algorithm is enabled.
No (No impact on the UE in idle mode)
Not involved
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
The threshold value should be smaller than the number of TCHs on the BCCH TRX.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
The range of this parameter is determined by the cell configurati on. The lower limit is 0, and the upper limit is sum of TCHF, TCHH and Dynamic PDCH configured in the cell.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
Multi-band networks cannot use the TIGHT BCCH algorithm.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
When this parameter is set to No, Highest Priority cannot be configured.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
This parameter takes effect only when the SDCCH exists on the TRXs on different frequency bands.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
When the same coverage cell allows the load handover, this parameter should be set to a value lower than "Load HO Threshold" of the same coverage cell.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
Not involved
Not involved
The parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Less than 5 minutes
If the BCCH frequency of a cell is changed, the BSC forcibly hands over the calls in this cell to another cell and then resets this cell.
Services are disrupted when the BCCH frequency of a cell is changed.
Cell
Services are disrupted when the BCCH frequency of a cell is changed.
Services are disrupted when the BCCH frequency of a cell is changed.
Services are disrupted when the BCCH frequency of a cell is changed.
Cell
Cell
Cell
Less than 5 minutes
If the BCCH frequency of a cell is changed, the BSC forcibly hands over the calls in this cell to another cell and then resets this cell.
Less than 5 minutes
If the BCCH frequency of a cell is changed, the BSC forcibly hands over the calls in this cell to another cell and then resets this cell.
Less than 5 minutes
If the BCCH frequency of a cell is changed, the BSC forcibly hands over the calls in this cell to another cell and then resets this cell.
Services are disrupted when the BCCH frequency of a cell is changed.
Services are disrupted when the BCCH frequency of a cell is changed.
Services are disrupted when the BCCH frequency of a cell is changed.
Cell
Cell
Cell
Less than 5 minutes
If the BCCH frequency of a cell is changed, the BSC forcibly hands over the calls in this cell to another cell and then resets this cell.
Less than 5 minutes
If the BCCH frequency of a cell is changed, the BSC forcibly hands over the calls in this cell to another cell and then resets this cell.
Less than 5 minutes
If the BCCH frequency of a cell is changed, the BSC forcibly hands over the calls in this cell to another cell and then resets this cell.
Services are disrupted when the BCCH frequency of a cell is changed.
Services are disrupted when the BCCH frequency of a cell is changed.
Services are disrupted when the BCCH frequency of a cell is changed.
Cell
Cell
Cell
Less than 5 minutes
If the BCCH frequency of a cell is changed, the BSC forcibly hands over the calls in this cell to another cell and then resets this cell.
Less than 5 minutes
If the BCCH frequency of a cell is changed, the BSC forcibly hands over the calls in this cell to another cell and then resets this cell.
Less than 5 minutes
If the BCCH frequency of a cell is changed, the BSC forcibly hands over the calls in this cell to another cell and then resets this cell.
Services are disrupted when the BCCH frequency of a cell is changed.
Services are disrupted when the BCCH frequency of a cell is changed.
Services are disrupted when the BCCH frequency of a cell is changed.
Cell
Cell
Cell
Less than 5 minutes
If the BCCH frequency of a cell is changed, the BSC forcibly hands over the calls in this cell to another cell and then resets this cell.
Less than 5 minutes
If the BCCH frequency of a cell is changed, the BSC forcibly hands over the calls in this cell to another cell and then resets this cell.
Less than 5 minutes
If the BCCH frequency of a cell is changed, the BSC forcibly hands over the calls in this cell to another cell and then resets this cell.
Services are disrupted when the BCCH frequency of a cell is changed.
Services are disrupted when the BCCH frequency of a cell is changed.
Services are disrupted when the BCCH frequency of a cell is changed.
Cell
Cell
Cell
Less than 5 minutes
If the BCCH frequency of a cell is changed, the BSC forcibly hands over the calls in this cell to another cell and then resets this cell.
Less than 5 minutes
If the BCCH frequency of a cell is changed, the BSC forcibly hands over the calls in this cell to another cell and then resets this cell.
Less than 5 minutes
If the BCCH frequency of a cell is changed, the BSC forcibly hands over the calls in this cell to another cell and then resets this cell.
Services are disrupted when the BCCH frequency of a cell is changed.
Services are disrupted when the BCCH frequency of a cell is changed.
Services are disrupted when the BCCH frequency of a cell is changed.
Cell
Cell
Cell
Less than 5 minutes
If the BCCH frequency of a cell is changed, the BSC forcibly hands over the calls in this cell to another cell and then resets this cell.
Less than 5 minutes
If the BCCH frequency of a cell is changed, the BSC forcibly hands over the calls in this cell to another cell and then resets this cell.
Less than 5 minutes
If the BCCH frequency of a cell is changed, the BSC forcibly hands over the calls in this cell to another cell and then resets this cell.
Services are disrupted when the BCCH frequency of a cell is changed.
Services are disrupted when the BCCH frequency of a cell is changed.
Services are disrupted when the BCCH frequency of a cell is changed.
Cell
Cell
Cell
Less than 5 minutes
If the BCCH frequency of a cell is changed, the BSC forcibly hands over the calls in this cell to another cell and then resets this cell.
Less than 5 minutes
If the BCCH frequency of a cell is changed, the BSC forcibly hands over the calls in this cell to another cell and then resets this cell.
Less than 5 minutes
If the BCCH frequency of a cell is changed, the BSC forcibly hands over the calls in this cell to another cell and then resets this cell.
Services are disrupted when the BCCH frequency of a cell is changed.
Services are disrupted when the BCCH frequency of a cell is changed.
Services are disrupted when the BCCH frequency of a cell is changed.
Cell
Cell
Cell
Less than 5 minutes
If the BCCH frequency of a cell is changed, the BSC forcibly hands over the calls in this cell to another cell and then resets this cell.
Less than 5 minutes
If the BCCH frequency of a cell is changed, the BSC forcibly hands over the calls in this cell to another cell and then resets this cell.
Less than 5 minutes
If the BCCH frequency of a cell is changed, the BSC forcibly hands over the calls in this cell to another cell and then resets this cell.
Services are disrupted when the BCCH frequency of a cell is changed.
Services are disrupted when the BCCH frequency of a cell is changed.
Services are disrupted when the BCCH frequency of a cell is changed.
Cell
Cell
Cell
Less than 5 minutes
If the BCCH frequency of a cell is changed, the BSC forcibly hands over the calls in this cell to another cell and then resets this cell.
Less than 5 minutes
If the BCCH frequency of a cell is changed, the BSC forcibly hands over the calls in this cell to another cell and then resets this cell.
Less than 5 minutes
If the BCCH frequency of a cell is changed, the BSC forcibly hands over the calls in this cell to another cell and then resets this cell.
Services are disrupted when the BCCH frequency of a cell is changed.
Services are disrupted when the BCCH frequency of a cell is changed.
Services are disrupted when the BCCH frequency of a cell is changed.
Cell
Cell
Cell
Less than 5 minutes
If the BCCH frequency of a cell is changed, the BSC forcibly hands over the calls in this cell to another cell and then resets this cell.
Less than 5 minutes
If the BCCH frequency of a cell is changed, the BSC forcibly hands over the calls in this cell to another cell and then resets this cell.
Less than 5 minutes
If the BCCH frequency of a cell is changed, the BSC forcibly hands over the calls in this cell to another cell and then resets this cell.
Services are disrupted when the BCCH frequency of a cell is changed.
Services are disrupted when the BCCH frequency of a cell is changed.
Services are disrupted when the BCCH frequency of a cell is changed.
Cell
Cell
Cell
Less than 5 minutes
If the BCCH frequency of a cell is changed, the BSC forcibly hands over the calls in this cell to another cell and then resets this cell.
Less than 5 minutes
If the BCCH frequency of a cell is changed, the BSC forcibly hands over the calls in this cell to another cell and then resets this cell.
Less than 5 minutes
If the BCCH frequency of a cell is changed, the BSC forcibly hands over the calls in this cell to another cell and then resets this cell.
Services are disrupted when the BCCH frequency of a cell is changed.
Services are disrupted when the BCCH frequency of a cell is changed.
Services are disrupted when the BCCH frequency of a cell is changed.
Cell
Cell
Cell
Less than 5 minutes
If the BCCH frequency of a cell is changed, the BSC forcibly hands over the calls in this cell to another cell and then resets this cell.
Less than 5 minutes
If the BCCH frequency of a cell is changed, the BSC forcibly hands over the calls in this cell to another cell and then resets this cell.
Less than 5 minutes
If the BCCH frequency of a cell is changed, the BSC forcibly hands over the calls in this cell to another cell and then resets this cell.
Services are disrupted when the BCCH frequency of a cell is changed.
Services are disrupted when the BCCH frequency of a cell is changed.
Services are disrupted when the BCCH frequency of a cell is changed.
Cell
Cell
Cell
Less than 5 minutes
If the BCCH frequency of a cell is changed, the BSC forcibly hands over the calls in this cell to another cell and then resets this cell.
Less than 5 minutes
If the BCCH frequency of a cell is changed, the BSC forcibly hands over the calls in this cell to another cell and then resets this cell.
Less than 5 minutes
If the BCCH frequency of a cell is changed, the BSC forcibly hands over the calls in this cell to another cell and then resets this cell.
Services are disrupted when the BCCH frequency of a cell is changed.
Services are disrupted when the BCCH frequency of a cell is changed.
Services are disrupted when the BCCH frequency of a cell is changed.
Cell
Cell
Cell
Less than 5 minutes
If the BCCH frequency of a cell is changed, the BSC forcibly hands over the calls in this cell to another cell and then resets this cell.
Less than 5 minutes
If the BCCH frequency of a cell is changed, the BSC forcibly hands over the calls in this cell to another cell and then resets this cell.
Less than 5 minutes
If the BCCH frequency of a cell is changed, the BSC forcibly hands over the calls in this cell to another cell and then resets this cell.
Services are disrupted when the BCCH frequency of a cell is changed.
Services are disrupted when the BCCH frequency of a cell is changed.
Services are disrupted when the BCCH frequency of a cell is changed.
Cell
Cell
Cell
Less than 5 minutes
If the BCCH frequency of a cell is changed, the BSC forcibly hands over the calls in this cell to another cell and then resets this cell.
Less than 5 minutes
If the BCCH frequency of a cell is changed, the BSC forcibly hands over the calls in this cell to another cell and then resets this cell.
Less than 5 minutes
If the BCCH frequency of a cell is changed, the BSC forcibly hands over the calls in this cell to another cell and then resets this cell.
Services are disrupted when the BCCH frequency of a cell is changed.
Services are disrupted when the BCCH frequency of a cell is changed.
Services are disrupted when the BCCH frequency of a cell is changed.
Cell
Cell
Cell
Less than 5 minutes
If the BCCH frequency of a cell is changed, the BSC forcibly hands over the calls in this cell to another cell and then resets this cell.
Less than 5 minutes
If the BCCH frequency of a cell is changed, the BSC forcibly hands over the calls in this cell to another cell and then resets this cell.
Less than 5 minutes
If the BCCH frequency of a cell is changed, the BSC forcibly hands over the calls in this cell to another cell and then resets this cell.
Services are disrupted when the BCCH frequency of a cell is changed.
Services are disrupted when the BCCH frequency of a cell is changed.
Services are disrupted when the BCCH frequency of a cell is changed.
Cell
Cell
Cell
Less than 5 minutes
If the BCCH frequency of a cell is changed, the BSC forcibly hands over the calls in this cell to another cell and then resets this cell.
Less than 5 minutes
If the BCCH frequency of a cell is changed, the BSC forcibly hands over the calls in this cell to another cell and then resets this cell.
Less than 5 minutes
If the BCCH frequency of a cell is changed, the BSC forcibly hands over the calls in this cell to another cell and then resets this cell.
Services are disrupted when the BCCH frequency of a cell is changed.
Services are disrupted when the BCCH frequency of a cell is changed.
Services are disrupted when the BCCH frequency of a cell is changed.
Cell
Cell
Cell
Less than 5 minutes
If the BCCH frequency of a cell is changed, the BSC forcibly hands over the calls in this cell to another cell and then resets this cell.
Less than 5 minutes
If the BCCH frequency of a cell is changed, the BSC forcibly hands over the calls in this cell to another cell and then resets this cell.
Less than 5 minutes
If the BCCH frequency of a cell is changed, the BSC forcibly hands over the calls in this cell to another cell and then resets this cell.
Services are disrupted when the BCCH frequency of a cell is changed.
Services are disrupted when the BCCH frequency of a cell is changed.
Services are disrupted when the BCCH frequency of a cell is changed.
Cell
Cell
Cell
Less than 5 minutes
If the BCCH frequency of a cell is changed, the BSC forcibly hands over the calls in this cell to another cell and then resets this cell.
Less than 5 minutes
If the BCCH frequency of a cell is changed, the BSC forcibly hands over the calls in this cell to another cell and then resets this cell.
Less than 5 minutes
If the BCCH frequency of a cell is changed, the BSC forcibly hands over the calls in this cell to another cell and then resets this cell.
Services are disrupted when the BCCH frequency of a cell is changed.
Services are disrupted when the BCCH frequency of a cell is changed.
Services are disrupted when the BCCH frequency of a cell is changed.
Cell
Cell
Cell
Less than 5 minutes
If the BCCH frequency of a cell is changed, the BSC forcibly hands over the calls in this cell to another cell and then resets this cell.
Less than 5 minutes
If the BCCH frequency of a cell is changed, the BSC forcibly hands over the calls in this cell to another cell and then resets this cell.
Less than 5 minutes
If the BCCH frequency of a cell is changed, the BSC forcibly hands over the calls in this cell to another cell and then resets this cell.
Services are disrupted when the BCCH frequency of a cell is changed.
Services are disrupted when the BCCH frequency of a cell is changed.
Cell
Cell
Less than 5 minutes
If the BCCH frequency of a cell is changed, the BSC forcibly hands over the calls in this cell to another cell and then resets this cell.
Less than 5 minutes
If the BCCH frequency of a cell is changed, the BSC forcibly hands over the calls in this cell to another cell and then resets this cell.
Services are disrupted when the BCCH frequency of a cell is changed.
Cell
Less than 5 minutes
If the BCCH frequency of a cell is changed, the BSC forcibly hands over the calls in this cell to another cell and then resets this cell.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
Not involved
Not involved
The parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Yes
Cell
PS service of the cell will be interrupt until this parameter is set to "SupportAsInnPcu" or "SupportAsExtPcu. None
Yes
Cell
Less than 5 minutes
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Yes
Cell
Less than 5 minutes
None
Yes
Cell
Less than 5 minutes
None
Yes
Cell
Less than 5 minutes
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Yes
Cell
Less than 5 minutes
None
Yes
Cell
Less than 5 minutes
None
Yes
Cell
Less than 5 minutes
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Yes
Cell
Less than 5 minutes
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
No (No impact on the UE in idle mode)
Not involved
Not involved
Not involved
If the value of "Current HO Control Algorithm" in "SET GCELLHO BASIC" is changed, the value of this parameter is automatica lly changed to the default value correspond ing to the algorithm.
Not involved
If the value of "Current HO Control Algorithm" in "SET GCELLHO BASIC" is changed, the value of this parameter is automatica lly changed to the default value correspond ing to the algorithm.
No (No impact on the UE in idle mode)
Not involved
Not involved
If the value of "Current HO Control Algorithm" in "SET GCELLHO BASIC" is changed, the value of this parameter is automatica lly changed to the default value correspond ing to the algorithm.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
You can increase this value when the handovers are slow or the handover success ratio is low due to bad clock or transmissi on quality. For the handovers of an MS to succeed, the following condition must be met: "Physical information MAX Retrans" x "Radio link invalid count" > Interval between the EST IND
No (No impact on the UE in idle mode)
Not involved
Not involved
The physical information is sent over the FACCH. Every four TDMA frames are sent once over the FACCH, which takes 18 ms. If the T3105 timer is set to less than 18 ms, when the T3105 timer expires for the first time, the physical information needs to be retransmitt ed. But at this time, the previous physical
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
If the parameter "IBCA Allowed" is set to YES, the BSC waits for MRs on the SDCCH for the duration specified by the parameter "IBCA Assign Waiting Mr Time". This parameter takes effect when the parameter "IBCA Allowed" is set to NO.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
Before enabling this function, ensure that the parameter "Directed Retry" of the cell is set to YES. To obtain MRs on the SDCCH as many as possible, set the parameter s "Waiting for MR on SDCCH Switch" and "IBCA Allowed" to YES.
No (No impact on the UE in idle mode)
Not involved
Not involved
The value of this parameter must be greater than five times the maximum value of the following parameter: "Filter Length for SDCCH Level", "Filter Length for SDCCH Qual", "Filter Length for TCH Level", "Filter Length for TCH Qual", "Filter Length for TA", "TA filter length for SDCCH level". If the
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
The reciprocal of the parameter value is the ratio of the MSs to perform a load handover.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
Set this parameter properly to ensure that hierarchica l handover and loadbased handover can function properly. During hierarchica l handover and loadbased handover, the downlink received level of the target cell must be greater than this threshold.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
Not involved
Not involved
None
Not involved
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
This parameter can be set to BTS_Prepr ocessing only when the BTS supports the configured power control algorithm.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
If "MR.Prepr ocessing" is set to BTS_Prepr ocessing and this parameter is set to NO, the uplinkdownlink balance associated traffic statistics is improper. In addition, the handover algorithms that require power compensat ion are improper, such as PBGT handover, load handover, and concentric cell handover.
No (No impact on the UE in idle mode)
Not involved
Not involved
1. When "Sent Freq.of preprocess ed MR" is set to NOreport( Do not report), the BTS does not send MRs to the BSC and the BSC does not perform the handover control. Only the cells that require no handovers, including the intracell and non intracell handovers can have "Sent Freq.of preprocess ed MR" set to
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
No (No impact on the UE in idle mode)
Not involved
Not involved
None Because the measurem ent reports may not always be correctly decoded when the quality of a serving cell is poor, handovers may fail when the number of the lost measurem ent reports exceeds the value set by this parameter. You can set a relatively larger value for this parameter, thus enabling emergency handovers.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Yes
Cell
Less than 1 minute
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
Not involved
Not involved
The parameter cannot be modified.
Yes
Cell
Less than 1 minute
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Yes
Cell
Less than 1 minute
None
Yes
Cell
Less than 5 minutes
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Yes
Cell
Less than 5 minutes
You must deactivate the cell before modifying this parameter and activate the cell after modifying this parameter.
Yes
Cell
Less than 5 minutes
None
Yes
Cell
Less than 5 minutes
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Yes
Cell
Less than 5 minutes
You must deactivate the cell before modifying this parameter and activate the cell after modifying this parameter.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
ACS is usually set to 0 because system information 7 and 8 messages are seldom used in common cells. ACS should be set to 1 if system information 7 and 8 messages are used in a cell and C2 is used for cell reselection .
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
The ATT must be set to the same value for different cells in a same location area. If not, some MSs after poweron may not act as a called party until they have waited for the period specified by "T3212".
No (No impact on the UE in idle mode)
No (No impact on the UE in idle mode)
Not involved
Not involved
Not involved
None
Not involved
If the value of "Cell Bar Access" is YES and the value of "Cell Bar Qualify" is NO, new call access is prohibited but handover access is allowed.
No (No impact on the UE in idle mode)
No (No impact on the UE in idle mode)
Not involved
Not involved
Not involved
If the value of "Cell Bar Access" is YES and the value of "Cell Bar Qualify" is NO, new call access is prohibited but handover access is allowed.
Not involved
As defined in the protocol, the value of this parameter cannot be 0 in the following cases: The BSC needs to send system messages over the extended BCHs. CBCHs are configured. When the GSMR is enabled, NCHs are configured.
No (No impact on the UE in idle mode)
Not involved
Not involved
A paging block (four continuous CCCH timeslots) can bear two IMSI paging messages, four TMSI paging messages, or two AGCH immediate assignmen t message. If the signaling downlink is faulty when an MS is idle, the rule of downlink failure is based on the signaling downlink failure counter DSC. When an MS stays
No (No impact on the UE in idle mode)
Not involved
Not involved
It is recommen ded that you select a greater value, such as 16, 20, or 25, in the area with heavy traffic, but a smaller value, such as 2 or 3, in the area with light traffic. To properly specify the value of this parameter, it is necessary to perform overall and long-term measurem ent on the entities involved regarding their processing
No (Impact on the UE in idle mode)
Not involved
Not involved
None
No (Impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
No (Impact on the UE in idle mode)
Not involved
Not involved
Not involved
None
Not involved
The settings of RXLEVACCESSMIN and CRO should guarantee that cells with same priority have the same cell reselect offset.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
The value ranges of frequency numbers vary with correspond ing band reporting.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
The value of this parameter cannot be changed.
Less than 1 minute
HSNs are optional for the cells with frequency hopping enabled. The cells in the same frequency group must use different HSNs. The HSNs of all the channels in a cell must be the same.
Not involved
Yes
Not involved
Cell
Yes
Yes
Services are disrupted when the BCCH frequency of a cell is changed.
Cell
Cell
Cell
Less than 1 minute
None
Less than 1 minute
The value of this parameter must be the same as the attribute value of the TRX frequency hopping of this frequency hopping group.
Less than 5 minutes
If the BCCH frequency of a cell is changed, the BSC forcibly hands over the calls in this cell to another cell and then resets this cell.
Services are disrupted when the BCCH frequency of a cell is changed.
Services are disrupted when the BCCH frequency of a cell is changed.
Services are disrupted when the BCCH frequency of a cell is changed.
Cell
Cell
Cell
Less than 5 minutes
If the BCCH frequency of a cell is changed, the BSC forcibly hands over the calls in this cell to another cell and then resets this cell.
Less than 5 minutes
If the BCCH frequency of a cell is changed, the BSC forcibly hands over the calls in this cell to another cell and then resets this cell.
Less than 5 minutes
If the BCCH frequency of a cell is changed, the BSC forcibly hands over the calls in this cell to another cell and then resets this cell.
Services are disrupted when the BCCH frequency of a cell is changed.
Services are disrupted when the BCCH frequency of a cell is changed.
Services are disrupted when the BCCH frequency of a cell is changed.
Cell
Cell
Cell
Less than 5 minutes
If the BCCH frequency of a cell is changed, the BSC forcibly hands over the calls in this cell to another cell and then resets this cell.
Less than 5 minutes
If the BCCH frequency of a cell is changed, the BSC forcibly hands over the calls in this cell to another cell and then resets this cell.
Less than 5 minutes
If the BCCH frequency of a cell is changed, the BSC forcibly hands over the calls in this cell to another cell and then resets this cell.
Services are disrupted when the BCCH frequency of a cell is changed.
Services are disrupted when the BCCH frequency of a cell is changed.
Services are disrupted when the BCCH frequency of a cell is changed.
Cell
Cell
Cell
Less than 5 minutes
If the BCCH frequency of a cell is changed, the BSC forcibly hands over the calls in this cell to another cell and then resets this cell.
Less than 5 minutes
If the BCCH frequency of a cell is changed, the BSC forcibly hands over the calls in this cell to another cell and then resets this cell.
Less than 5 minutes
If the BCCH frequency of a cell is changed, the BSC forcibly hands over the calls in this cell to another cell and then resets this cell.
Services are disrupted when the BCCH frequency of a cell is changed.
Services are disrupted when the BCCH frequency of a cell is changed.
Services are disrupted when the BCCH frequency of a cell is changed.
Cell
Cell
Cell
Less than 5 minutes
If the BCCH frequency of a cell is changed, the BSC forcibly hands over the calls in this cell to another cell and then resets this cell.
Less than 5 minutes
If the BCCH frequency of a cell is changed, the BSC forcibly hands over the calls in this cell to another cell and then resets this cell.
Less than 5 minutes
If the BCCH frequency of a cell is changed, the BSC forcibly hands over the calls in this cell to another cell and then resets this cell.
Services are disrupted when the BCCH frequency of a cell is changed.
Services are disrupted when the BCCH frequency of a cell is changed.
Services are disrupted when the BCCH frequency of a cell is changed.
Cell
Cell
Cell
Less than 5 minutes
If the BCCH frequency of a cell is changed, the BSC forcibly hands over the calls in this cell to another cell and then resets this cell.
Less than 5 minutes
If the BCCH frequency of a cell is changed, the BSC forcibly hands over the calls in this cell to another cell and then resets this cell.
Less than 5 minutes
If the BCCH frequency of a cell is changed, the BSC forcibly hands over the calls in this cell to another cell and then resets this cell.
Services are disrupted when the BCCH frequency of a cell is changed.
Services are disrupted when the BCCH frequency of a cell is changed.
Services are disrupted when the BCCH frequency of a cell is changed.
Cell
Cell
Cell
Less than 5 minutes
If the BCCH frequency of a cell is changed, the BSC forcibly hands over the calls in this cell to another cell and then resets this cell.
Less than 5 minutes
If the BCCH frequency of a cell is changed, the BSC forcibly hands over the calls in this cell to another cell and then resets this cell.
Less than 5 minutes
If the BCCH frequency of a cell is changed, the BSC forcibly hands over the calls in this cell to another cell and then resets this cell.
Services are disrupted when the BCCH frequency of a cell is changed.
Services are disrupted when the BCCH frequency of a cell is changed.
Services are disrupted when the BCCH frequency of a cell is changed.
Cell
Cell
Cell
Less than 5 minutes
If the BCCH frequency of a cell is changed, the BSC forcibly hands over the calls in this cell to another cell and then resets this cell.
Less than 5 minutes
If the BCCH frequency of a cell is changed, the BSC forcibly hands over the calls in this cell to another cell and then resets this cell.
Less than 5 minutes
If the BCCH frequency of a cell is changed, the BSC forcibly hands over the calls in this cell to another cell and then resets this cell.
Services are disrupted when the BCCH frequency of a cell is changed.
Services are disrupted when the BCCH frequency of a cell is changed.
Services are disrupted when the BCCH frequency of a cell is changed.
Cell
Cell
Cell
Less than 5 minutes
If the BCCH frequency of a cell is changed, the BSC forcibly hands over the calls in this cell to another cell and then resets this cell.
Less than 5 minutes
If the BCCH frequency of a cell is changed, the BSC forcibly hands over the calls in this cell to another cell and then resets this cell.
Less than 5 minutes
If the BCCH frequency of a cell is changed, the BSC forcibly hands over the calls in this cell to another cell and then resets this cell.
Services are disrupted when the BCCH frequency of a cell is changed.
Services are disrupted when the BCCH frequency of a cell is changed.
Services are disrupted when the BCCH frequency of a cell is changed.
Cell
Cell
Cell
Less than 5 minutes
If the BCCH frequency of a cell is changed, the BSC forcibly hands over the calls in this cell to another cell and then resets this cell.
Less than 5 minutes
If the BCCH frequency of a cell is changed, the BSC forcibly hands over the calls in this cell to another cell and then resets this cell.
Less than 5 minutes
If the BCCH frequency of a cell is changed, the BSC forcibly hands over the calls in this cell to another cell and then resets this cell.
Services are disrupted when the BCCH frequency of a cell is changed.
Services are disrupted when the BCCH frequency of a cell is changed.
Services are disrupted when the BCCH frequency of a cell is changed.
Cell
Cell
Cell
Less than 5 minutes
If the BCCH frequency of a cell is changed, the BSC forcibly hands over the calls in this cell to another cell and then resets this cell.
Less than 5 minutes
If the BCCH frequency of a cell is changed, the BSC forcibly hands over the calls in this cell to another cell and then resets this cell.
Less than 5 minutes
If the BCCH frequency of a cell is changed, the BSC forcibly hands over the calls in this cell to another cell and then resets this cell.
Services are disrupted when the BCCH frequency of a cell is changed.
Services are disrupted when the BCCH frequency of a cell is changed.
Services are disrupted when the BCCH frequency of a cell is changed.
Cell
Cell
Cell
Less than 5 minutes
If the BCCH frequency of a cell is changed, the BSC forcibly hands over the calls in this cell to another cell and then resets this cell.
Less than 5 minutes
If the BCCH frequency of a cell is changed, the BSC forcibly hands over the calls in this cell to another cell and then resets this cell.
Less than 5 minutes
If the BCCH frequency of a cell is changed, the BSC forcibly hands over the calls in this cell to another cell and then resets this cell.
Services are disrupted when the BCCH frequency of a cell is changed.
Services are disrupted when the BCCH frequency of a cell is changed.
Services are disrupted when the BCCH frequency of a cell is changed.
Cell
Cell
Cell
Less than 5 minutes
If the BCCH frequency of a cell is changed, the BSC forcibly hands over the calls in this cell to another cell and then resets this cell.
Less than 5 minutes
If the BCCH frequency of a cell is changed, the BSC forcibly hands over the calls in this cell to another cell and then resets this cell.
Less than 5 minutes
If the BCCH frequency of a cell is changed, the BSC forcibly hands over the calls in this cell to another cell and then resets this cell.
Services are disrupted when the BCCH frequency of a cell is changed.
Services are disrupted when the BCCH frequency of a cell is changed.
Services are disrupted when the BCCH frequency of a cell is changed.
Cell
Cell
Cell
Less than 5 minutes
If the BCCH frequency of a cell is changed, the BSC forcibly hands over the calls in this cell to another cell and then resets this cell.
Less than 5 minutes
If the BCCH frequency of a cell is changed, the BSC forcibly hands over the calls in this cell to another cell and then resets this cell.
Less than 5 minutes
If the BCCH frequency of a cell is changed, the BSC forcibly hands over the calls in this cell to another cell and then resets this cell.
Services are disrupted when the BCCH frequency of a cell is changed.
Services are disrupted when the BCCH frequency of a cell is changed.
Services are disrupted when the BCCH frequency of a cell is changed.
Cell
Cell
Cell
Less than 5 minutes
If the BCCH frequency of a cell is changed, the BSC forcibly hands over the calls in this cell to another cell and then resets this cell.
Less than 5 minutes
If the BCCH frequency of a cell is changed, the BSC forcibly hands over the calls in this cell to another cell and then resets this cell.
Less than 5 minutes
If the BCCH frequency of a cell is changed, the BSC forcibly hands over the calls in this cell to another cell and then resets this cell.
Services are disrupted when the BCCH frequency of a cell is changed.
Services are disrupted when the BCCH frequency of a cell is changed.
Services are disrupted when the BCCH frequency of a cell is changed.
Cell
Cell
Cell
Less than 5 minutes
If the BCCH frequency of a cell is changed, the BSC forcibly hands over the calls in this cell to another cell and then resets this cell.
Less than 5 minutes
If the BCCH frequency of a cell is changed, the BSC forcibly hands over the calls in this cell to another cell and then resets this cell.
Less than 5 minutes
If the BCCH frequency of a cell is changed, the BSC forcibly hands over the calls in this cell to another cell and then resets this cell.
Services are disrupted when the BCCH frequency of a cell is changed.
Services are disrupted when the BCCH frequency of a cell is changed.
Services are disrupted when the BCCH frequency of a cell is changed.
Cell
Cell
Cell
Less than 5 minutes
If the BCCH frequency of a cell is changed, the BSC forcibly hands over the calls in this cell to another cell and then resets this cell.
Less than 5 minutes
If the BCCH frequency of a cell is changed, the BSC forcibly hands over the calls in this cell to another cell and then resets this cell.
Less than 5 minutes
If the BCCH frequency of a cell is changed, the BSC forcibly hands over the calls in this cell to another cell and then resets this cell.
Services are disrupted when the BCCH frequency of a cell is changed.
Services are disrupted when the BCCH frequency of a cell is changed.
Services are disrupted when the BCCH frequency of a cell is changed.
Cell
Cell
Cell
Less than 5 minutes
If the BCCH frequency of a cell is changed, the BSC forcibly hands over the calls in this cell to another cell and then resets this cell.
Less than 5 minutes
If the BCCH frequency of a cell is changed, the BSC forcibly hands over the calls in this cell to another cell and then resets this cell.
Less than 5 minutes
If the BCCH frequency of a cell is changed, the BSC forcibly hands over the calls in this cell to another cell and then resets this cell.
Services are disrupted when the BCCH frequency of a cell is changed.
Services are disrupted when the BCCH frequency of a cell is changed.
Services are disrupted when the BCCH frequency of a cell is changed.
Cell
Cell
Cell
Less than 5 minutes
If the BCCH frequency of a cell is changed, the BSC forcibly hands over the calls in this cell to another cell and then resets this cell.
Less than 5 minutes
If the BCCH frequency of a cell is changed, the BSC forcibly hands over the calls in this cell to another cell and then resets this cell.
Less than 5 minutes
If the BCCH frequency of a cell is changed, the BSC forcibly hands over the calls in this cell to another cell and then resets this cell.
Services are disrupted when the BCCH frequency of a cell is changed.
Services are disrupted when the BCCH frequency of a cell is changed.
Services are disrupted when the BCCH frequency of a cell is changed.
Cell
Cell
Cell
Less than 5 minutes
If the BCCH frequency of a cell is changed, the BSC forcibly hands over the calls in this cell to another cell and then resets this cell.
Less than 5 minutes
If the BCCH frequency of a cell is changed, the BSC forcibly hands over the calls in this cell to another cell and then resets this cell.
Less than 5 minutes
If the BCCH frequency of a cell is changed, the BSC forcibly hands over the calls in this cell to another cell and then resets this cell.
Services are disrupted when the BCCH frequency of a cell is changed.
Services are disrupted when the BCCH frequency of a cell is changed.
Services are disrupted when the BCCH frequency of a cell is changed.
Cell
Cell
Cell
Less than 5 minutes
If the BCCH frequency of a cell is changed, the BSC forcibly hands over the calls in this cell to another cell and then resets this cell.
Less than 5 minutes
If the BCCH frequency of a cell is changed, the BSC forcibly hands over the calls in this cell to another cell and then resets this cell.
Less than 5 minutes
If the BCCH frequency of a cell is changed, the BSC forcibly hands over the calls in this cell to another cell and then resets this cell.
Services are disrupted when the BCCH frequency of a cell is changed.
Services are disrupted when the BCCH frequency of a cell is changed.
Cell
Cell
Less than 5 minutes
If the BCCH frequency of a cell is changed, the BSC forcibly hands over the calls in this cell to another cell and then resets this cell.
Less than 5 minutes
If the BCCH frequency of a cell is changed, the BSC forcibly hands over the calls in this cell to another cell and then resets this cell.
Services are disrupted when the BCCH frequency of a cell is changed.
Cell
Less than 5 minutes
If the BCCH frequency of a cell is changed, the BSC forcibly hands over the calls in this cell to another cell and then resets this cell.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
Not involved
Not involved
The parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
Not involved
Not involved
The parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
Not involved
Not involved
The parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Yes
Cell
Less than 5 minutes
Before modifying this parameter, you must deactivate the cells bound to the OPC.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
For the BTS3002C , if each cell is configured with two TRXs (O2 or S2) and the value of this parameter is YES, the radio frequency (RF) connection supports the configurati on of the main diversity antennas. Only the BTS3002C has this parameter.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
1. Interferenc e band 0 is not counted in the traffic statistics. 2. In the following BTSs, the value range of this parameter is 115 to 85: BTS2X of all the versions, BTS3X 03.1130 of the earlier versions, 3001C07.0 301 of the earlier versions, and 3002C02.0 820 of the earlier versions. If this parameter is set to a value
No (No impact on the UE in idle mode)
No (No impact on the UE in idle mode)
No (No impact on the UE in idle mode)
Not involved
Not involved
Not involved
Not involved
If this parameter is set to a greater value, the BTS power decreases too much. If this parameter is set to a smaller value, the BTS power decreases insignifican tly and thus the power decrease effect is unsatisfact ory.
Not involved
For the BTS3001C , BTS3001C P, and BTS3002C , this parameter is invalid. For other BTSs, this parameter is valid.
Not involved
If this parameter is set to a greater value, the error is small.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
If this parameter is set to a smaller value, the error is smaller.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
For a BTS of the BTS3X series, the value of this parameter is invalid.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
The parameter must be set to a value smaller than the number of TCHs available on the BCCH TRX to prevent the frequent enabling and disabling of the power amplifier of a TRX.
No (No impact on the UE in idle mode)
Not involved
No (No impact on the UE in idle mode)
No (No impact on the UE in idle mode)
No (No impact on the UE in idle mode)
Not involved
Not involved
Not involved
Not involved
The level values 0 through 63 map to 110 dBm to -47 dBm. A smaller value indicates a lower receive level.
Not involved
The level values 0 through 63 map to 110 dBm to -47 dBm. A smaller value indicates a lower receive level.
Not involved
The parameter value correspond s to RQ (quality level: 0 to 7) multiplied by 10. A greater value indicates a poorer receive quality.
No (No impact on the UE in idle mode)
Not involved
Not involved
The parameter value correspond s to RQ (quality level: 0 to 7) multiplied by 10. A greater value indicates a poorer receive quality.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
Not involved
Not involved
The parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
When the value of this parameter is changed, the values of "THRUTR ANHIGH" and "THRUTR ANLOW" are affected.
No (No impact on the UE in idle mode)
Not involved
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
When the value of this parameter is changed, the values of "THREUT RANHIGH" and "THREUT RANLOW" are affected.
No (No impact on the UE in idle mode)
Not involved
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
Not involved
Not involved
The parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
Not involved
Not involved
The parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
Not involved
Not involved
The parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Yes
Cell
Less than 5 minutes
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Yes
Cell
Less than 5 minutes
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Yes
Cell
Less than 5 minutes
None
Yes
Cell
Less than 5 minutes
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
When this parameter is set to "100", it is invalid.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
If the value of this parameter is greater than or equal to "PDCH Uplink Multiplex Threshold" and "PDCH Downlink Multiplex Threshold" , this function is disabled.
Not involved
Not involved
Not involved
The parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
Not involved
Not involved
The parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
Not involved
Not involved
The parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Yes
Cell
Not involved
None
Yes
Not involved
Less than 5 minutes
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Yes
Cell
Less than 5 minutes
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Yes
Cell
Less than 10 minutes
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
Not involved
Not involved
The parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
PS downlink power control is only supported MCS9.PS downlink power control is mutual exclusive with 8PSK. In addition, it is not supported in EGPRS2, RTTI, FANR, or a downlink dual carrier.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
If you do not use a dualantenna to receive signals, set this parameter to 0.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
Not involved
Not involved
The parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
No (No impact on the UE in idle mode)
Not involved
Not involved
None the When simple cell broadcast function is enabled, the BSC provides the simple cell broadcast service if the CBC is not provided. The simple cell broadcast function is used to broadcast the messages that are not changed frequently. The simple cell broadcast function and the cell broadcast function provided by the
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
Not involved
Not involved
The parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
No (No impact on the UE in idle mode)
Not involved
Not involved
Not involved
If this parameter is set to a greater value, TRX mutual aid may not be triggered promptly in the case of BCCH TRX failure after a cell has just been initialized. If this parameter is set to smaller value, mutual aid may be decided mistakenly.
Not involved
If the value of this parameter is YES, the intra-BSC handovers (including intra-cell handovers) in which the cell is the source or destination cell are processed as asynchron ous handovers.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
This parameter is valid in only the cells in the coverage area of the BTS3X.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
When this parameter is set to YES, during the channel activation of the BSC, if the allocated channel speech version is full rate speech version 1 whereas the MS supports full rate speech version 2, the BSC changes the speech version to full rate speech version 2 and sends it to the BTS. For the MSC, however, this
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
For a doubletransceiver BTS or an NGBTS, the initial value is ON. For a BTS of any other type, the initial value is OFF and unconfigur able.
No (No impact on the UE in idle mode)
Not involved
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
If there are fewer frequencie s in a frequency hopping group, the mode of Frequency List can decrease the length of an assignmen t or handover command to facilitate the access of an MS.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
If the value of this parameter is increased, the cell congestion rate increases. If the value of this parameter is decreased, one-way audio may persist after the handover.
Not involved
Not involved
Not involved
Not involved
Not involved
If this parameter is set to YES, the call drop rate may increase.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
This function can be activated only when the "Switch for Abis Timeslot Detection" is "ON".
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
Not involved
Not involved
The parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
If this parameter is set to a greater value, too many channel resources are occupied and the congestion occurs. If this parameter is set to a smaller value, the handover success rate may fall.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
If this parameter is set to a greater value, too many channel resources are occupied and the congestion occurs. If this parameter is set to a smaller value, the handover success rate may fall.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
If the timer is set to a greater value, the time of reserving channel resources for an emergency call is long. In this case, the channel usage for ordinary calls is affected. If the timer is set to a smaller value, reserved channel resources may not be assigned to an emergency call. In this case, the call fails.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
Not involved
Not involved
The value of this parameter cannot be changed.
Not involved
Not involved
Not involved
The parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
If the MSC pool function is enabled, and the value of this parameter is not NORMAL, the DPC is not selected for call access.
No (No impact on the UE in idle mode)
Not involved
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
The bearer used at the BSS must be the same as that used at the CN.
Not involved
This parameter must be set according to the bearer capability at the CN.
Not involved
Primary operator index must be 0.
No (No impact on the UE in idle mode)
No (No impact on the UE in idle mode)
No (No impact on the UE in idle mode)
Not involved
Not involved
Not involved
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
The parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
Not involved
Not involved
The parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
Not involved
Not involved
None
Not involved
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Yes
Cell
Less than 5 minutes
None
Yes
Cell
Less than 5 minutes
None
Yes
Cell
Less than 5 minutes
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
Set this parameter properly to ensure that hierarchica l handover and loadbased handover can function properly. During hierarchica l handover and loadbased handover, the downlink received level of the target cell must be greater than this threshold.
No (No impact on the UE in idle mode)
Not involved
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
The value of this parameter cannot be changed.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
Not involved
Not involved
The parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
This parameter determines whether to load data from the OMU or the FLASH when the BSC or the board is restarted. The equipment is affected.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
To support the outgoing inter-cell PS handover, set the neighborin g cell relation between the source GSM cell and each target LTE cell, and then set this parameter to SUPPORT .
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
When the sampling rate of preprocessed measurem ent reports is set to 1, the frequency of submitting preprocessed measurem ent reports should be set to one report per two seconds or one report per four seconds.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
Not involved
Not involved
The parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
Not involved
Not involved
The parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
The parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
The parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
The parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
The parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
No (No impact on the UE in idle mode)
Not involved
Not involved
The parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
Not involved
Not involved
The parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
Not involved
Not involved
The parameter cannot be modified.
Not involved
Not involved
Not involved
The parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
The parameter cannot be modified.
Not involved
Not involved
Yes
Cell
Less than 1 minute
The value range of this parameter depends on the frequency range of the cell band.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Yes
Cell
Less than 1 minute
Each cell can be configured with only one TRX that carries the main BCCH.
Not involved
Not involved
Not involved
None
Not involved
The parameter cannot be modified.
Not involved
Not involved
If the value of this parameter is modified to "Lock", forced handover is triggered to hand the ongoing services on the corresponding TRX to another TRX. Services will be disrupted if the handover fails. If the value of this parameter is modified to "Shutdown", the ongoing services are not affected but new service accesses are not allowed. TRX
Services will be disrupted until the value of this parameter is changed to "Unlock". None
Not involved
Not involved
Not involved
The parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
The parameter cannot be modified.
Not involved
Not involved
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
Not involved
Not involved
The parameter cannot be modified.
Not involved
Not involved
Not involved
None
Yes
Channel
Less than 1 minute
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
Not involved
Not involved
The parameter cannot be modified.
Not involved
Not involved
Not involved
None
If the value of this parameter is modified to "Lock", forced handover is triggered to hand the ongoing services on the corresponding channel to another channel. Services will be disrupted if the handover fails. If the value of this parameter is modified to "Shutdown", the ongoing services are not affected but new service accesses are not allowed. Channel
Services will be disrupted until the value of this parameter is changed to "Unlock". None
Not involved
Not involved
Not involved
The parameter cannot be modified.
Not involved
Not involved
Not involved
None
If traffic handover fails after the modification of the parameter, the service is interrupted. Cell
No (No impact on the UE in idle mode)
Not involved
Cell
Not involved
Less than 1 minute
After this parameter is modified, the services in the cell are handed over forcedly. The cell is reset after all the handover succeeds or after ten seconds.
Less than 1 minute
After this parameter is modified, the services in the cell are handed over forcedly. The cell is reset after all the handover succeeds or after ten seconds.
Not involved
The parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
This parameter is valid only for EDGE TRXs and is invalid for ordinary TRXs.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
No (No impact on the UE in idle mode)
Not involved
Not involved
None This parameter cannot be set to YES for the TRX that carries the main BCCH.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
This parameter must be equal to or less than "OUTHOP WROVER LOADTHR ESHOLD" to protect the other timeslots/c ells from overload and underpowe r.
Not involved
This parameter is valid for the EDGE TRX only.
Not involved
This parameter is valid for the EDGE TRX only.
No (No impact on the UE in idle mode)
No (No impact on the UE in idle mode)
No (No impact on the UE in idle mode)
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
The parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
The parameter cannot be modified.
Not involved
Not involved
If traffic handover fails after the modification of the parameter, the service is interrupted. Cell
Less than 1 minute
After this parameter is modified, the services in the cell are handed over forcedly. The cell is reset after all the handover succeeds or after ten seconds.
Not involved
Not involved
Not involved
The parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
Not involved
Not involved
The parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
Not involved
Not involved
None
Not involved
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
The parameter cannot be modified.
Not involved
The parameter cannot be modified.
Not involved
The parameter cannot be modified.
Not involved
Not involved
Not involved
The parameter cannot be modified.
Not involved
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
Not involved
Not involved
Add zeros in front of the IMSI to extend the IMSI to 15 bits.
Not involved
Not involved
Not involved
Add zeros in front of the IMSI to extend the IMSI to 15 bits.
Not involved
Not involved
Not involved
None
Not involved
Not involved
Not involved
None
Not involved
Not involved
Not involved
None
Not involved
Not involved
Not involved
None
Not involved
Not involved
Not involved
None
Not involved
Not involved
Not involved
None
Not involved
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
Not involved
Not involved
The parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
The parameter cannot be modified.
Not involved
The parameter cannot be modified.
Not involved
The parameter cannot be modified.
Not involved
The parameter cannot be modified.
Not involved
The parameter cannot be modified.
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
The parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
Not involved
Not involved
The parameter cannot be modified.
Not involved
Not involved
Not involved
The parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
Not involved
Not involved
No (No impact on the UE in idle mode)
No (No impact on the UE in idle mode)
Not involved
No (No impact on the UE in idle mode)
No (No impact on the UE in idle mode)
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
The parameter cannot be modified.
Not involved
The parameter cannot be modified.
Not involved
The parameter cannot be modified.
Not involved
The adjacent node ID must be configured.
Not involved
The adjacent node ID must be configured.
Not involved
The parameter cannot be modified. The
Not involved
parameter IPPATH must be configured in advance.
Not involved
The adjacent node ID must be configured.
No (No impact on the UE in idle mode)
No (No impact on the UE in idle mode)
Not involved
Not involved
Not involved
The adjacent node ID must be configured.
Not involved
The adjacent node ID must be configured.
No (No impact on the UE in idle mode)
Not involved
Not involved
The adjacent node ID must be configured.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
The adjacent node ID must be configured.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
The adjacent node ID must be configured.
No (No impact on the UE in idle mode)
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
The parameter cannot be modified.
Not involved
The parameter cannot be modified.
Not involved
The parameter cannot be modified.
Not involved
The parameter cannot be modified.
Not involved
The parameter cannot be modified.
Not involved
Not involved
Not involved
Not involved
Not involved
The parameter cannot be modified.
Not involved
The parameter cannot be modified.
Not involved
Not involved
Not involved
The parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Yes
IP path
Less than 5 minutes
None
Yes
IP path
Less than 5 minutes
None
Yes
IP path
Less than 5 minutes
None
Not involved
The resource group must exist.
No (No impact on the UE in idle mode)
Not involved
No (No impact on the UE in idle mode)
Not involved
Not involved
The TRM load threshold must be configured already.
Yes
IP path
Less than 5 minutes
None
If the mode is not set back, will interrupt service until it is set back.
Incorrect setting of this parameter can lead to access failure to the target IP address.
Not involved
The parameter cannot be modified.
Not involved
The address must exist and respond to the PING request.
Yes
Not involved
No (No impact on the UE in idle mode)
BSC6900
Not involved
Not involved
No (No impact on the UE in idle mode)
No (No impact on the UE in idle mode)
No (No impact on the UE in idle mode)
No (No impact on the UE in idle mode)
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
When the network status is poor, the check period should not be too small. Otherwise, the path state is affected.
Not involved
When the network status is poor, the check count should not be too small. Otherwise, the path state is affected.
Not involved
When the network status is poor, the packet length should not be too large. Otherwise, the path state is affected.
Not involved
The adjacent node ID must be configured.
Not involved
The parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
Not involved
Not involved
The parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
The parameter cannot be modified.
Not involved
The parameter cannot be modified.
Not involved
The parameter cannot be modified.
Not involved
The parameter cannot be modified.
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
The parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
The parameter cannot be modified.
Not involved
The parameter cannot be modified.
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
The parameter cannot be modified.
Not involved
The parameter cannot be modified.
Not involved
Not involved
Not involved
The parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Yes
BSC6900
Less than 10 minutes
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
Not involved
Not involved
None
Not involved
Not involved
Not involved
None
Not involved
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
The parameter cannot be modified.
Not involved
The parameter cannot be modified.
Not involved
The parameter cannot be modified.
Not involved
The parameter cannot be modified.
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Yes
BSC6900
The services are interrupted until the M3DE is available.
The routing context must be unique and needs to be negotiated with the peer.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
The parameter cannot be modified.
Not involved
The parameter cannot be modified.
Not involved
The parameter cannot be modified. The routing context must be unique and needs to be negotiated with the peer.
Yes
BSC6900
The services are interrupted until the M3DE is available.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
The parameter cannot be modified.
Not involved
The parameter cannot be modified.
Not involved
Not involved
Not involved
Not involved
No (No impact on the UE in idle mode)
Not involved
Not involved
Not involved
Not involved
The mask is calculated according to the link set to a destination entity.
Not involved
The parameter cannot be modified.
Not involved
Not involved
Not involved
The parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
The parameter cannot be modified.
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
The parameter cannot be modified.
Not involved
The parameter cannot be modified.
Not involved
The parameter cannot be modified.
Not involved
Not involved
Not involved
The parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
Not involved
Not involved
The parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
The parameter cannot be modified.
Not involved
The parameter cannot be modified.
Not involved
Not involved
Not involved
Not involved
No (No impact on the UE in idle mode)
Not involved
Not involved
The routing priority is modified. In the case of multiple routes to the same signaling point, the route priority is affected.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
Not involved
Not involved
None
Not involved
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
Not involved
Not involved
The parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
No (No impact on the UE in idle mode)
Not involved
Not involved
Not involved
The parameter cannot be modified.
Not involved
The local IP address and peer IP must be configured in the same network segment. The peer IP address cannot be the same with the local IP address of the BSC.
Not involved
Not involved
Not involved
The parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
The local IP address and peer IP must be configured in the same network segment. The peer IP address cannot be the same with the local IP address of the BSC.
No (No impact on the UE in idle mode)
Not involved
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
No_HC: disable the header compressi on function; RTP/UDP/I P_HC: enable the RTP/UDP/I P/PPP function
Not involved
No_HC: disable the header compressi on function; RTP/UDP/I P_HC: enable the RTP/UDP/I P/PPP function
No (No impact on the UE in idle mode)
No (No impact on the UE in idle mode)
Not involved
Not involved
Yes
BSC6900
Interrupt the service until negotiate successfully again.
Negotiation fails if this parameter is modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
No (No impact on the UE in idle mode)
Not involved
Not involved
ENABLE: the multiplexin g frame function of the PPP link is enabled. DISABLE: the multiplexin g frame function of the PPP link is disabled. If the PPP frame length is larger than this value, PPPMUX multiplexin g cannot be performed. The value of this parameter cannot be larger than the maximum multiplexin g frame length wMuxMfl and the number sub-frame must be larger than 2 as the enabling condition of PPPMUX (the relation between the
No (No impact on the UE in idle mode)
No (No impact on the UE in idle mode)
No (No impact on the UE in idle mode)
Not involved
Not involved
Not involved
Not involved
The value of this parameter cannot be smaller than the maximum PPPMUX sub-frame length. The number sub-frame must be larger than 2 to enable the PPPMUX.
Not involved
Negotiation can succeed only when the configurati on is consistent on the local and peer ends.
Not involved
Negotiation can succeed only when the configurati on is consistent on the local and peer ends.
No (No impact on the UE in idle mode)
No (No impact on the UE in idle mode)
Yes
Yes
Not involved
Not involved
BSC6900
BSC6900
Not involved
Negotiation can succeed only when the configurati on is consistent on the local and peer ends.
Not involved
Negotiation can succeed only when the configurati on is consistent on the local and peer ends.
Interrupt the service until negotiate successfully again.
Negotiation can succeed only when the configurati on is consistent on the local and peer ends.
Interrupt the service until negotiate successfully again.
Negotiation can succeed only when the configurati on is consistent on the local and peer ends.
Yes
BSC6900
Interrupt the service until negotiate successfully again.
Negotiation can succeed only when the configurati on is consistent on the local and peer ends.
Yes
BSC6900
Interrupt the service until negotiate successfully again.
Negotiation can succeed only when the configurati on is consistent on the local and peer ends.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
No (No impact on the UE in idle mode)
Not involved
Not involved
Not involved
If the PPP frame length is larger than this value, PPPMUX multiplexin g cannot be performed. The value of this parameter cannot be larger than the maximum multiplexin g frame length wMuxMfl and the number sub-frame must be larger than 2 as the enabling condition of PPPMUX (the relation between the
Not involved
The value of this parameter cannot be smaller than the maximum PPPMUX sub-frame length. The number sub-frame must be larger than 2 to enable the PPPMUX.
No (No impact on the UE in idle mode)
Not involved
Not involved
Negotiation can succeed only when the configurati on is consistent on the local and peer ends.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
Not involved
Not involved
The parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
Negotiation can succeed only when the configurati on is consistent on the local and peer ends.
Yes
BSC6900
Interrupt the service until negotiate successfully again.
None
Yes
BSC6900
Interrupt the service until negotiate successfully again.
Negotiation fails if this parameter is modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
Not involved
Not involved
The value of this parameter cannot be changed.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
The setting of this parameter needs negotiation with the opposite network element MSC. If the MSC supports processing assignmen t complete messages containing cell lists, set this parameter to YES; otherwise, set this parameter to NO.
No (No impact on the UE in idle mode)
Not involved
Not involved
The setting of this parameter needs negotiation with the opposite network element MSC. If the MSC does not support process assignmen t complete messages containing the Circuit Pool, the value YES of this parameter makes no sense.
No (No impact on the UE in idle mode)
Not involved
Not involved
The setting of this parameter needs negotiation with the opposite network element MSC. If the MSC does not support process assignmen t complete messages containing the Circuit Pool, the value YES of this parameter makes no sense.
No (No impact on the UE in idle mode)
Not involved
Not involved
The setting of this parameter needs negotiation with the opposite network element MSC. If the MSC supports processing assignmen t complete messages containing the Chosen Channel, set this parameter to YES; otherwise, set this parameter to NO.
No (No impact on the UE in idle mode)
Not involved
Not involved
This parameter should be set on the basis of the negotiation with the MSC at the peer end so that the MSC can process the assignmen t complete message properly. In the assignmen t request, if the speech/dat a indicator in the channel type is data, the assignmen t complete message does not carry SPEECH_ VER
No (No impact on the UE in idle mode)
Not involved
Not involved
The setting of this parameter needs negotiation with the opposite network element MSC. In this way, the MSC can process assignmen t complete messages correctly. An assignmen t complete message contains the Chosen Encryption Algorithm only when the encryption algorithm used by an MS in two cells changes
No (No impact on the UE in idle mode)
Not involved
Not involved
The setting of this parameter needs negotiation with the opposite network element MSC. In this way, the MSC can process assignmen t complete messages correctly.
No (No impact on the UE in idle mode)
Not involved
Not involved
The setting of this parameter needs negotiation with the opposite network element MSC. In this way, the MSC can process assignmen t failure messages correctly. NOSENDI NG: The assignmen t failure message does not contain the Circuit Pool List. SENDING PRO: If the cause value of assignmen t failure is "Circuit pool
No (No impact on the UE in idle mode)
Not involved
Not involved
The setting of this parameter needs negotiation with the opposite network element MSC. If the MSC supports processing HO REQ ACK messages containing the Chosen Channel, set this parameter to YES; otherwise, set this parameter to NO.
No (No impact on the UE in idle mode)
Not involved
Not involved
The setting of this parameter needs negotiation with the opposite network element MSC. SENDING: The HO REQ ACK message contains the Chosen Encryption Algorithm. NOSENDI NG: The HO REQ ACK message does not contain the Chosen Encryption Algorithm. SYSTEMO PT: If the encryption algorithm used by an MS in two
No (No impact on the UE in idle mode)
No (No impact on the UE in idle mode)
Not involved
Not involved
Not involved
This parameter should be set on the basis of the negotiation with the MSC at the peer end so that the MSC can process the HO REQ ACK message properly.
Not involved
The setting of this parameter needs negotiation with the opposite network element MSC. In this way, the MSC can process HO FAIL messages correctly.
No (No impact on the UE in idle mode)
No (No impact on the UE in idle mode)
Not involved
Not involved
Not involved
The setting of this parameter needs negotiation with the opposite network element MSC. In this way, the MSC can process HO FAIL messages correctly.
Not involved
The setting of this parameter needs negotiation with the opposite network element MSC. If the MSC supports processing handover performed messages containing the Chosen Channel, set this parameter to YES; otherwise, set this parameter to NO.
No (No impact on the UE in idle mode)
Not involved
Not involved
The setting of this parameter needs negotiation with the opposite network element MSC. In this way, the MSC can process handover performed messages correctly.
No (No impact on the UE in idle mode)
Not involved
Not involved
This parameter should be set on the basis of the negotiation with the MSC at the peer end so that the MSC can process the Handover Perform message properly. For SDCCH handovers, the Handover Perform message does not carry speech_ve r even if this parameter is set to Yes.
No (No impact on the UE in idle mode)
No (No impact on the UE in idle mode)
No (No impact on the UE in idle mode)
Not involved
Not involved
Not involved
Not involved
The setting of this parameter needs negotiation with the opposite network element MSC. In this way, the MSC can process encryption complete messages correctly.
Not involved
This parameter should be set on the basis of the negotiation with the MSC at the peer end.
Not involved
The setting of this parameter needs negotiation with the opposite network element MSC. In this way, the MSC can process HO RQD messages correctly.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
The parameter cannot be modified.
If the mode is not consistent, will interrupt service until it is consistent.
The setting of this parameter must be negotiated with that on the interconne cted side.
Not involved
The parameter cannot be modified.
Interrupt the service until negotiate successfully again.
The setting of this parameter must be negotiated with that on the interconne cted side.
Interrupt the service until negotiate successfully again.
The setting of this parameter must be negotiated with that on the interconne cted side.
Not involved
Yes
Not involved
Yes
Yes
Not involved
BSC6900
Not involved
BSC6900
BSC6900
Yes
Not involved
BSC6900
Not involved
Interrupt the service until negotiate successfully again.
The setting of this parameter must be negotiated with that on the interconne cted side.
Not involved
The parameter cannot be modified. The setting of this parameter must be negotiated with that on the interconne cted side.
Yes
BSC6900
If the mode is not consistent, will interrupt service until it is consistent.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
The parameter cannot be modified.
Not involved
The parameter cannot be modified.
Not involved
The parameter cannot be modified.
Not involved
The parameter cannot be modified.
Not involved
Not involved
Not involved
The parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
The parameter cannot be modified.
Not involved
The parameter cannot be modified.
Not involved
Not involved
Not involved
Not involved
No (No impact on the UE in idle mode)
Not involved
Not involved
According to the MTP3 load sharing principle, the link selection mask must be set properly. If the value is not set properly, the load sharing between MTP3 links may fail.
No (No impact on the UE in idle mode)
Not involved
Not involved
For the modificatio n of the parameter, See the ITU-T Q704.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
The parameter cannot be modified.
Not involved
The parameter cannot be modified.
Not involved
The parameter cannot be modified.
Not involved
The parameter cannot be modified.
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
The parameter cannot be modified.
Not involved
The parameter cannot be modified.
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
The parameter cannot be modified.
Not involved
The parameter cannot be modified.
Not involved
The parameter cannot be modified.
Not involved
The parameter cannot be modified.
Not involved
The parameter cannot be modified.
Not involved
Not involved
Not involved
Not involved
Not involved
The parameter cannot be modified.
Not involved
The parameter cannot be modified.
Not involved
Not involved
Not involved
The parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Yes
BSC6900
Less than 5 minutes
None
Yes
BSC6900
Less than 5 minutes
None
Yes
BSC6900
Less than 5 minutes
None
Yes
BSC6900
Less than 5 minutes
None
Yes
BSC6900
Less than 5 minutes
None
Yes
BSC6900
Less than 5 minutes
None
Yes
BSC6900
Less than 5 minutes
None
Yes
BSC6900
Less than 5 minutes
None
Yes
BSC6900
Less than 5 minutes
None
Yes
BSC6900
Less than 5 minutes
None
Yes
BSC6900
Less than 5 minutes
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
The parameter cannot be modified.
Not involved
The parameter cannot be modified.
Not involved
Not involved
Not involved
Not involved
No (No impact on the UE in idle mode)
Not involved
Not involved
The routing priority is modified. In the case of multiple routes to the same signaling point, the route priority is affected.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
The parameter cannot be modified.
Not involved
The parameter cannot be modified.
Not involved
Not involved
Not involved
Not involved
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Yes
BSC6900
Less than 10 minutes
None
Not involved
The parameter cannot be modified.
Not involved
Not involved
Not involved
Not involved
Not involved
The parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
The modified parameter takes effect after the BSC is reset.
Yes
BSC6900
Less than 10 minutes
None
Not involved
Not involved
Not involved
The parameter cannot be modified.
Not involved
Not involved
Not involved
None
Not involved
Not involved
Not involved
None
Not involved
Not involved
Not involved
The parameter cannot be modified.
Not involved
Not involved
Not involved
This parameter can not be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
Not involved
Not involved
The value of this parameter cannot be changed.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
None
Not involved
The parameter cannot be modified.
Not involved
The parameter cannot be modified.
Not involved
The parameter cannot be modified.
Not involved
The parameter cannot be modified.
Not involved
Not involved
Not involved
The parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Yes
Yes
Yes
Not involved
NSE
NSE
NSE
Not involved
Less than 5 minutes
The SIGBVC must be reset after this switch is turned on. The BSC supports the RIM when the SGSN supports the RIM.
Less than 5 minutes
The SIGBVC must be reset after this switch is turned on. The BSC supports the PFC when the SGSN supports the PFC.
Less than 5 minutes
The SIGBVC must be reset after this switch is turned on. The BSC supports the PS HO when the SGSN supports the PS HO.
Not involved
The parameter cannot be modified.
Not involved
Not involved
Not involved
The parameter cannot be modified.
Not involved
Not involved
Not involved
The parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Less than 5 minutes
This parameter is related to the actual physical connection of the BC. This parameter is modified only when the NSVC service is faulty.
Not involved
The parameter cannot be modified.
Not involved
The parameter cannot be modified.
Not involved
The parameter cannot be modified.
Yes
Not involved
Not involved
Not involved
NSVC
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
The parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Services are interrupted until "SIGLW" is not set to 0.
The ratio of Gb interface signaling messages sent through NSVLs is affected when this parameter is modified. When this NSVL is the last NSVL of the normal state in the NSE, if "SIGLW" is set to 0, the signaling exchange between the NSE and SGSN is interrupted.
Yes
NSE
Yes
Not involved
Not involved
Yes
Yes
Services are interrupted until "SRVLW" is not set to 0.
The ratio of Gb interface signaling messages sent through local NSVLs is affected when this parameter is modified. When this NSVL is the last NSVL of the normal state in the NSE, if "SRVLW" is set to 0, all the packet services of the local NSE are interrupted.
Not involved
The parameter cannot be modified.
Not involved
Not involved
The parameter cannot be modified.
NSE
Services are interrupted unless the NSVL configuration is the same as the SGSN configuration at the BSC. None
NSE
Services are interrupted unless the NSVL configuration is the same as the SGSN configuration at the BSC. None
NSE
Not involved
Yes
NSE
Services are interrupted until "SIGLW" is not set to 0.
None
Yes
NSE
Services are interrupted until "SRVLW" is not set to 0.
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
The parameter modificatio n has no impact on the equipment.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
Not involved
Not involved
None
Not involved
Not involved
Not involved
None
Not involved
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
The parameter cannot be modified.
Not involved
Not involved
The parameter cannot be modified.
BSC6900
The services are interrupted until the signaling point is available.
None
Not involved
Not involved
Yes
Not involved
No (No impact on the UE in idle mode)
Yes
Not involved
Not involved
Not involved
None
BSC6900
The services are interrupted until the signaling point is available.
None
Not involved
The parameter cannot be modified.
Not involved
Yes
BSC6900
The services are interrupted until the signaling point is available.
The switch is off in the case of a signaling point to the single link. After the link to a signaling point is disconnect ed, the restart procedure is performed. See the ITU-T Q704.
Before the modificatio n, the cell mapping table bound to the signaling point must be deleted.
Yes
BSC6900
The services are interrupted until the signaling point is available.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
The parameter cannot be modified.
Not involved
Not involved
Not involved
Not involved
Not involved
Yes
Not involved
Not involved
Not involved
BSC6900
Not involved
The parameter cannot be modified.
Not involved
The parameter cannot be modified.
Not involved
The parameter cannot be modified.
Interrupt the service until negotiate successfully again.
The setting of this parameter must be consistent with that on the peer.
Yes
BSC6900
Interrupt the service until negotiate successfully again.
The setting of this parameter must be consistent with that on the peer.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
The setting of this parameter must be consistent with that on the peer.
Yes
BSC6900
If the mode is not consistent, will interrupt service until it is consistent.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
If the mode is not consistent, will interrupt service until it is consistent.
The setting of this parameter must be consistent with that on the peer. The setting of this parameter must be consistent with that on the peer.
Yes
BSC6900
Yes
BSC6900
If the mode is not consistent, will interrupt service until it is consistent.
No (No impact on the UE in idle mode)
Not involved
Not involved
None The setting of this parameter must be consistent with that on the peer.
None
Yes
BSC6900
If the mode is not consistent, will interrupt service until it is consistent.
No (No impact on the UE in idle mode)
Not involved
Not involved
Yes
BSC6900
If the mode is not consistent, will interrupt service until it is consistent.
The setting of this parameter must be consistent with that on the peer. The setting of this parameter must be consistent with that on the peer.
Yes
BSC6900
If the mode is not consistent, will interrupt service until it is consistent.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
If the mode is not consistent, will interrupt service until it is consistent.
The setting of this parameter must be negotiated with that on the interconne cted side.
If the mode is not consistent, will interrupt service until it is consistent.
If the mode is not consistent, will interrupt service until it is consistent.
Yes
Yes
Optical port
Optical port
No (No impact on the UE in idle mode)
Not involved
Not involved
Not involved
Not involved
Not involved
Yes
BSC6900
Not involved
None
Not involved
The parameter cannot be modified.
The parameter cannot be Not involved modified. When the loopback type is changed to REMOTE_ LOOP or LOCAL_L OOP, the service is affected. The service becomes normal when the loopback test is canceled. When the loopback type is set to LOCAL_L OOP, you cannot directly change it to REMOTE_ LOOP. You must change it The loopback keeps to interrupting the services until it NO_LOOP is cancelled. first and
No (No impact on the UE in idle mode)
Not involved
Not involved
If this parameter is set to YES, the BSC load is increased early in every morning.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
If this parameter is set to 15, this protection is disabled.
No (No impact on the UE in idle mode)
Not involved
No (No impact on the UE in idle mode)
Not involved
Not involved
The setting of this parameter requires negotiation with the MSC, so that the MSC can correctly process HO RQD messages.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
If this parameter is set too high, a normal voice may be considered abnormal. If this parameter is set too low, an abnormal voice may not be considered .
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
When RAI alarms occur on the E1 link, services cannot be assigned again by default. After the switch is enabled, services can be assigned, but singlepass may occur on the ongoing services.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
No (No impact on the UE in idle mode)
Not involved
Not involved
None 1. In the earlier versions of BSC6000V 900R008C 01B060SP 06 and BSC6000V 900R0086 C01B060S P06, a maximum of 50 BTSs can be downloade d simultaneo usly on one BSC through the M2000 client. In BSC6000V 900R008C 01B060SP 06 and BSC6000V 900R0086 C01B060S P06 and its later versions, a maximum of 100 BTSs can
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
If the parameter value is set relatively small, the sensitivity for detecting the OML when it is broken is improved. When the parameter value is set too small and if the link is intermittent ly disconnect ed, misjudgem ents may occur to the testing results. If the parameter value is set relatively large, the sensitivity for detecting
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (Impact on the UE in idle mode)
Not involved
Not involved
None
No (Impact on the UE in idle mode)
Not involved
Not involved
None
No (Impact on the UE in idle mode)
Not involved
Not involved
None
No (Impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
Not involved
Not involved
None
No (Impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
The parameter cannot be modified.
Not involved
The parameter cannot be modified.
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
The parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
The parameter cannot be modified.
Not involved
Not involved
No (No impact on the UE in idle mode)
Not involved
Not involved
The PB interface must be configured.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Yes
E1/T1 link
Less than 5 minutes
None
Yes
E1/T1 link
Less than 5 minutes
None
Not involved
The parameter cannot be modified.
Not involved
The parameter cannot be modified.
Not involved
The parameter cannot be modified.
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
The parameter cannot be modified.
Not involved
Not involved
Not involved
No (No impact on the UE in idle mode)
Not involved
None
Yes
BSC
Yes
BSC
Not involved The services are interrupted until the PBSL is working normally. The services are interrupted until the PBSL is working normally.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
None
None
Not involved
Not involved
Not involved
The parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
The parameter cannot be modified.
Not involved
The parameter cannot be modified.
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
The parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
The priority of the signaling link should be the highest.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
This parameter can be added and modified. It cannot be deleted.
Not involved
This parameter can be added or modified but cannot be removed.
Not involved
This parameter can be added and modified. It cannot be deleted.
No (No impact on the UE in idle mode)
No (No impact on the UE in idle mode)
No (No impact on the UE in idle mode)
Not involved
Not involved
Not involved
No (No impact on the UE in idle mode)
No (No impact on the UE in idle mode)
No (No impact on the UE in idle mode)
No (No impact on the UE in idle mode)
No (No impact on the UE in idle mode)
No (No impact on the UE in idle mode)
No (No impact on the UE in idle mode)
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
This parameter can be added and modified. It cannot be deleted.
Not involved
This parameter can be added and modified. It cannot be deleted.
Not involved
This parameter can be added and modified. It cannot be deleted.
Not involved
This parameter can be added and modified. It cannot be deleted.
Not involved
This parameter can be added and modified. It cannot be deleted.
Not involved
This parameter can be added and modified. It cannot be deleted.
Not involved
This parameter can be added and modified. It cannot be deleted.
No (No impact on the UE in idle mode)
No (No impact on the UE in idle mode)
No (No impact on the UE in idle mode)
No (No impact on the UE in idle mode)
No (No impact on the UE in idle mode)
No (No impact on the UE in idle mode)
No (No impact on the UE in idle mode)
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
This parameter can be added and modified. It cannot be deleted.
Not involved
This parameter can be added and modified. It cannot be deleted.
Not involved
This parameter can be added and modified. It cannot be deleted.
Not involved
This parameter can be added and modified. It cannot be deleted.
Not involved
This parameter can be added and modified. It cannot be deleted.
Not involved
This parameter can be added and modified. It cannot be deleted.
Not involved
This parameter can be added and modified. It cannot be deleted.
No (No impact on the UE in idle mode)
No (No impact on the UE in idle mode)
Not involved
Not involved
Not involved
This parameter can be added and modified. It cannot be deleted.
Not involved
This parameter can be added and modified. It cannot be deleted.
No (No impact on the UE in idle mode)
Not involved
Not involved
This parameter can be added and modified. It cannot be deleted.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
Not involved
Not involved
The parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
The parameter cannot be modified.
Not involved
The parameter cannot be modified.
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
The parameter cannot be modified.
Not involved
The parameter cannot be modified.
Not involved
The parameter cannot be modified.
Not involved
The parameter cannot be modified.
Not involved
The parameter cannot be modified.
Not involved
Yes
Not involved
BSC6900
Not involved
The parameter cannot be modified.
Interrupt the service until negotiate successfully again.
Negotiation can succeed only when the configurati on is consistent on the local and peer ends.
Yes
PPP link
Interrupt the service until negotiate successfully again.
Negotiation fails if this parameter is modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
ENABLE: the multiplexin g frame function of the PPP link is enabled. DISABLE: the multiplexin g frame function of the PPP link is disabled.
No (No impact on the UE in idle mode)
Not involved
Yes
PPP link
Interrupt the service until negotiate successfully again.
None
Yes
PPP link
Interrupt the service until negotiate successfully again.
None
Not involved
Negotiation can succeed only when the configurati on is consistent on the local and peer ends.
Interrupt the service until negotiate successfully again.
Negotiation can succeed only when the configurati on is consistent on the local and peer ends.
No (No impact on the UE in idle mode)
Yes
Not involved
PPP link
Yes
Yes
Yes
PPP link
BSC6900
PPP link
Interrupt the service until negotiate successfully again.
Negotiation can succeed only when the configurati on is consistent on the local and peer ends.
Interrupt the service until negotiate successfully again.
Negotiation can succeed only when the configurati on is consistent on the local and peer ends.
Interrupt the service until negotiate successfully again.
Negotiation can succeed only when the configurati on is consistent on the local and peer ends.
Yes
BSC6900
Interrupt the service until negotiate successfully again.
Negotiation can succeed only when the configurati on is consistent on the local and peer ends.
Yes
BSC6900
Interrupt the service until negotiate successfully again.
None
Yes
Yes
Yes
Yes
BSC6900
BSC6900
BSC6900
PPP link
Interrupt the service until negotiate successfully again.
Negotiation can succeed only when the configurati on is consistent on the local and peer ends.
Interrupt the service until negotiate successfully again.
Negotiation can succeed only when the configurati on is consistent on the local and peer ends.
Interrupt the service until negotiate successfully again.
Negotiation can succeed only when the configurati on is consistent on the local and peer ends.
Interrupt the service until negotiate successfully again.
Negotiation fails if this parameter is modified.
Not involved
Not involved
Not involved
The parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
Not involved
Not involved
None
Not involved
The parameter cannot be modified.
Yes
PPP link
Interrupt the service until negotiate successfully again.
Negotiation can succeed only when the configurati on is consistent on the local and peer ends.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
The parameter cannot be modified.
Not involved
Not involved
Not involved
Not involved
Not involved
The parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
Not involved
Not involved
The parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
Not involved
Not involved
None
Not involved
The parameter cannot be modified.
Not involved
Not involved
Not involved
The parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Yes
Cell
Less than 5 minutes
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
The parameter cannot be modified.
Not involved
The parameter cannot be modified.
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
The parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
The parameter cannot be modified.
Not involved
The transmissi on priority of the service is affected if the queue DSCP value of the port is modified.
Not involved
No (No impact on the UE in idle mode)
Not involved
Not involved
No (No impact on the UE in idle mode)
No (No impact on the UE in idle mode)
No (No impact on the UE in idle mode)
No (No impact on the UE in idle mode)
Not involved
Not involved
Not involved
Not involved
Not involved
The transmissi on priority of the service is affected if the queue DSCP value of the port is modified.
Not involved
The transmissi on priority of the service is affected if the queue DSCP value of the port is modified.
Not involved
The transmissi on priority of the service is affected if the queue DSCP value of the port is modified.
Not involved
The transmissi on priority of the service is affected if the queue DSCP value of the port is modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
The transmissi on priority of the service is affected if the queue DSCP value of the port is modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
The transmissi on priority of the service is affected if the queue DSCP value of the port is modified.
Not involved
Not involved
Not involved
None
Not involved
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
Not involved
Not involved
None
Not involved
Not involved
Not involved
None
Not involved
Not involved
Not involved
None
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
The parameter cannot be modified.
Not involved
The parameter cannot be modified.
Not involved
The parameter cannot be modified.
Not involved
The parameter cannot be modified.
Not involved
The parameter cannot be modified.
Not involved
The parameter cannot be modified.
Not involved
Not involved
Not involved
The parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
No (No impact on the UE in idle mode)
No (No impact on the UE in idle mode)
No (No impact on the UE in idle mode)
No (No impact on the UE in idle mode)
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
None
Not involved
The TRM load threshold must be configured already.
Not involved
The TRM load threshold must be configured already.
Not involved
For details of the timer, see ITU-T Q.714. The modificatio n is not recommen ded.
Not involved
For details of the timer, see ITU-T Q.714. The modificatio n is not recommen ded.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
The parameter cannot be modified.
Not involved
The parameter cannot be modified.
Not involved
The parameter cannot be modified.
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Yes
Not involved
No (No impact on the UE in idle mode)
SCTP link
Not involved
Not involved
The local end of the SCTP link is the server and the application type is NBAP, the working mode should not be modified as the client. For the SCTP link of the M3UA application, the working mode can be modified only when the upper The services are interrupted layer until the SCTP link is working application normally. is deleted.
Not involved
The parameter cannot be modified.
Not involved
The priority of the signaling link should be the highest.
Yes
Yes
Yes
SCTP link
The parameter can be modified when "MODE" in the command "ADD The services are interrupted SCTPLNK" until the SCTP link is working is set to normally. Client.
SCTP link
The both end address of the SCTP is the parameter for the interconne ction. The value can be modified after the negotiation The services are interrupted with the until the SCTP link is working peer normally. system.
SCTP link
The both end address of the SCTP is the parameter for the interconne ction. The value can be modified after the negotiation The services are interrupted with the until the SCTP link is working peer normally. system.
Yes
Yes
Yes
SCTP link
The both end address of the SCTP is the parameter for the interconne ction. The value can be modified after the negotiation The services are interrupted with the until the SCTP link is working peer normally. system.
SCTP link
The both end address of the SCTP is the parameter for the interconne ction. The value can be modified after the negotiation The services are interrupted with the until the SCTP link is working peer normally. system.
SCTP link
The SCTP port number is the parameter for the negotiation . The value can be modified after the negotiation The services are interrupted with the until the SCTP link is working peer normally. system.
No (No impact on the UE in idle mode)
Yes
Yes
No (No impact on the UE in idle mode)
No (No impact on the UE in idle mode)
Not involved
Not involved
SCTP link
It is valid when "LOGPOR TFLAG[/P ARA in the command The services are interrupted "ADD until the SCTP link is working SCTPLNK" normally. is ON.
SCTP link
It is valid when "LOGPOR TFLAG[/P ARA in the command The services are interrupted "ADD until the SCTP link is working SCTPLNK" normally. is ON.
Not involved
Not involved
None
Not involved
The value should be smaller than "RTOMAX" in the command "ADD SCTPLNK" .
Not involved
The value should be greater than "RTOMIN" in the command "ADD SCTPLNK" .
No (No impact on the UE in idle mode)
Not involved
Not involved
The value should be greater than "RTOMIN" and smaller than "RTOMAX" in the command "ADD SCTPLNK" .
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
The modificatio n of the parameter affects the sensitivity of the SCTP link detection. The larger the value is, the longer the link detection time is.
No (No impact on the UE in idle mode)
Not involved
No (No impact on the UE in idle mode)
Yes
Yes
Yes
The modificatio n of the parameter affects the sensitivity of the SCTP link detection. The larger the value is, the longer the link detection time is.
Not involved
Not involved
SCTP link
The checksum mode need the negotiation with the peer. According to the RFC4960, the value The services are interrupted should be until the SCTP link is working set to normally. CRC32.
SCTP link
The checksum mode need the negotiation with the peer. According to the RFC4960, the value The services are interrupted should be until the SCTP link is working set to normally. CRC32.
SCTP link
The services are interrupted until the SCTP link is working normally. None
No (No impact on the UE in idle mode)
Not involved
Yes
SCTP link
Yes
BSC6900
Yes
SCTP link
Yes
BSC6900
Not involved None The services are interrupted until the SCTP link is working normally. None Incorrect setting of this parameter can lead to access failure to the target IP address.
If the mode is not set back, will interrupt service until it is set back. The services are interrupted until the SCTP link is working normally. None
If the mode is not set back, will interrupt service until it is set back.
Incorrect setting of this parameter can lead to access failure to the target IP address.
No (No impact on the UE in idle mode)
Not involved
Not involved
The parameter is related to practical networking .
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
The modificatio n of the parameter affects the sensitivity of the SCTP link detection. The larger the value is, the longer the link detection time is.
Not involved
The modificatio n of the parameter affects the sensitivity of the SCTP link detection. The larger the value is, the longer the link detection time is.
No (No impact on the UE in idle mode)
No (No impact on the UE in idle mode)
Not involved
Not involved
Yes
SCTP link
The parameter modificatio n should be negotiated with the peer end, and the BSC should be reset after the modificatio n. It is recommen ded that this parameter should not be modified The services are interrupted when the until the SCTP link is working system is normally. running.
Yes
SCTP link
The parameter modificatio n should be negotiated with the peer end, and the BSC should be reset after the modificatio n. It is recommen ded that this parameter should not be modified The services are interrupted when the until the SCTP link is working system is normally. running.
Yes
SCTP link
The parameter modificatio n should be negotiated with the peer end, and the BSC should be reset after the modificatio n. It is recommen ded that this parameter should not be modified The services are interrupted when the until the SCTP link is working system is normally. running.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
The parameter cannot be modified.
Not involved
The parameter cannot be modified.
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
The parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
The parameter cannot be modified.
Not involved
The parameter cannot be modified.
Not involved
The parameter cannot be modified.
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
The parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
None
Not involved
The parameter cannot be modified.
Not involved
The parameter cannot be modified.
Not involved
The parameter cannot be modified.
Not involved
The parameter cannot be modified.
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
The parameter cannot be modified.
Not involved
The parameter cannot be modified.
Not involved
The parameter cannot be modified.
Not involved
The parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Yes
No (No impact on the UE in idle mode)
BSC
Not involved
If this SGSN is the last SGSN connecting this cell: 1. When the parameter is set to DENY, the services of all the online subscriber s are interrupted and new subscriber s cannot access the network. 2. When the parameter is set to UNINSTAL L, the services of all the online Services are interrupted until subscriber the parameter is set to s are not ALLOW or the cell is interrupted configured with a new SGSN. and new
Not involved
The ratio of the subscriber s accessing this SGSN is affected when this parameter is modified.
Not involved
Not involved
Not involved
The parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
Not involved
Not involved
None
Not involved
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
Not involved
Not involved
None
Not involved
Not involved
Not involved
None
Not involved
Not involved
Not involved
None
Not involved
Not involved
Not involved
None
Not involved
The parameter cannot be modified.
Not involved
The parameter cannot be modified.
Not involved
The parameter cannot be modified.
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
The parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Yes
Yes
E1/T1 port
E1/T1 port
Less than 5 minutes
1. The command is used for the configurati on when the TDM resources exist between two subracks. 2. Each subrack must be the BM subrack or TC subrack.
Less than 5 minutes
1. The command is used for the configurati on when the TDM resources exist between two subracks. 2. Each subrack must be the BM subrack or TC subrack.
Yes
E1/T1 port
Less than 5 minutes
1. The command is used for the configurati on when the TDM resources exist between two subracks. 2. Each subrack must be the BM subrack or TC subrack.
Yes
E1/T1 port
Less than 5 minutes
1. The command is used for the configurati on when the TDM resources exist between two subracks. 2. Each subrack must be the BM subrack or TC subrack.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
No (No impact on the UE in idle mode)
No (No impact on the UE in idle mode)
No (No impact on the UE in idle mode)
No (No impact on the UE in idle mode)
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Change this parameter will impact the patch function controlled by switch 1.
Not involved
Change this parameter will impact the patch function controlled by switch 2.
Not involved
Change this parameter will impact the patch function controlled by switch 3.
Not involved
Change this parameter will impact the patch function controlled by switch 4.
Not involved
Change this parameter will impact the patch function controlled by switch 5.
No (No impact on the UE in idle mode)
No (No impact on the UE in idle mode)
No (No impact on the UE in idle mode)
No (No impact on the UE in idle mode)
Not involved
Not involved
Not involved
Not involved
Not involved
Change this parameter will impact the patch function controlled by switch 6.
Not involved
Change this parameter will impact the patch function controlled by switch 7.
Not involved
Change this parameter will impact the patch function controlled by switch 8.
Not involved
Change this parameter will impact the patch function controlled by switch 9.
No (No impact on the UE in idle mode)
Not involved
Not involved
Change this parameter will impact the patch function controlled by switch 10.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
Not involved
No (No impact on the UE in idle mode)
Not involved
Not involved
Not involved
No (No impact on the UE in idle mode)
Not involved
Not involved
Not involved
No (No impact on the UE in idle mode)
Not involved
Not involved
Not involved
No (No impact on the UE in idle mode)
Not involved
Not involved
Not involved
No (No impact on the UE in idle mode)
Not involved
Not involved
Not involved
No (No impact on the UE in idle mode)
Not involved
Not involved
Not involved
No (No impact on the UE in idle mode)
Not involved
Not involved
Not involved
No (No impact on the UE in idle mode)
Not involved
Not involved
Not involved
No (No impact on the UE in idle mode)
Not involved
Not involved
Not involved
No (No impact on the UE in idle mode)
Not involved
Not involved
Not involved
No (No impact on the UE in idle mode)
Not involved
Not involved
Not involved
No (No impact on the UE in idle mode)
Not involved
Not involved
Not involved
No (No impact on the UE in idle mode)
Not involved
Not involved
Not involved
No (No impact on the UE in idle mode)
Not involved
Not involved
Not involved
No (No impact on the UE in idle mode)
Not involved
Not involved
Not involved
No (No impact on the UE in idle mode)
Not involved
Not involved
Not involved
No (No impact on the UE in idle mode)
Not involved
Not involved
Not involved
No (No impact on the UE in idle mode)
Not involved
Not involved
Not involved
No (No impact on the UE in idle mode)
Not involved
Not involved
Not involved
No (No impact on the UE in idle mode)
Not involved
Not involved
Not involved
No (No impact on the UE in idle mode)
Not involved
Not involved
Not involved
No (No impact on the UE in idle mode)
Not involved
Not involved
Not involved
No (No impact on the UE in idle mode)
Not involved
Not involved
Not involved
No (No impact on the UE in idle mode)
Not involved
Not involved
Not involved
No (No impact on the UE in idle mode)
Not involved
Not involved
Not involved
No (No impact on the UE in idle mode)
Not involved
Not involved
Not involved
No (No impact on the UE in idle mode)
Not involved
Not involved
Not involved
No (No impact on the UE in idle mode)
Not involved
Not involved
Not involved
No (No impact on the UE in idle mode)
Not involved
Not involved
Not involved
No (No impact on the UE in idle mode)
Not involved
Not involved
Not involved
No (No impact on the UE in idle mode)
Not involved
Not involved
Not involved
No (No impact on the UE in idle mode)
Not involved
Not involved
Not involved
No (No impact on the UE in idle mode)
Not involved
Not involved
Not involved
No (No impact on the UE in idle mode)
Not involved
Not involved
Not involved
Not involved
Not involved
No (No impact on the UE in idle mode)
Not involved
No (No impact on the UE in idle mode)
Not involved
Not involved
Not involved
No (No impact on the UE in idle mode)
Not involved
Not involved
Not involved
No (No impact on the UE in idle mode)
Not involved
Not involved
Not involved
No (No impact on the UE in idle mode)
Not involved
Not involved
Not involved
No (No impact on the UE in idle mode)
Not involved
Not involved
If "Play switch" is set, the normal calls may be affected.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
Not involved
No (No impact on the UE in idle mode)
Not involved
Not involved
Not involved
No (No impact on the UE in idle mode)
Not involved
Not involved
Not involved
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
The IP address of the TGW cannot use the configured IP address of another TGW . The IP address of TGW cannot be the same as the IP address configured in the BSC. Otherwise, operation and maintenan ce channel for TGW fails.
No (No impact on the UE in idle mode)
Not involved
Not involved
The IP address of the TGW cannot use the configured IP address of another TGW. The IP address of TGW cannot be the same as the IP address configured in the BSC. Otherwise, operation and maintenan ce channel for TGW fails.
No (No impact on the UE in idle mode)
Not involved
Not involved
The IP address of the TGW cannot use the configured IP address of another TGW . The IP address of TGW cannot be the same as the IP address configured in the BSC. Otherwise, operation and maintenan ce channel for TGW fails.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not Involved
None
No (No impact on the UE in idle mode)
Not involved
Not Involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
Change this parameter will impact the function interrelated with Parameter 1.
No (No impact on the UE in idle mode)
Not involved
No (No impact on the UE in idle mode)
No (No impact on the UE in idle mode)
No (No impact on the UE in idle mode)
No (No impact on the UE in idle mode)
Not involved
Not involved
Not involved
Not involved
Not involved
Change this parameter will impact the function interrelated with Parameter 2.
Not involved
Change this parameter will impact the function interrelated with Parameter 3.
Not involved
Change this parameter will impact the function interrelated with Parameter 4.
Not involved
Change this parameter will impact the function interrelated with Parameter 5.
No (No impact on the UE in idle mode)
No (No impact on the UE in idle mode)
No (No impact on the UE in idle mode)
No (No impact on the UE in idle mode)
Not involved
Not involved
Not involved
Not involved
Not involved
Change this parameter will impact the function interrelated with Parameter 6.
Not involved
Change this parameter will impact the function interrelated with Parameter 7.
Not involved
Change this parameter will impact the function interrelated with Parameter 8.
Not involved
Change this parameter will impact the function interrelated with Parameter 9.
No (No impact on the UE in idle mode)
No (No impact on the UE in idle mode)
No (No impact on the UE in idle mode)
No (No impact on the UE in idle mode)
Not involved
Not involved
Not involved
Not involved
Not involved
Change this parameter will impact the function interrelated with Parameter 10.
Not involved
Change this parameter will impact the function interrelated with Parameter 11.
Not involved
Change this parameter will impact the function interrelated with Parameter 12.
Not involved
Change this parameter will impact the function interrelated with Parameter 13.
No (No impact on the UE in idle mode)
No (No impact on the UE in idle mode)
Not involved
Not involved
Not involved
Change this parameter will impact the function interrelated with Parameter 14.
Not involved
Change this parameter will impact the function interrelated with Parameter 15.
Not involved
Not involved
Not involved
The parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
The modificatio n of the parameter affects the adjacent node that is configured with the factor table. After the successful modificatio n, the parameter takes effect in the following two cases: 1. New access subscriber. 2. Bandwidth modificatio n of the existing subscriber
No (No impact on the UE in idle mode)
Not involved
Not involved
The modificatio n of the parameter affects the adjacent node that is configured with the factor table. After the successful modificatio n, the parameter takes effect in the following two cases: 1. New access subscriber. 2. Bandwidth modificatio n of the existing subscriber
No (No impact on the UE in idle mode)
Not involved
Not involved
The modificatio n of the parameter affects the adjacent node that is configured with the factor table. After the successful modificatio n, the parameter takes effect in the following two cases: 1. New access subscriber. 2. Bandwidth modificatio n of the existing subscriber
No (No impact on the UE in idle mode)
Not involved
Not involved
The modificatio n of the parameter affects the adjacent node that is configured with the factor table. After the successful modificatio n, the parameter takes effect in the following two cases: 1. New access subscriber. 2. Bandwidth modificatio n of the existing subscriber
No (No impact on the UE in idle mode)
Not involved
Not involved
The modificatio n of the parameter affects the adjacent node that is configured with the factor table. After the successful modificatio n, the parameter takes effect in the following two cases: 1. New access subscriber. 2. Bandwidth modificatio n of the existing subscriber
No (No impact on the UE in idle mode)
No (No impact on the UE in idle mode)
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
The modificatio n of the parameter affects the adjacent node that is configured with the factor table. After the successful modificatio n, the parameter takes effect in the following two cases: 1. New access subscriber. 2. Bandwidth modificatio n of the existing subscriber
Not involved
The TRM load threshold must be configured already.
Not involved
The parameter cannot be modified.
Not involved
The parameter cannot be modified.
Not involved
The parameter cannot be modified.
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
The parameter cannot be modified.
Not involved
The parameter cannot be modified.
Not involved
The parameter cannot be modified.
Not involved
The parameter cannot be modified.
Not involved
The parameter cannot be modified.
Not involved
The parameter cannot be modified.
Not involved
The parameter cannot be modified.
Not involved
The parameter cannot be modified.
Not involved
The parameter cannot be modified.
Not involved
The parameter cannot be modified.
Not involved
The parameter cannot be modified.
Not involved
The parameter cannot be modified.
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
The parameter cannot be modified.
Not involved
The parameter cannot be modified.
Not involved
The parameter cannot be modified.
Not involved
The parameter cannot be modified.
Not involved
The parameter cannot be modified.
Not involved
The parameter cannot be modified.
Not involved
The parameter cannot be modified.
Not involved
The parameter cannot be modified.
Not involved
The parameter cannot be modified.
Not involved
The parameter cannot be modified.
Not involved
Not involved
Not involved
The parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
Not involved
No (No impact on the UE in idle mode)
Not involved
Not involved
Not involved
Not involved
The parameter cannot be modified.
Not involved
The parameter cannot be modified.
Not involved
The modificatio n of the parameter affects the adjacent node configured with the TRMMAP. After the successful modificatio n, it is valid in the case of the new access of a subscriber and the bandwidth modificatio n of an existing subscriber.
No (No impact on the UE in idle mode)
Not involved
Not involved
The modificatio n of the parameter affects the adjacent node configured with the TRMMAP. After the successful modificatio n, it is valid in the case of the new access of a subscriber and the bandwidth modificatio n of an existing subscriber.
No (No impact on the UE in idle mode)
Not involved
Not involved
The modificatio n of the parameter affects the adjacent node configured with the TRMMAP. After the successful modificatio n, it is valid in the case of the new access of a subscriber and the bandwidth modificatio n of an existing subscriber.
No (No impact on the UE in idle mode)
Not involved
Not involved
The modificatio n of the parameter affects the adjacent node configured with the TRMMAP. After the successful modificatio n, it is valid in the case of the new access of a subscriber and the bandwidth modificatio n of an existing subscriber.
No (No impact on the UE in idle mode)
Not involved
Not involved
The modificatio n of the parameter affects the adjacent node configured with the TRMMAP. After the successful modificatio n, it is valid in the case of the new access of a subscriber and the bandwidth modificatio n of an existing subscriber.
No (No impact on the UE in idle mode)
Not involved
Not involved
The modificatio n of the parameter affects the adjacent node configured with the TRMMAP. After the successful modificatio n, it is valid in the case of the new access of a subscriber and the bandwidth modificatio n of an existing subscriber.
No (No impact on the UE in idle mode)
Not involved
Not involved
The modificatio n of the parameter affects the adjacent node configured with the TRMMAP. After the successful modificatio n, it is valid in the case of the new access of a subscriber and the bandwidth modificatio n of an existing subscriber.
No (No impact on the UE in idle mode)
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
The modificatio n of the parameter affects the adjacent node configured with the TRMMAP. After the successful modificatio n, it is valid in the case of the new access of a subscriber and the bandwidth modificatio n of an existing subscriber.
Not involved
The parameter cannot be modified.
Not involved
The parameter cannot be modified.
Not involved
Not involved
Not involved
This parameter cannot be modified.
Not involved
Not involved
Not involved
This parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
This parameter cannot be modified.
Not involved
This parameter cannot be modified.
Not involved
This parameter cannot be modified.
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
The parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
The parameter cannot be modified.
Not involved
Not involved
Not involved
Not involved
Not involved
The parameter cannot be modified.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
No (No impact on the UE in idle mode)
Not involved
Not involved
None 1. If you set the start date or end date of DST to a day of the week after a specific date, the specific date must be six days or more days prior to the last day of the month. For example, the last day of October is the 31st day. Then, the specific date cannot be later than the 25th (31 – 6) day. If you set the specific date to Tuesday
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
1. If you set the start date or end date of daylight saving time (DST) to a day of the week after a specific date, the specific date must be six days or more days prior to the last day of the month. For example, the last day of October is the 31st day. Then, the specific date cannot be later than the 25th (31 – 6) day. If you set the specific date to
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
Not involved
Not involved
Not involved
Not involved
None
Not involved
The parameter cannot be modified.
Not involved
The parameter cannot be modified.
Not involved
Not involved
Not involved
The parameter cannot be modified.
Not involved
Not involved
Not involved
None
Not involved
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Not involved
The parameter cannot be modified.
Not involved
Not involved
Not involved
Not involved
Not involved
The parameter cannot be modified. Incorrect setting of this parameter can lead to access failure to the target IP address.
Yes
BSC6900
If the mode is not set back, will interrupt service until it is set back.
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
No (No impact on the UE in idle mode)
Not involved
Not involved
None
Validation of Modification
Impact on Radio Network Performance
Introduced in Version
Not involved
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
Not involved
None
BSC6900 V900R011
Not involved
None
BSC6900 V900R011
Not involved
None
BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
Not involved The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
BSC6900 V900R011
None
BSC6900 V900R011
None
BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
Not involved The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
None
BSC6900 V900R011
None
BSC6900 V900R011
None
BSC6900 V900R011
None
BSC6900 V900R011
None
BSC6900 V900R011
None
BSC6900 V900R011
None
BSC6900 V900R011
None
BSC6900 V900R011
None
BSC6900 V900R011
None
BSC6900 V900R011
None
BSC6900 V900R011
None
BSC6900 V900R011
None
BSC6900 V900R011
None
BSC6900 V900R011
None
BSC6900 V900R011
The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
None
BSC6900 V900R011
None
BSC6900 V900R011
None
BSC6900 V900R011
None
BSC6900 V900R011
None
BSC6900 V900R011
None
BSC6900 V900R011
None
BSC6900 V900R011
None
BSC6900 V900R011
None
BSC6900 V900R011
None
BSC6900 V900R011
None
BSC6900 V900R011
None
BSC6900 V900R011
None
BSC6900 V900R011
None
BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
Not involved
None
BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
BSC6900 V900R012
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
When this parameter is set to BSC Strategy, the speech quality may be improved but the TrFO function may not be implemented.
BSC6900 V900R012
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
Not involved
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
Not involved The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
None
BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
Not involved The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
Not involved
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
Not involved The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
None
BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
Not involved The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment. The cell should be activated after the parameter modification. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
Not involved The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
Not involved The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
Not involved The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
BSC6900 V900R012
The parameter modification has no impact on the equipment.
None
BSC6900 V900R012
The parameter modification has no impact on the equipment.
None
BSC6900 V900R012
None
BSC6900 V900R012
None
BSC6900 V900R011
None
BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
Not involved
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The BSC should be reset to validate the parameter modification.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
None
BSC6900 V900R011
None
BSC6900 V900R011
None
BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
BSC6900 V900R011
The BSC should be reset to validate the parameter modification. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment. The BSC should be reset to validate the parameter modification.
The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
None
BSC6900 V900R012
None
BSC6900 V900R012
None
BSC6900 V900R012
The parameter modification has no impact on the equipment.
None
BSC6900 V900R012
The parameter modification has no impact on the equipment.
None
BSC6900 V900R012
The parameter modification has no impact on the equipment.
None
BSC6900 V900R012
The parameter modification has no impact on the equipment.
None
BSC6900 V900R012
Not involved
None
BSC6900 V900R012
Not involved
None
BSC6900 V900R012
Not involved
None
BSC6900 V900R012
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
If this parameter is set to a lower value, the paging success rate may decrease.
BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
The parameter modification has no impact on the equipment.
If the CPU usage on the A interface board in the running network exceeds "A Interface Board CPU Usage Threshold", the peak traffic volume of the BSC decreases after flow control is started. In this scenario, it is recommended that the number of signaling links be increased before flow control is started. If the CPU usage on the A interface board in the running network is lower than "A Interface Board CPU Usage Threshold", flow control does no have impact on network performance. BSC6900 V900R012
The parameter modification has no impact on the equipment.
If this parameter is set to a lower value, the traffic volume of the BSC may decrease.
BSC6900 V900R012
The parameter modification has no impact on the equipment.
None
BSC6900 V900R012
The parameter modification has no impact on the equipment.
None
BSC6900 V900R012
The parameter modification has no impact on the equipment.
None
BSC6900 V900R012
The parameter modification has no impact on the equipment.
None
BSC6900 V900R012
The parameter modification has no impact on the equipment.
None
BSC6900 V900R012
The parameter modification has no impact on the equipment.
None
BSC6900 V900R012
The parameter modification has no impact on the equipment.
None
BSC6900 V900R012
The parameter modification has no impact on the equipment.
None
BSC6900 V900R012
None
BSC6900 V900R012
None
BSC6900 V900R012
None
BSC6900 V900R012
None
BSC6900 V900R012
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment.
If this parameter is set to an excessive value, many alive messages are wasted when the link is faulty. If this parameter is set to a modest value, the evaluation of the SGSN may be inaccurate Versions earlier than when the SGSN is busy. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to an excessive value, the alive message is not sent in time. If this parameter is set to a modest value, too many alive messages are sent in a short period of time. The evaluation of the SGSN Versions earlier than may be inaccurate when the SGSN is busy. BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
If this parameter is set to a modest value, the NSVC may not be blocked. If this parameter is set to an excessive value but the NSVC still cannot be blocked, the Versions earlier than request messages are wasted. BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a modest value, the NSVC may not be reset. If this parameter is set to an excessive value but the NSVC still cannot be reset, the Versions earlier than request messages are wasted. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a modest value, the reset request is sent frequently, thus occupying many bandwidth resources. If this parameter is set to an excessive value, Versions earlier than the reset request cannot be sent in time. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to an excessive value, the BSC cannot receive the response message sent by the SGSN in real time. If this parameter is set to a modest value, the alive message is sent frequently, thus Versions earlier than occupying many bandwidth resources. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a modest value, the NSVC may not be unblocked. If this parameter is set to an excessive value but the NSVC still cannot be unblocked, the Versions earlier than request messages are wasted. BSC6900 V900R011
The BSC should be reset to validate the parameter modification.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to "OPEN", the downlink rate of the EGPRS-capable MS is decreased but the accessibility KPIs in the entire network are improved.
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to "SUPPORT", the service rate of the MSs of high multislot classes 30 to 34 is increased.
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to "SUPPORT" and the downlink EGPRS TBF is multiplexed with the uplink GPRS TBF on the same channel, the Versions earlier than data downloading rate is efficiently increased. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to "SUPPORT", the uplink rate and the uplink throughput are increased efficiently.
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to "NOTALLOW", one channel supports only one EDA MS.
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to "SUPPORT" and "Network Control Mode" in the "SET GCELLPSBASE" command is set to "NC2", load-based cell reselection can be enabled to Versions earlier than share the load of a cell with heavy traffic. BSC6900 V900R011
The parameter modification has no impact on the equipment.
When this parameter is set to a lower value, "NC2 Load Reselection Switch" is set to "SUPPORT" in the "SET BSCPSSOFTPARA" command, and "Network Control Mode" is set to "NC2" in the "SET GCELLPSBASE" command, the cell load can be calculated in real time and the PS load sharing is efficient. If this parameter is set to a higher value, the cell load cannot be broadcast in real time and Versions earlier than the PS load sharing is inefficient. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a higher value, there is no packet loss and thus the AQM gain cannot be reflected. If this parameter is set to a lower value, the packet loss rate is high. In this case, the negative AQM gain of a single type of service, such as FTP or HTTP, is significant. In the FTP+HTTP combined service, the negative AQM gain of FTP and the positive AQM gain Versions earlier than of HTTP are significant. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a higher value, there is no packet loss and thus the AQM gain cannot be reflected. If this parameter is set to a lower value, the packet loss rate is high. In this case, the negative AQM gain of a single type of service, such as FTP or HTTP, is significant. In the FTP+HTTP combined service, the negative AQM gain of FTP and the positive AQM gain Versions earlier than of HTTP are significant. BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
If this parameter is set to a higher value, there is no packet loss and thus the AQM gain cannot be reflected. If this parameter is set to a lower value, the packet loss rate is high. In this case, the negative AQM gain of a single type of service, such as FTP or HTTP, is significant. In the FTP+HTTP combined service, the negative AQM gain of FTP and the positive AQM gain of HTTP are significant. If this parameter is set to "OPEN", the delay of HTTP in the scenario of FTP + HTTP is shortened.
The parameter modification has no impact on the equipment.
If this parameter is set to a higher value, the packet loss rate is low, and thus the AQM algorithm gain is decreased. If this parameter is set to a lower value, excessive packets are Versions earlier than lost and thus data transmission is disrupted. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a higher value, the control on the queues is weakened, and the packet loss rate and the AQM gain are insignificant. If this parameter is set to a lower value, the packet loss rate is high. In this case, the negative AQM gain of a single type of service, such as FTP or HTTP, is significant. In the FTP+HTTP combined service, the negative AQM gain of FTP and the positive AQM gain Versions earlier than of HTTP are significant. BSC6900 V900R011
Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a lower value, the control on the queues is weakened, and the packet loss rate and the AQM gain are insignificant. If this parameter is set to a higher value, the packet loss rate is high. In this case, the negative AQM gain of a single type of service, such as FTP or HTTP, is significant. In the FTP+HTTP combined service, the negative AQM gain of FTP and the positive AQM gain Versions earlier than of HTTP are significant. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a lower value, the packet loss interval changes constantly, and thus the AQM algorithm performance is unstable. If this parameter is set to a higher value, the packet loss interval changes slowly, and thus the algorithm cannot adapt to the Versions earlier than radio environment in time. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to "LOCALTLLI" or "ALLTLLI", the transmission delay is shortened and the radio resource utilization is increased. However, the congestion rate in the case of heavy traffic in busy hours is Versions earlier than increased. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a lower value, the acknowledgement of the downlink GPRS data block is accelerated, and thus the downlink GPRS rate is increased. However, the uplink bandwidth occupied is increased, leading to a decrease in the uplink GPRS rate. If this parameter is set to a higher value, the acknowledgement of the downlink GPRS data block is slowed down, and thus the downlink GPRS rate is decreased. However, the uplink bandwidth occupied is decreased, leading to Versions earlier than an increase in the uplink GPRS rate. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a lower value, the acknowledgement of the uplink GPRS data block is accelerated, and thus the uplink GPRS rate is increased. However, the downlink bandwidth occupied is increased, leading to a decrease in the downlink GPRS rate. If this parameter is set to a higher value, the acknowledgement of the uplink GPRS data block is slowed down, and thus the uplink GPRS rate is decreased. However, the downlink bandwidth occupied is decreased, leading to an increase in the downlink GPRS Versions earlier than rate. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a lower value, the acknowledgement of the downlink EGPRS data block is accelerated, and thus the downlink EGPRS rate is increased. However, the uplink bandwidth occupied is increased, leading to a decrease in the uplink EGPRS rate. If this parameter is set to a higher value, the acknowledgement of the downlink EGPRS data block is slowed down, and thus the downlink EGPRS rate is decreased. However, the uplink bandwidth occupied is decreased, leading to an increase in the uplink EGPRS Versions earlier than rate. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a lower value, the acknowledgement of the uplink EGPRS data block is accelerated, and thus the uplink EGPRS rate is increased. However, the downlink bandwidth occupied is increased, leading to a decrease in the downlink EGPRS rate. If this parameter is set to a higher value, the acknowledgement of the uplink EGPRS data block is slowed down, and thus the uplink EGPRS rate is decreased. However, the downlink bandwidth occupied is decreased, leading to an increase in the Versions earlier than downlink EGPRS rate. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a higher value, the downlink PS service setup success rate is increased. However, the congestion rate in the case of heavy traffic in busy hours is increased. If this parameter is set to a lower value, the congestion rate in the case of heavy traffic in busy hours is decreased but the downlink call setup success rate is decreased.
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a higher value, the downlink PS service setup success rate is increased. However, the congestion rate in the case of heavy traffic in busy hours is increased. If this parameter is set to a lower value, the congestion rate in the case of heavy traffic in busy hours is decreased but the downlink call setup success rate is decreased.
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a higher value, the downlink PS service setup success rate is increased. However, the congestion rate in the case of heavy traffic in busy hours is increased. If this parameter is set to a lower value, the congestion rate in the case of heavy traffic in busy hours is decreased but the downlink call setup success rate is decreased.
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to "Open", the MS multislot capability can be satisfied more rapidly and more proper PS resources can be allocated to the MS. However, the delay of Versions earlier than interactive services is prolonged. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a lower value, the user rate in the scenario of high radio resource utilization is increased. However, when the radio resource utilization is low, the user rate is decreased. If this parameter is set to a higher value, the user rate in the scenario of low radio resource utilization is increased. However, when the radio resource utilization Versions earlier than is high, the user rate is decreased. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a lower value, the BSC is more likely to determine that the uplink service is preferred, and thus the uplink rate is increased. However, the BSC may mistakenly determine that the uplink service is preferred, leading to a decrease in the downlink rate. If this parameter is set to a higher value, the BSC is less likely to determine that the uplink service is preferred, and thus the uplink rate is Versions earlier than decreased. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a lower value, the BSC is more likely to determine that the downlink service is preferred, and thus the downlink rate is increased. However, the BSC may mistakenly determine that the downlink service is preferred, leading to a decrease in the uplink rate. If this parameter is set to a higher value, the BSC is less likely to determine that the downlink service is preferred, and thus the downlink rate is Versions earlier than decreased. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a lower value, the user rate in the scenario of high radio resource utilization is increased. However, when the radio resource utilization is low, the user rate is decreased. If this parameter is set to a higher value, the user rate in the scenario of low radio resource utilization is increased. However, when the radio resource utilization Versions earlier than is high, the user rate is decreased. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to "YES", the service rate increase of the MS after cell reselection is accelerated and the service rate in the drive Versions earlier than test is increased. BSC6900 V900R011
The parameter modification has no impact on the equipment.
When the PS LDR performs rate decrease by TRX and many TRXs are configured on the IP transmission channel, increasing the values of this parameter and "Sub-Link Bandwidth Request Interval When Not Congested" in the "SET BSCPSSOFTPARA" command can prevent excessive amplitude of increasing or decreasing the PS service rate. Decreasing the values of the two parameters may cause excessive amplitude of increasing or Versions earlier than decreasing the PS service rate. BSC6900 V900R011
The parameter modification has no impact on the equipment.
In the running network, if the value of this parameter is higher than "Bandwidth for Secondary Link When Not Congested", pingpong occurrence of congestion and congestion relief can be prevented.
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
When the PS LDR performs rate decrease by TRX and many TRXs are configured on the IP transmission channel, increasing the values of this parameter and "Interval to Reduce Transmission Bandwidth when Congested" in the "SET BSCPSSOFTPARA" command can prevent excessive amplitude of increasing or decreasing the PS service rate. Decreasing the values of the two parameters may cause excessive amplitude of increasing or decreasing the PS service rate. BSC6900 V900R011
The parameter modification has no impact on the equipment.
In the running network, if the value of this parameter is lower than "Number of Transmission Bandwidth to Reduce when Congested", ping-pong occurrence of congestion and congestion relief can be prevented.
The parameter modification has no impact on the equipment.
When this parameter is enabled, the fast flux monitoing frequency is increased, and the channel allocation can be adjusted more quickly to adapt to the service type. Thus, the terminal throughput and BSC PS resource usage can be increased. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a lower value, the user rate in the scenario of high radio resource utilization is increased. However, when the radio resource utilization is low, the user rate is decreased. If this parameter is set to a higher value, the user rate in the scenario of low radio resource utilization is increased. However, when the radio resource utilization is high, the user rate is decreased. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a lower value, the user rate in the scenario of high radio resource utilization is increased. However, when the radio resource utilization is low, the user rate is decreased. If this parameter is set to a higher value, the user rate in the scenario of low radio resource utilization is increased. However, when the radio resource utilization is high, the user rate is decreased. BSC6900 V900R011
BSC6900 V900R011
The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
If this parameter is set to a lower value, the BSC is more likely to determine that the downlink service is preferred, and thus the downlink rate is increased. However, the BSC may mistakenly determine that the downlink service is preferred, leading to a decrease in the uplink rate. If this parameter is set to a higher value, the BSC is less likely to determine that the downlink service is preferred, and thus the downlink rate is decreased. BSC6900 V900R011
If this parameter is set to a lower value, the BSC is more likely to determine that the uplink service is preferred, and thus the uplink rate is increased. However, the BSC may mistakenly determine that the uplink service is preferred, leading to a decrease in the downlink rate. If this parameter is set to a higher value, the BSC is less likely to determine that the uplink service is preferred, and thus the uplink rate is decreased. BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
BSC6900 V900R011
None
BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
BSC6900 V900R011
None
BSC6900 V900R011
None
BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
Not involved
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
BSC6900 V900R012
The parameter modification has no impact on the equipment.
If this parameter is set to an excessive value, the flow control message cannot be received in time. If this parameter is set to a modest value, the Versions earlier than flow control message is sent frequently. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to an excessive value, the flow control message cannot be received in time. If this parameter is set to a modest value, the Versions earlier than flow control message is sent frequently. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to an excessive value, the process cannot be monitored in time. If this parameter is set to a modest value, the Versions earlier than monitoring message is sent frequently. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to an excessive value, the process cannot be monitored in time. If this parameter is set to a modest value, the Versions earlier than monitoring message is sent frequently. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to an excessive value, the process cannot be monitored in time. If this parameter is set to a modest value, the Versions earlier than monitoring message is sent frequently. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to an excessive value, the process cannot be monitored in time. If this parameter is set to a modest value, the Versions earlier than monitoring message is sent frequently. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to an excessive value, the process cannot be monitored in time. If this parameter is set to a modest value, the Versions earlier than monitoring message is sent frequently. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to an excessive value, the BSC cannot obtain the QoS parameters in real time. If this parameter is set to a modest value, it is possible that the SGSN sends a response message, but the BSC does not receive it. In Versions earlier than this case, the BSC resends the request. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to an excessive value, the QoS parameters cannot be modified in real time. If this parameter is set to a modest value, it is possible that the SGSN sends a response message, but the BSC does not receive it. In Versions earlier than this case, the BSC resends the request. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to an excessive value, the flow control mechanism of the Gb interface cannot adapt to the new situation in real time, thus decreasing the transmission performance but saving bandwidth resources. If this parameter is set to a modest value, the BVC or MS sends the flow control message frequently. Therefore, the SGSN can use the flow control parameters in real time, thus improving the transmission performance. The BVC or MS, however occupies high bandwidth for sending the flow control message, thus Versions earlier than decreasing the transmission performance. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to an excessive value, a delay is caused after the MS sends the flow control parameters. During the delay period, the MS may send new flow control parameters but the SGSN uses the original parameters for flow control, thus causing a bottleneck in transmission performance. If this parameter is set to a modest value, the SGSN can soon use the flow control parameter in the newly received flow control message, thus improving the transmission Versions earlier than performance. BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
Not involved
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The BTS should be reset to validate the parameter modification.
None
Versions earlier than BSC6900 V900R011
The BTS should be reset to validate the parameter modification.
The BTS should be reset to validate the parameter modification. The BTS should be reset to validate the parameter modification. The BTS should be reset to validate the parameter modification.
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The BTS should be reset to validate the parameter modification. The BTS should be reset to validate the parameter modification.
The BTS should be reset to validate the parameter modification.
If the value of this parameter is set too high, the RSL congestion is likely to occur.
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
BSC6900 V900R011
The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
Not involved
BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
Not involved
BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Not involved
BSC6900 V900R011
Not involved
Not involved
BSC6900 V900R011
Not involved
Not involved
BSC6900 V900R011
The BTS should be reset to validate the parameter modification.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
BSC6900 V900R011
None
BSC6900 V900R011
Not involved
BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
Not involved
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
Not involved
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
Not involved The parameter modification has no impact on the equipment.
Not involved
BSC6900 V900R012
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
Not involved
BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
BSC6900 V900R011
Not involved The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment.
Not involved
BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
Not involved
BSC6900 V900R011
Not involved
BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
Not involved
BSC6900 V900R011
Not involved
BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
Not involved
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
Not involved The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
BSC6900 V900R011
Not involved
BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
Not involved
BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
BSC6900 V900R011
Not involved
BSC6900 V900R011
Not involved
BSC6900 V900R011
Not involved
BSC6900 V900R011
Not involved
BSC6900 V900R011
Not involved
BSC6900 V900R011
Not involved
BSC6900 V900R011
Not involved
BSC6900 V900R011
Not involved
BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
Not involved
BSC6900 V900R011
Not involved
BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
Not involved
BSC6900 V900R011
Not involved
BSC6900 V900R011
Not involved
BSC6900 V900R011
Not involved
BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment.
Not involved
BSC6900 V900R011
Not involved
BSC6900 V900R011
Not involved
BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment.
Not involved
BSC6900 V900R011
The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment.
Not involved
BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
Not involved
BSC6900 V900R011
Not involved
BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
Not involved
BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
BSC6900 V900R011
Not involved
BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
Not involved
Not involved
BSC6900 V900R011
Not involved
BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Not involved
Versions earlier than BSC6900 V900R011
The BTS should be reset to validate the parameter modification.
Not involved
Versions earlier than BSC6900 V900R011
The BTS should be reset to validate the parameter modification.
Not involved
Versions earlier than BSC6900 V900R011
The BTS should be reset to validate the parameter modification.
Not involved
Versions earlier than BSC6900 V900R011
The BTS should be reset to validate the parameter modification.
Not involved
Versions earlier than BSC6900 V900R011
The BTS should be reset to validate the parameter modification.
Not involved
Versions earlier than BSC6900 V900R011
The BTS should be reset to validate the parameter modification.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
BSC6900 V900R011
Not involved
BSC6900 V900R011
Not involved
BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
The BTS should be reset to validate the parameter modification. The parameter modification has no impact on the equipment. The BTS should be reset to validate the parameter modification. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment.
Not involved
BSC6900 V900R011
Not involved
BSC6900 V900R011
Not involved
BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
Not involved
BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
BSC6900 V900R011
Not involved
BSC6900 V900R011
Not involved
BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The BTS should be reset to validate the parameter modification. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment.
Not involved
BSC6900 V900R011
Not involved
Not involved
BSC6900 V900R011
Not involved
BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment.
Not involved
BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
BSC6900 V900R011
Not involved
BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
Not involved
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
None
BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
Not involved
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
Not involved
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
Not involved
Not involved
Versions earlier than BSC6900 V900R011
Not involved The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
Not involved
BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment.
Not involved
BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
Not involved
Not involved
BSC6900 V900R011
Not involved
Not involved
BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
Not involved
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
Not involved
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
Not involved
BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment.
Not involved
BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
Not involved
BSC6900 V900R011
Not involved
BSC6900 V900R011
Not involved
BSC6900 V900R011
Not involved
BSC6900 V900R011
Not involved
BSC6900 V900R011
Not involved
BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The BTS should be reset to validate the parameter modification.
Not involved
BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
Not involved
Not involved
Versions earlier than BSC6900 V900R011
Not involved
BSC6900 V900R011
Not involved
BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
Not involved
BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
Not involved
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
Not involved
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
Not involved
BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment.
Not involved
BSC6900 V900R011
Not involved
BSC6900 V900R011
Not involved
BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The BTS should be reset to validate the parameter modification.
Not involved
Versions earlier than BSC6900 V900R011
The BTS should be reset to validate the parameter modification.
Not involved
Versions earlier than BSC6900 V900R011
The BTS should be reset to validate the parameter modification.
Not involved
Versions earlier than BSC6900 V900R011
The BTS should be reset to validate the parameter modification.
Not involved
Versions earlier than BSC6900 V900R011
The BTS should be reset to validate the parameter modification.
Not involved
Versions earlier than BSC6900 V900R011
The BTS should be reset to validate the parameter modification.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The BTS should be reset to validate the parameter modification.
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Not involved
Versions earlier than BSC6900 V900R011
The BTS should be reset to validate the parameter modification.
Not involved
Versions earlier than BSC6900 V900R011
The BTS should be reset to validate the parameter modification.
Not involved
Versions earlier than BSC6900 V900R011
The BTS should be reset to validate the parameter modification.
Not involved
Versions earlier than BSC6900 V900R011
The BTS should be reset to validate the parameter modification.
Not involved
Versions earlier than BSC6900 V900R011
The BTS should be reset to validate the parameter modification.
Not involved
Versions earlier than BSC6900 V900R011
The BTS should be reset to validate the parameter modification.
Not involved
Versions earlier than BSC6900 V900R011
The BTS should be reset to validate the parameter modification.
Not involved
Versions earlier than BSC6900 V900R011
The BTS should be reset to validate the parameter modification.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
Not involved
BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The BTS should be reset to validate the parameter modification.
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
The BTS should be reset to validate the parameter modification. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
Not involved
BSC6900 V900R011
Not involved
BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
Not involved
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
Not involved
BSC6900 V900R011
Not involved
BSC6900 V900R011
Not involved
BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
BSC6900 V900R011
Not involved
BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
Not involved
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The BTS should be reset to validate the parameter modification. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The BTS should be reset to validate the parameter modification. The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
Not involved
BSC6900 V900R012
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
Not involved
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
BSC6900 V900R011
Not involved
BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment.
Not involved
BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
Not involved
BSC6900 V900R011
Not involved
BSC6900 V900R011
Not involved
BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment.
Not involved
BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
Not involved
BSC6900 V900R011
Not involved
BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
Not involved
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
Not involved
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
Not involved
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
Not involved
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
Not involved
BSC6900 V900R011
Not involved
BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
BSC6900 V900R012
Not involved
BSC6900 V900R012
Not involved
BSC6900 V900R012
Not involved
BSC6900 V900R012
Not involved
BSC6900 V900R012
Not involved
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment.
Not involved
BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
Not involved
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Not involved
Versions earlier than BSC6900 V900R011
Not involved The BTS should be reset to validate the parameter modification. The BTS should be reset to validate the parameter modification. The BTS should be reset to validate the parameter modification. The BTS should be reset to validate the parameter modification. The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
Not involved
Not involved
Versions earlier than BSC6900 V900R011
Not involved The BTS should be reset to validate the parameter modification. The BTS should be reset to validate the parameter modification. The BTS should be reset to validate the parameter modification.
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
Not involved
BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
Not involved
Not involved
Versions earlier than BSC6900 V900R011
Not involved The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
Not involved
BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment. The BTS should be reset to validate the parameter modification. The BTS should be reset to validate the parameter modification. The BTS should be reset to validate the parameter modification. The BTS should be reset to validate the parameter modification. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
Not involved
BSC6900 V900R011
Not involved
BSC6900 V900R011
Not involved
BSC6900 V900R011
Not involved
BSC6900 V900R011
Not involved
BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
Not involved
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Not involved
Versions earlier than BSC6900 V900R011
Not involved The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
None
BSC6900 V900R011
None
BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
BSC6900 V900R011
None
BSC6900 V900R011
None
BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
Not involved
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
Not involved
BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
Not involved
BSC6900 V900R011
Not involved
BSC6900 V900R011
Not involved
BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
Not involved
The parameter modification has no impact on the equipment. The BTS should be reset to validate the parameter modification.
The BTS should be reset to validate the parameter modification. The BTS should be reset to validate the parameter modification. The BTS should be reset to validate the parameter modification. The BTS should be reset to validate the parameter modification. The BTS should be reset to validate the parameter modification. The BTS should be reset to validate the parameter modification. The BTS should be reset to validate the parameter modification. The BTS should be reset to validate the parameter modification. The parameter modification has no impact on the equipment.
Not involved
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
BSC6900 V900R012
The parameter modification has no impact on the equipment.
Not involved
BSC6900 V900R012
The parameter modification has no impact on the equipment.
Not involved
BSC6900 V900R012
The parameter modification has no impact on the equipment.
Not involved
BSC6900 V900R012
The parameter modification has no impact on the equipment.
Not involved
BSC6900 V900R012
The parameter modification has no impact on the equipment.
Not involved
BSC6900 V900R012
The parameter modification has no impact on the equipment.
Not involved
BSC6900 V900R012
Not involved
BSC6900 V900R012
Not involved
BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
Not involved
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
Not involved
The parameter modification has no impact on the equipment. The BTS should be reset to validate the parameter modification.
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
The BTS should be reset to validate the parameter modification. The BTS should be reset to validate the parameter modification.
Not involved
Versions earlier than BSC6900 V900R011
Not involved
BSC6900 V900R011
The BTS should be reset to validate the parameter modification.
Not involved
Versions earlier than BSC6900 V900R011
The BTS should be reset to validate the parameter modification.
Not involved
Versions earlier than BSC6900 V900R011
The BTS should be reset to validate the parameter modification.
Not involved
Versions earlier than BSC6900 V900R011
The BTS should be reset to validate the parameter modification.
Not involved
Versions earlier than BSC6900 V900R011
Not involved
BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
The BTS should be reset to validate the parameter modification. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment.
Not involved
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
Not involved The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
Not involved
BSC6900 V900R012
Not involved
Versions earlier than BSC6900 V900R011
Not involved
BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
BSC6900 V900R012
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
BSC6900 V900R012
Not involved
BSC6900 V900R012
Not involved
BSC6900 V900R012
Not involved
BSC6900 V900R012
The parameter modification has no impact on the equipment.
Not involved
BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The BTS should be reset to validate the parameter modification.
Not involved
Versions earlier than BSC6900 V900R011
The BTS should be reset to validate the parameter modification.
Not involved
Versions earlier than BSC6900 V900R011
The BTS should be reset to validate the parameter modification.
Not involved
Versions earlier than BSC6900 V900R011
Not involved
BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved The BTS should be reset to validate the parameter modification.
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
Not involved
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The BTS should be reset to validate the parameter modification. The BTS should be reset to validate the parameter modification.
Not involved
BSC6900 V900R011
Not involved
BSC6900 V900R011
Not involved
BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
Not involved
BSC6900 V900R011
Not involved
BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
The BTS should be reset to validate the parameter modification. The BTS should be reset to validate the parameter modification.
Not involved
Versions earlier than BSC6900 V900R011
Not involved
BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment. The BTS should be reset to validate the parameter modification. The BTS should be reset to validate the parameter modification. The BTS should be reset to validate the parameter modification. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The BTS should be reset to validate the parameter modification.
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The BTS should be reset to validate the parameter modification.
The BTS should be reset to validate the parameter modification.
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Not involved
BSC6900 V900R011
Not involved
BSC6900 V900R011
Not involved
BSC6900 V900R011
Not involved
BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
Not involved
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
Not involved
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
Not involved
BSC6900 V900R011
Not involved
BSC6900 V900R011
Not involved
BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
Not involved
Not involved
BSC6900 V900R011
Not involved
BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment.
Not involved
BSC6900 V900R011
Not involved
BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
Not involved
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The transport path should be re-established after the parameter modification.
Not involved
Versions earlier than BSC6900 V900R011
The BTS should be reset to validate the parameter modification.
Not involved
Versions earlier than BSC6900 V900R011
The BTS should be reset to validate the parameter modification.
Not involved
Versions earlier than BSC6900 V900R011
The BTS should be reset to validate the parameter modification.
Not involved
Versions earlier than BSC6900 V900R011
The BTS should be reset to validate the parameter modification.
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
The transport path should be re-established after the parameter modification.
The transport path should be re-established after the parameter modification. The parameter modification has no impact on the equipment. The transport path should be re-established after the parameter modification.
The transport path should be re-established after the parameter modification.
Not involved
Versions earlier than BSC6900 V900R011
The transport path should be re-established after the parameter modification.
Not involved
BSC6900 V900R011
The transport path should be re-established after the parameter modification.
Not involved
BSC6900 V900R011
The transport path should be re-established after the parameter modification.
Not involved
BSC6900 V900R011
The transport path should be re-established after the parameter modification.
Not involved
BSC6900 V900R011
The transport path should be re-established after the parameter modification. The transport path should be re-established after the parameter modification. The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
BSC6900 V900R011
Not involved
BSC6900 V900R011
Not involved
BSC6900 V900R011
Not involved
BSC6900 V900R011
Not involved
BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The transport path should be re-established after the parameter modification.
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
The BTS should be reset to validate the parameter modification.
Not involved
Versions earlier than BSC6900 V900R011
The BTS should be reset to validate the parameter modification.
Not involved
Versions earlier than BSC6900 V900R011
The BTS should be reset to validate the parameter modification.
Not involved
Versions earlier than BSC6900 V900R011
Not involved The BTS should be reset to validate the parameter modification.
The transport path should be re-established after the parameter modification. The transport path should be re-established after the parameter modification. The BTS should be reset to validate the parameter modification. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
Not involved
Not involved
BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
BSC6900 V900R011
Not involved
BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
Not involved
BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
Not involved
The parameter modification has no impact on the equipment. The BTS should be reset to validate the parameter modification.
Not involved
Versions earlier than BSC6900 V900R011
Not involved
BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
The BTS should be reset to validate the parameter modification. The BTS should be reset to validate the parameter modification. The BTS should be reset to validate the parameter modification. The BTS should be reset to validate the parameter modification. The BTS should be reset to validate the parameter modification. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
None
BSC6900 V900R011
Not involved
BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment.
Not involved
BSC6900 V900R011
Not involved
BSC6900 V900R011
Not involved
BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
BSC6900 V900R011
The parameter modification has no impact on the equipment.
When the rate of the PS channels is lower than the guaranteed rate, Abis resources are considered to be insufficient. In this case, the probability of channel conversion becomes low. When the number of Abis resources remains unchanged, the number of converted PS channels becomes small if this parameter is set to a great value. However, services can be handled at a high rate as soon as possible. BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
Not involved
BSC6900 V900R012
Not involved
BSC6900 V900R012
Not involved
BSC6900 V900R012
The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
Not involved
BSC6900 V900R011
Not involved
BSC6900 V900R011
Not involved
BSC6900 V900R012
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
Not involved
BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
Not involved
None
Versions earlier than BSC6900 V900R011
Not involved
BSC6900 V900R011
Not involved
BSC6900 V900R011
Not involved
BSC6900 V900R011
Not involved
BSC6900 V900R011
Not involved
BSC6900 V900R011
Not involved
BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment.
Not involved
BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
Not involved
BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
Not involved
BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
Not involved
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
Not involved
Not involved
Versions earlier than BSC6900 V900R011
The BTS should be reset to validate the parameter modification.
Not involved
Versions earlier than BSC6900 V900R011
The BTS should be reset to validate the parameter modification.
Not involved
Versions earlier than BSC6900 V900R011
The BTS should be reset to validate the parameter modification.
Not involved
Versions earlier than BSC6900 V900R011
The BTS should be reset to validate the parameter modification.
Not involved
Versions earlier than BSC6900 V900R011
The transport path should be re-established after the parameter modification.
Not involved
BSC6900 V900R011
The BTS should be reset to validate the parameter modification.
Not involved
Versions earlier than BSC6900 V900R011
The transport path should be re-established after the parameter modification.
Not involved
Versions earlier than BSC6900 V900R011
The transport path should be re-established after the parameter modification. The transport path should be re-established after the parameter modification. The transport path should be re-established after the parameter modification. The transport path should be re-established after the parameter modification.
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
The transport path should be re-established after the parameter modification.
Not involved
BSC6900 V900R011
The transport path should be re-established after the parameter modification.
Not involved
BSC6900 V900R011
The transport path should be re-established after the parameter modification.
Not involved
BSC6900 V900R011
The transport path should be re-established after the parameter modification. The BTS should be reset to validate the parameter modification. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
Not involved
BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
BSC6900 V900R011
Not involved
BSC6900 V900R011
Not involved
BSC6900 V900R011
Not involved
BSC6900 V900R011
Not involved
BSC6900 V900R011
Not involved
BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
Not involved
BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
Not involved
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
Not involved
BSC6900 V900R011
Not involved
BSC6900 V900R011
Not involved
BSC6900 V900R011
Not involved
BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
Not involved
BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
Not involved
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
Not involved The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
Not involved
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
BSC6900 V900R012
Not involved
BSC6900 V900R012
Not involved
BSC6900 V900R012
Not involved
BSC6900 V900R012
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
BSC6900 V900R012
The parameter modification has no impact on the equipment.
Not involved
BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
Not involved
Not involved
Versions earlier than BSC6900 V900R011
Not involved
BSC6900 V900R011
Not involved
BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
Not involved
BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment.
Not involved The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
Not involved
Not involved
Versions earlier than BSC6900 V900R011
Not involved The parameter modification has no impact on the equipment.
Not involved
BSC6900 V900R012
Not involved
BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
Not involved
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Not involved
BSC6900 V900R012
Not involved The parameter modification has no impact on the equipment.
Not involved
BSC6900 V900R012
Not involved
BSC6900 V900R012
The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
Not involved
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
Not involved
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
Not involved
Not involved
BSC6900 V900R012
Not involved
BSC6900 V900R012
Not involved
BSC6900 V900R012
Not involved
BSC6900 V900R012
Not involved
BSC6900 V900R012
Not involved
BSC6900 V900R012
Not involved
BSC6900 V900R012
Not involved
BSC6900 V900R012
Not involved
BSC6900 V900R012
Not involved
BSC6900 V900R012
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
Not involved
BSC6900 V900R012
Not involved
BSC6900 V900R012
Not involved The parameter modification has no impact on the equipment.
Not involved
BSC6900 V900R012
Not involved
BSC6900 V900R012
Not involved The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
Not involved
BSC6900 V900R012
Not involved
BSC6900 V900R012
Not involved
BSC6900 V900R012
Not involved
Versions earlier than BSC6900 V900R011
Not involved
BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
Not involved
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Not involved
BSC6900 V900R012
Not involved
BSC6900 V900R012
Not involved
BSC6900 V900R012
Not involved
BSC6900 V900R012
Not involved
BSC6900 V900R012
Not involved
BSC6900 V900R012
Not involved
BSC6900 V900R012
Not involved
BSC6900 V900R012
Not involved
BSC6900 V900R012
Not involved
Not involved
BSC6900 V900R012
Not involved The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
Not involved
BSC6900 V900R012
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
Not involved
BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
Not involved
BSC6900 V900R012
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
Not involved
Not involved
BSC6900 V900R012
Not involved
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
Not involved The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment.
Not involved
BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
Not involved
Not involved
BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
Not involved
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
Not involved
BSC6900 V900R011
Not involved
BSC6900 V900R011
Not involved
BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
Not involved
BSC6900 V900R011
Not involved
BSC6900 V900R011
Not involved
BSC6900 V900R011
Not involved
BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
BSC6900 V900R012
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification impacts the covered range of cell.
BSC6900 V900R011
The parameter modification impacts the covered range of cell.
BSC6900 V900R011
The parameter modification impacts the covered range of cell.
BSC6900 V900R011
The parameter modification impacts the covered range of cell.
BSC6900 V900R011
The parameter modification impacts the covered range of cell.
BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification impacts the covered range of cell.
BSC6900 V900R011
The parameter modification impacts the covered range of cell.
BSC6900 V900R011
The parameter modification impacts the covered range of cell.
BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
BSC6900 V900R012
The parameter modification has no impact on the equipment.
Not involved
BSC6900 V900R012
The parameter modification has no impact on the equipment.
Not involved
BSC6900 V900R012
The parameter modification has no impact on the equipment.
Not involved
BSC6900 V900R012
The parameter modification has no impact on the equipment.
Not involved
BSC6900 V900R012
The parameter modification has no impact on the equipment.
Not involved
BSC6900 V900R012
The parameter modification has no impact on the equipment.
Not involved
BSC6900 V900R012
The parameter modification has no impact on the equipment.
Not involved
BSC6900 V900R012
The parameter modification has no impact on the equipment.
Not involved
BSC6900 V900R012
The parameter modification has no impact on the equipment.
Not involved
BSC6900 V900R012
The parameter modification has no impact on the equipment.
Not involved
BSC6900 V900R012
The parameter modification has no impact on the equipment.
Not involved
BSC6900 V900R012
The parameter modification has no impact on the equipment.
Not involved
BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
BSC6900 V900R012
The parameter modification has no impact on the equipment.
Not involved
BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
BSC6900 V900R012
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
BSC6900 V900R011
The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
Not involved
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
Not involved
BSC6900 V900R011
Not involved
BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
Not involved
BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment.
Not involved
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The BTS should be reset to validate the parameter modification.
Not involved
Versions earlier than BSC6900 V900R011
The BTS should be reset to validate the parameter modification.
Not involved
Versions earlier than BSC6900 V900R011
The BTS should be reset to validate the parameter modification.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
Not involved
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
Not involved
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
Not involved
BSC6900 V900R011
Not involved
BSC6900 V900R011
Not involved
BSC6900 V900R011
Not involved
BSC6900 V900R011
Not involved
BSC6900 V900R011
Not involved
BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
Not involved
BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
Not involved The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment.
Not involved
BSC6900 V900R012
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
BSC6900 V900R012
Not involved
BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
Not involved
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
BSC6900 V900R012
Not involved
Not involved
BSC6900 V900R012
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
Not involved
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
Not involved
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
Not involved
Not involved
BSC6900 V900R012
Not involved
BSC6900 V900R012
Not involved
BSC6900 V900R012
Not involved
BSC6900 V900R012
Not involved
BSC6900 V900R012
Not involved
BSC6900 V900R012
Not involved
BSC6900 V900R012
Not involved
BSC6900 V900R012
Not involved
BSC6900 V900R012
Not involved
BSC6900 V900R012
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
Not involved
BSC6900 V900R012
Not involved
BSC6900 V900R012
Not involved The parameter modification has no impact on the equipment.
Not involved
BSC6900 V900R012
Not involved
BSC6900 V900R012
Not involved The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
Not involved
BSC6900 V900R012
Not involved
BSC6900 V900R012
Not involved
BSC6900 V900R012
Not involved
Versions earlier than BSC6900 V900R011
Not involved
BSC6900 V900R012
Not involved
Not involved
BSC6900 V900R012
Not involved
BSC6900 V900R012
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
Not involved
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
Not involved
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
Not involved
BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
BSC6900 V900R011
Not involved
BSC6900 V900R011
Not involved
BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
Not involved
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
BSC6900 V900R012
Not involved
BSC6900 V900R012
Not involved
BSC6900 V900R012
Not involved
BSC6900 V900R012
Not involved
BSC6900 V900R012
Not involved
BSC6900 V900R012
Not involved
Not involved
BSC6900 V900R012
The parameter modification has no impact on the equipment.
Not involved
BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
Not involved
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The BTS should be reset to validate the parameter modification.
Not involved
Versions earlier than BSC6900 V900R011
The BTS should be reset to validate the parameter modification.
Not involved
Versions earlier than BSC6900 V900R011
The BTS should be reset to validate the parameter modification.
Not involved
Versions earlier than BSC6900 V900R011
The BTS should be reset to validate the parameter modification.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The BTS should be reset to validate the parameter modification. The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The BTS should be reset to validate the parameter modification.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The BTS should be reset to validate the parameter modification.
Not involved
BSC6900 V900R012
The BTS should be reset to validate the parameter modification.
Not involved
BSC6900 V900R012
The BTS should be reset to validate the parameter modification. The BTS should be reset to validate the parameter modification. The BTS should be reset to validate the parameter modification.
The BTS should be reset to validate the parameter modification. The BTS should be reset to validate the parameter modification. The BTS should be reset to validate the parameter modification.
Not involved
BSC6900 V900R012
Not involved
BSC6900 V900R012
Not involved
BSC6900 V900R012
Not involved
BSC6900 V900R012
Not involved
BSC6900 V900R012
Not involved
BSC6900 V900R012
The BTS should be reset to validate the parameter modification. The BTS should be reset to validate the parameter modification.
The BTS should be reset to validate the parameter modification. The parameter modification has no impact on the equipment.
Not involved
Not involved
BSC6900 V900R012
Not involved
BSC6900 V900R012
Not involved
BSC6900 V900R012
Not involved
BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
Not involved
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
Not involved
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
Not involved
BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
Not involved
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
Not involved
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
Not involved
Not involved
Versions earlier than BSC6900 V900R011
Not involved The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
Not involved
BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Not involved
Versions earlier than BSC6900 V900R011
Not involved The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
Not involved
BSC6900 V900R011
Not involved
BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
BSC6900 V900R012
Not involved
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
Not involved
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
Not involved The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
Not involved The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The board should be reset to validate the parameter modification. The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
Not involved
None
Versions earlier than BSC6900 V900R011
Not involved
None
BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
Not involved The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
None
BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment. The BTS should be reset to validate the parameter modification. The BTS should be reset to validate the parameter modification.
The BTS should be reset to validate the parameter modification.
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
BSC6900 V900R012
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
The BTS should be reset to validate the parameter modification.
Not involved
Versions earlier than BSC6900 V900R011
The BTS should be reset to validate the parameter modification.
Not involved
Versions earlier than BSC6900 V900R011
The BTS should be reset to validate the parameter modification.
Not involved
Versions earlier than BSC6900 V900R011
The BTS should be reset to validate the parameter modification.
Not involved
Versions earlier than BSC6900 V900R011
The BTS should be reset to validate the parameter modification.
Not involved
Versions earlier than BSC6900 V900R011
The BTS should be reset to validate the parameter modification.
Not involved
Versions earlier than BSC6900 V900R011
The BTS should be reset to validate the parameter modification.
Not involved
Versions earlier than BSC6900 V900R011
The BTS should be reset to validate the parameter modification.
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
The BTS should be reset to validate the parameter modification. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
Not involved
None
BSC6900 V900R011
None
BSC6900 V900R012
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
Not involved The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
Not involved
Not involved The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
Not involved The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
Not involved
The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
Not involved The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
BSC6900 V900R011
None
BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
None
BSC6900 V900R011
None
BSC6900 V900R011
None
BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
None
BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
Not involved The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
The setting of this parameter depends on the actual physical location of the chain neighboring cell. Otherwise, fast PBGT handover may fail. BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a greater value, unnecessary handovers may be performed, thus the voice quality is decreased and pingpong handover may occur. If this parameter is set to a smaller value, congestion may occur in the macro subcell.
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a greater value, congestion may occur in the macro subcell; If this parameter is set to a smaller value, unnecessary handovers may be performed, thus the voice quality is decreased and pingpong handovers may be performed.
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a greater value, unnecessary handovers may be performed; if this parameter is set to a smaller value, handovers may not be performed in time and Versions earlier than call drops may occur. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a greater value, the handover cannot be performed in time and call drops may occur. If this parameter is set to a smaller value, unnecessary handovers may be performed.
The parameter modification has no impact on the equipment.
If this parameter is set to a greater value, unnecessary handovers may be performed. If this parameter is set to a smaller value, handovers cannot be performed in time. Thus the voice quality is decreased and call drops Versions earlier than may occur. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a greater value, the handover cannot be performed in time, thus the voice quality is decreased and call drops may occur. If this parameter is set to a smaller value, unnecessary handovers may be performed.
The parameter modification has no impact on the equipment.
If this parameter is set to a greater value, unnecessary handovers may be performed. If this parameter is set to a smaller value, call drops may occur because the handover may Versions earlier than not be performed timely. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a greater value, the handover cannot be performed in time and call drops may occur. If this parameter is set to a smaller value, unnecessary handovers may be performed.
The parameter modification has no impact on the equipment.
If this parameter is set to a greater value, congestion may occur in the macro cell. If this parameter is set to a smaller value, the handover cannot be performed in time. Thus, call drops may occur or more handovers are Versions earlier than triggered. BSC6900 V900R011
Versions earlier than BSC6900 V900R011
Versions earlier than BSC6900 V900R011
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a greater value, the MS takes a longer time to meet the conditions for triggering the handover and the handover cannot be performed in time. Thus, call drops may occur or more handovers are triggered. If this parameter is set to a smaller value, the MS takes a shorter time to meet the conditions for triggering the handover, and thus network congestion may occur on the Versions earlier than macro cell. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a greater value, unnecessary handovers may be performed. If this parameter is set to a smaller value, the handover cannot be performed in time. Thus, the voice quality is decreased and call drops Versions earlier than may occur. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a greater value, the handover cannot be performed in time. Thus, the voice quality is decreased and call drops may occur. If this parameter is set to a smaller value, Versions earlier than unnecessary handovers may be performed. BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a greater value, the handover cannot be performed in time and call drops may occur. If this parameter is set to a smaller value, unnecessary handovers may be performed.
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a greater value, unnecessary handovers may be performed. If this parameter is set to a smaller value, the handover cannot be performed in time and Versions earlier than call drops may occur. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a greater value, the handover cannot be performed in time and call drops may occur. If this parameter is set to a smaller value, unnecessary handovers may be performed.
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a lower value, unnecessary handovers may be performed. If this parameter is set to a higher value, handovers may be delayed, thus increasing the congestion rate in the serving cell. BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment.
None
BSC6900 V900R012
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
If this parameter is set to a greater value, some desired cells may be excluded from the candidate cells, thus leading to call drops. If this parameter is set to a smaller value, an unwanted cell may become a candidate cell, Versions earlier than thus leading to handover failures. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a greater value, the corresponding neighboring 3G cell may be difficult to become the candidate neighboring cell of the serving cell. In this way, call drops may occur because the handovers may not be performed timely. If this parameter is set to a smaller value, a call may be handed over to a neighboring 3G cell with low signal strength, Versions earlier than thus affecting voice quality. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a greater value, unnecessary handovers may be performed. If this parameter is set to a smaller value, the handover cannot be performed in time. Thus, the voice quality is decreased and call drops Versions earlier than may occur. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a greater value, the handover cannot be performed in time. Thus, the voice quality is decreased and call drops may occur. If this parameter is set to a smaller value, Versions earlier than unnecessary handovers may be performed. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a greater value, unnecessary handovers may be performed. If this parameter is set to a smaller value, the handover cannot be performed in time. Thus, the voice quality is decreased and call drops Versions earlier than may occur. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a greater value, the handover cannot be performed in time. Thus, the voice quality is decreased and call drops may occur. If this parameter is set to a smaller value, Versions earlier than unnecessary handovers may be performed. BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
BSC6900 V900R012
The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
None
BSC6900 V900R011
None
BSC6900 V900R011
None
BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
Not involved
Not involved
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The cell should be activated after the parameter modification. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The cell should be activated after the parameter modification.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
When congestion occurs on the user plane in Abis over IP mode and the PS service has a lower priority, the interface board preferentially Versions earlier than discards the PS service. BSC6900 V900R011
When congestion occurs on the user plane in Abis over IP mode and the PS service has a lower priority, the interface board preferentially Versions earlier than discards the PS service. BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
BSC6900 V900R012
The parameter modification has no impact on the equipment.
The serving cell under a BSC and a 2G external neighboring cell must not be configured on different high frequency bands; otherwise, the handover between them fails. BSC6900 V900R012
The cell should be activated after the parameter modification.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
Not involved
BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
The parameter modification has no impact on the equipment.
If this parameter is set to a smaller value, the handovers due to bad downlink quality may increase, thus decreasing the handover success rate. If this parameter is set to a greater value, handovers due to bad downlink quality are less possible to occur, thus Versions earlier than increasing the call drop rate. BSC6900 V900R011
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a smaller value, the handovers due to bad uplink quality may increase, thus decreasing the handover success rate. If this parameter is set to a greater value, handovers due to bad uplink quality are less possible to occur, thus Versions earlier than increasing the call drop rate. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a smaller value, the handovers due to bad downlink quality may increase, thus decreasing the handover success rate. If this parameter is set to a greater value, handovers due to bad downlink quality are less possible to occur, thus Versions earlier than increasing the call drop rate. BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
If this parameter is set to a smaller value, the handovers due to bad uplink quality may increase, thus decreasing the handover success rate. If this parameter is set to a greater value, handovers due to bad uplink quality are less possible to occur, thus Versions earlier than increasing the call drop rate. BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
The discontinuous transmission (DTX) function allows a transmitter to stop power transmission in the case of no voice transfer. This function has the following benefits: In the uplink: decreasing the power consumption of the MS and reducing system interference In the downlink: decreasing power consumption of the BTS, reducing system interference, and reducing intermodulation inside the BTS From the network perspective, the interfrequency interference is reduced and the network quality is improved.
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
The discontinuous transmission (DTX) function allows a transmitter to stop power transmission in the case of no voice transfer. This function has the following benefits: In the uplink: decreasing the power consumption of the MS and reducing system interference In the downlink: decreasing power consumption of the BTS, reducing system interference, and reducing intermodulation inside the BTS From the network perspective, the interfrequency interference is reduced and the network quality is improved.
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a greater value, the call drop rate decreases but the traffic volume Versions earlier than and paging success rate are affected. BSC6900 V900R011
The parameter modification has no impact on the equipment.
The discontinuous transmission (DTX) function allows a transmitter to stop power transmission in the case of no voice transfer. This function has the following benefits: In the uplink: decreasing the power consumption of the MS and reducing system interference In the downlink: decreasing power consumption of the BTS, reducing system interference, and reducing intermodulation inside the BTS From the network perspective, the interfrequency interference is reduced and the network quality is improved.
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
The discontinuous transmission (DTX) function allows a transmitter to stop power transmission in the case of no voice transfer. This function has the following benefits: In the uplink: decreasing the power consumption of the MS and reducing system interference In the downlink: decreasing power consumption of the BTS, reducing system interference, and reducing intermodulation inside the BTS From the network perspective, the interfrequency interference is reduced and the network quality is improved.
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Call reestablishment can decrease the call drop rate but waste channel resources.
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a lower value, the requirements for the EGPRS TRX power amplifier cannot be satisfied. If this parameter is set to a higher value, the signal quality Versions earlier than deteriorates and the coverage area shrinks. BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
The parameter modification has no impact on the equipment.
When this parameter is set to ENABLE, the Versions earlier than MOS can be increased in a call between MSs. BSC6900 V900R011
The parameter modification has no impact on the equipment.
When this parameter is set to on, the MOS of a MS-initiated and MS-terminated call is improved. BSC6900 V900R011
The parameter modification has no impact on the equipment.
When this function is enabled, the output power of the services that use high-order modulation schemes is increased.
The parameter modification has no impact on the equipment.
When MCPA is enabled in a multi-carrier system and the configuration of the power amplifier exceeds the specifications, there is residual power on the timeslots in the CS domain under power control. At present, the residual power is not fully utilized. If the residual power can be dynamically shared by the high-order modulated PS channels to increase their transmit power, the coverage at the cell edge can be expanded, thus increasing the PS throughput. BSC6900 V900R011
Versions earlier than BSC6900 V900R011
BSC6900 V900R011
The parameter modification has no impact on the equipment.
When MCPA is enabled in a multi-carrier system and the configuration of the power amplifier exceeds the specifications, there is residual power on the timeslots in the CS domain under power control. At present, the residual power is not fully utilized. If the residual power can be dynamically shared by the high-order modulated PS channels to increase their transmit power, the coverage at the cell edge can be expanded, thus increasing the PS throughput. BSC6900 V900R011
The parameter modification has no impact on the equipment.
When MCPA is enabled in a multi-carrier system and the configuration of the power amplifier exceeds the specifications, there is residual power on the timeslots in the CS domain under power control. At present, the residual power is not fully utilized. If the residual power can be dynamically shared by the high-order modulated PS channels to increase their transmit power, the coverage at the cell edge can be expanded, thus increasing the PS throughput. BSC6900 V900R011
The parameter modification has no impact on the equipment.
When MCPA is enabled in a multi-carrier system and the configuration of the power amplifier exceeds the specifications, there is residual power on the timeslots in the CS domain under power control. At present, the residual power is not fully utilized. If the residual power can be dynamically shared by the high-order modulated PS channels to increase their transmit power, the coverage at the cell edge can be expanded, thus increasing the PS throughput. BSC6900 V900R011
The parameter modification has no impact on the equipment.
When MCPA is enabled in a multi-carrier system and the configuration of the power amplifier exceeds the specifications, there is residual power on the timeslots in the CS domain under power control. At present, the residual power is not fully utilized. If the residual power can be dynamically shared by the high-order modulated PS channels to increase their transmit power, the coverage at the cell edge can be expanded, thus increasing the PS throughput. BSC6900 V900R011
The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment.
When MCPA is enabled in a multi-carrier system and the configuration of the power amplifier exceeds the specifications, there is residual power on the timeslots in the CS domain under power control. At present, the residual power is not fully utilized. If the residual power can be dynamically shared by the high-order modulated PS channels to increase their transmit power, the coverage at the cell edge can be expanded, thus increasing the PS throughput. BSC6900 V900R011 When MCPA is enabled in a multi-carrier system and the configuration of the power amplifier exceeds the specifications, there is residual power on the timeslots in the CS domain under power control. At present, the residual power is not fully utilized. If the residual power can be dynamically shared by the high-order modulated PS channels to increase their transmit power, the coverage at the cell edge can be expanded, thus increasing the PS throughput. BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a smaller value, the allowable error rate for the random access signal is high and an MS can easily access the network; however, the error report rate is high. If this parameter is set to a greater value, the error report rate of the MS is low Versions earlier than but the MS cannot easily access the network. BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a greater value, the call drop rate decreases but the traffic volume Versions earlier than and paging success rate are affected. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a greater value, the call drop rate decreases but the traffic volume Versions earlier than and paging success rate are affected. BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
This feature only applies to the areas covered by both the GSM network and the UMTS network. The UMTS network is preferentially used to perform the data services, and the GSM network is preferentially used to perform the speech services. When a user is handed over to the GSM network during a call, the user must return to the UMTS network immediately after the call is complete. Thus, a location update is avoided. BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a smaller value, the call drop rate may increase; if this parameter is set to a greater value, the speech quality Versions earlier than may be affected. BSC6900 V900R011
The parameter modification has no impact on the equipment.
When the MS endures call disconnection under the BSC due to weak signal in the TDSCDMA network, the MS may fail to receive any response after trying to access the 3G network for a long period of time because the TD-SCDMA terminal is not perfect. BSC6900 V900R012
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment.
None
BSC6900 V900R012
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment.
The ACS may affect the MOS. Modifying the default coding rates will affect speech quality when TrFO or TFO is in use.
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The coding rate and MOS are affected.
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
The coding rate and MOS are affected.
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
The coding rate and MOS are affected.
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
The coding rate and MOS are affected.
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
The coding rate and MOS are affected.
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
The coding rate and MOS are affected.
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The setting of this parameter affects the MOS. When the C/I ratio is satisfactory, the coding scheme of higher rate is recommended; otherwise, the coding scheme Versions earlier than of lower rate is recommended. BSC6900 V900R011
The ACS may affect the MOS. Modifying the default coding rates will affect speech quality when TrFO or TFO is in use.
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
The setting of this parameter affects the MOS. When the C/I ratio is satisfactory, the coding scheme of higher rate is recommended; otherwise, the coding scheme Versions earlier than of lower rate is recommended. BSC6900 V900R011
The parameter modification has no impact on the equipment.
When this parameter is set to YES and the value of the uplink threshold is not reasonable, the algorithm can be used to dynamically adjust the AMR uplink rate to increase the uplink speech MOS.
BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
The parameter modification has no impact on the equipment.
When this parameter is set to YES and the value of the downlink threshold is not reasonable, the algorithm can be used to dynamically adjust the AMR downlink rate to increase the downlink speech MOS.
BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
The parameter modification has no impact on the equipment.
The ACS may affect the MOS. Modifying the default coding rates will affect speech quality when TrFO or TFO is in use.
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
The parameter modification has no impact on the equipment.
The setting of this parameter affects the MOS. When the C/I ratio is satisfactory, the coding scheme of higher rate is recommended; otherwise, the coding scheme of lower rate is recommended. BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment.
BSC6900 V900R011
When this parameter is set to on, the MOS of a MS-initiated and MS-terminated call is improved. BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a smaller value, the Versions earlier than random access success rate may decrease. BSC6900 V900R011
The parameter modification has no impact on the equipment.
Properly setting this parameter can increase the paging success rate. If this parameter is set to a greater value, paging overload may occur and the paging success rate may decrease.
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to higher value, channel resources may be wasted; if this parameter is set to lower value, the call drop rate may increase.
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to higher value, channel resources may be wasted; if this parameter is set to lower value, the call drop rate may increase.
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to higher value, channel resources may be wasted; if this parameter is set to lower value, the call drop rate may increase.
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to higher value, channel resources may be wasted; if this parameter is set to lower value, the call drop rate may increase.
The parameter modification has no impact on the equipment.
This parameter should be set as required: In the areas where the traffic volume is low, this parameter can be set to 4 or 7 to improve the success rate of MS access. In the areas where congestion occurs or in the micro cells where the traffic volume is high, it is Versions earlier than recommended this parameter be set to 1. BSC6900 V900R011
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
This parameter can be used to limit the user access type to control the network load; however, some users may be adversely affected. Therefore, it is recommended that this parameter be disabled.
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
This parameter can be used to control network load based on the MS access classes, thus preventing some MSs from accessing the network. It is recommended that this parameter be not used.
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a smaller value, the radio link is vulnerable to failure, thus call drops are likely to occur. If this parameter is set to a greater value, the MS may not release the connection for a long time, thus decreasing the resource usage. Versions earlier than The parameter is valid in the downlink. BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
In a multi-band network, this parameter can be set on the basis of the traffic volume on each frequency band. If this parameter is set to 0, the MS reports the measurement results of six neighboring cells known and permitted by the NCC at the bands with the best signal regardless of the band at which the neighboring cell is located. If this parameter is set to 1, the MS reports the measurement result of a neighboring cell known and permitted by the NCC at each band with the best signal (the band serving the current cell not included). The MS reports the measurement result of the neighboring cell at the band serving the current cell in the redundant position. If the redundant position is still available, the MS reports the measurement results of other neighboring cells regardless of the bands at which the neighboring cells are located. If this parameter is set to 2, the MS reports the measurement results of two neighboring cell known and permitted by the NCC at each band with the best signal (the band serving the current cell not included). The MS reports the measurement result of the neighbor cell at the band serving the current cell in the redundant position. If the redundant position is still available, the MS reports the measurement results of other neighboring cells regardless of the bands at which the neighboring cells are located. If this parameter is set to 3, the MS reports the measurement results of three neighboring Versions earlier than cells known and permitted by the NCC at BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to YES, the BSC initiates a reassignment when receiving an assignment failure message over the Um interface. This helps increase the call completion rate and improve the QoS of the network. The successful reassignment, however, results in an increase in the access Versions earlier than delay of MSs and the load of the BSC. BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
When the access control function is enabled, some MSs are caused to be inaccessible to the network for some time. BSC6900 V900R012
None
BSC6900 V900R012
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a smaller value, the radio resource status is reported too frequently, thus increasing the load of the BSC. If this parameter is set to a greater value, the radio resource status is not immediately reported and thus the BSC cannot handle the Versions earlier than interference to the BTS in time. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a smaller value, the status of RF resources is reported too frequently, thus burdening the BSC. If this parameter is set to a greater value, the status of RF resources cannot be updated in time; therefore, the BSC cannot handle the interference to the BTS, thus causing Versions earlier than unreasonable channel allocation. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to smaller value, the signaling flow over the Abis interface increases, thus burdening the BSC. If this parameter is set to a greater value, the BSC cannot handle the exceptions on the BTS in time, thus causing network congestion.
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a smaller value, the BTS frequently reports overload indication messages to the BSC. As a result, the BSC frequently reports overload indication messages to the MSC and thus the MSC may initiate flow control. If this parameter is set to a greater value, the BTS sends overload indication messages to the BSC only when a large number of MSs access the network and when the system resources are insufficient. Therefore, the access requests on the RACH and all the messages on the PCH are Versions earlier than discarded. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a smaller value, the BTS frequently sends the overload messages to the BSC. Thus, the system resource usage decreases and MSs are difficult to access the network. If this parameter is set to a greater value, the BTS sends an overload message to the BSC at a long interval. Thus, system faults may Versions earlier than occur. BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
If timer T200 is set to a smaller value, the transmit end may mistakenly regard that the link is faulty and the data transmission fails before the transmit end receives a response from the peer end. If timer N200 is set to a smaller value, the number of data retransmissions is reduced and the success rate of transmission is reduced. If timers T200 and N200 are set to greater values, the channels are seized all along when the link is Versions earlier than faulty. Thus, resources are wasted. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If timer T200 is set to a smaller value, the transmit end may mistakenly regard that the link is faulty and the data transmission fails before the transmit end receives a response from the peer end. If timer N200 is set to a smaller value, the number of data retransmissions is reduced and the success rate of transmission is reduced. If timers T200 and N200 are set to greater values, the channels are seized all along when the link is Versions earlier than faulty. Thus, resources are wasted. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If timer T200 is set to a smaller value, the transmit end may mistakenly regard that the link is faulty and the data transmission fails before the transmit end receives a response from the peer end. If timer N200 is set to a smaller value, the number of data retransmissions is reduced and the success rate of transmission is reduced. If timers T200 and N200 are set to greater values, the channels are seized all along when the link is Versions earlier than faulty. Thus, resources are wasted. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If timer T200 is set to a smaller value, the transmit end may mistakenly regard that the link is faulty and the data transmission fails before the transmit end receives a response from the peer end. If timer N200 is set to a smaller value, the number of data retransmissions is reduced and the success rate of transmission is reduced. If timers T200 and N200 are set to greater values, the channels are seized all along when the link is Versions earlier than faulty. Thus, resources are wasted. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If timer T200 is set to a smaller value, the transmit end may mistakenly regard that the link is faulty and the data transmission fails before the transmit end receives a response from the peer end. If timer N200 is set to a smaller value, the number of data retransmissions is reduced and the success rate of transmission is reduced. If timers T200 and N200 are set to greater values, the channels are seized all along when the link is Versions earlier than faulty. Thus, resources are wasted. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If timer T200 is set to a smaller value, the transmit end may mistakenly regard that the link is faulty and the data transmission fails before the transmit end receives a response from the peer end. If timer N200 is set to a smaller value, the number of data retransmissions is reduced and the success rate of transmission is reduced. If timers T200 and N200 are set to greater values, the channels are seized all along when the link is Versions earlier than faulty. Thus, resources are wasted. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If timer T200 is set to a smaller value, the transmit end may mistakenly regard that the link is faulty and the data transmission fails before the transmit end receives a response from the peer end. If timer N200 is set to a smaller value, the number of data retransmissions is reduced and the success rate of transmission is reduced. If timers T200 and N200 are set to greater values, the channels are seized all along when the link is Versions earlier than faulty. Thus, resources are wasted. BSC6900 V900R011
The parameter modification has no impact on the equipment.
Only the BTS3X in G3BTS32.30000.04.1130 or later and the double-transceiver BTSs support the LAPDm N200 parameter. If this parameter is set to Yes, the BSC sends the LAPDm N200 parameter. If this parameter is set to OFF, the BSC does not send the LAPDm N200 parameter. If a BTS does not support this parameter, the parameter should be set to No. Otherwise, the Versions earlier than BTS cannot be initialized. BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment.
None
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
None If this parameter is set to YES, the call completion rate of the MS increases but the BSC load also increases.
The parameter modification has no impact on the equipment.
If this parameter is set to a greater value, the call-completion rate of MS increases but the BSC load may also increase. If this parameter is set to a smaller value, the increase of the call completion rate is not Versions earlier than obvious. BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment.
Versions earlier than BSC6900 V900R011
Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011
If this parameter is set to a greater value, the call-completion rate of MS increases but the BSC load may also increase. If this parameter is set to a smaller value, the increase of the call completion rate is not Versions earlier than obvious. BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a greater value, network congestion may occur in the cell; if this parameter is set to a smaller value, TCHHs are allocated even when the traffic volume on the cell is light, this affects the voice quality.
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a greater value, cell congestion may not be relieved. If this parameter is set to a smaller value, TCHFs may be assigned unnecessarily, thus affecting Versions earlier than the voice quality. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a greater value, the half-rate channels are assigned to the MS only when the channel seizure ratio of overlaid subcell is very high. Insufficient half-rate channels can be assigned to the MS. Thus, the capacity of the BSC is reduced. If this parameter is set to a smaller value, the half-rate channels are assigned to the MS only when the channel seizure ratio of overlaid subcell is very low. The calls use the half-rate channel even if there are enough full-rate Versions earlier than channels, which influences the voice quality. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a greater value, the half-rate channels are assigned to the MS only when the channel seizure ratio of underlaid subcell is very high. Insufficient halfrate channels can be assigned to the MS. Thus, the capacity of the BSC is reduced. If this parameter is set to a smaller value, the half-rate channels are assigned to the MS only when the channel seizure ratio of underlaid subcell is very low. The calls use the half-rate channel even if there are enough fullrate channels, which influences the voice Versions earlier than quality. BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a greater value, the handover cannot be performed in time and call drops may occur. If this parameter is set to a smaller value, unnecessary handovers may be performed, thus affecting the voice quality.
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a greater value, unnecessary handovers may be performed, thus affecting the voice quality. If this parameter is set to a smaller value, the handover cannot be performed in time and Versions earlier than call drops may occur. BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
The parameter modification has no impact on the equipment.
In scenarios with heavy traffic, the network performance can be improved if this switch is turned on. BSC6900 V900R011
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a greater value, unnecessary handovers may be performed, thus the voice quality is decreased. If this parameter is set to a smaller value, downlink power insufficiency may not be solved in time, thus leading to call drops.
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a greater value, downlink power insufficiency may not be solved in time, thus leading to call drops. If this parameter is set to a smaller value, unnecessary handovers may be performed, thus the voice quality is decreased.
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a greater value, the BCCH may idle while non-BCCHs are congested, thus affecting the traffic volume during busy times. If this parameter is set to a smaller value, the assignment of the BCCH may fail, and thus Versions earlier than the access success rate may be decreased. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a greater value, the assignment of the BCCH may fail, and thus the handover success rate may be decreased. If this parameter is set to a smaller value, the BCCH may idle while non-BCCHs are congested, thus affecting the traffic volume Versions earlier than during busy times. BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to YES, cell congestion Versions earlier than may occur when the interference is strong. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a smaller value, the network interference is increased; if this parameter is set to a greater value, Versions earlier than congestion may occur in the cell. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a smaller value, the network interference is increased; if this parameter is set to a greater value, Versions earlier than congestion may occur in the cell. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a smaller value, the network interference is increased; if this parameter is set to a greater value, Versions earlier than congestion may occur in the cell. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a smaller value, the network interference is increased; if this parameter is set to a greater value, Versions earlier than congestion may occur in the cell. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a smaller value, the network interference is increased; if this parameter is set to a greater value, Versions earlier than congestion may occur in the cell. BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
When this parameter is set to "ON" and the level of the channel request received by the BSC is low, the BSC assigns only an underlaid channel to the MS. In the case of heavy traffic, this may lead to congestion in the underlaid subcell but can prevent call drops due to the excessively low level when the MS accesses an overlaid channel.
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
The parameter modification has no impact on the equipment.
If this parameter is set to a smaller value, call drops may occur because the handover may not be performed timely. If this parameter is set to a greater value, Versions earlier than unnecessary handovers may be performed. BSC6900 V900R011
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a greater value, the call duration is prolonged; if this parameter is set to a smaller value, the IBCA estimation accuracy is reduced.
BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a greater value, the handover duration is prolonged and thus the handover cannot be performed in time; if this parameter is set to a smaller value, the IBCA estimation accuracy is reduced.
BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a greater value, the handover duration is prolonged and thus the handover cannot be performed in time; if this parameter is set to a smaller value, the IBCA estimation accuracy is reduced.
BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a greater value, the handover duration is prolonged and thus the handover cannot be performed in time; if this parameter is set to a smaller value, the IBCA estimation accuracy is reduced.
BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a greater value and consequently there is a small number of requests for SDCCHs, the SDCCHs of a cell are in idle state and the TCH traffic volume during busy time is decreased. if this parameter is set to a smaller value and consequently there is a large number of requests for SDCCHs, the requests cannot be met and the access success rate is Versions earlier than decreased. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a smaller value, dynamic adjustment may not be triggered when there are insufficient SDCCHs in the cell, this affects the access success rate. If this parameter is set to a greater value, traffic Versions earlier than volume on the TCH is decreased. BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
If this parameter is set to a smaller value, the idle state of the current SDCCHs cannot be indicated correctly and consequently the rollback of SDCCHs immediately triggers adjustment and affects the access success rate. If this parameter is set to a larger value, the channel allocation algorithm becomes less sensitive and consequently the SDCCHs stay in idle state and cannot be rolled back for a long period of time, thus affecting the TCH Versions earlier than traffic volume. BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a greater value, too many channels may be reserved for the users with high priority, and the users with low priority may be failed to access channels. If this parameter is set to a smaller value, channels reserved for the users with high Versions earlier than priority may be insufficient. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to NO, the forced handover and call delay caused by timeslot arrangement can be avoided, but this may cause some TCHF-only calls to fail. If this parameter is set to Yes, calls may fail when the timeslot arrangement fails and when the MS does not select the TCHF in the Versions earlier than concentric cell. BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this function is enabled, number of signaling channel handovers is increased and the access speed is decreased, but the congestion on the BCCH-compatible SDCCH can be relieved and the access success rate Versions earlier than is enhanced. BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
BSC6900 V900R011
None
BSC6900 V900R011
None
BSC6900 V900R011
None
BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
None
BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
Not involved The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
The higher the value of this parameter is, the larger the proportion of the BEP history information sent by the MS is; otherwise, the smaller the proportion of the BEP history information sent by the MS is.
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to "UNFIXED", a more suitable coding scheme can be dynamically selected according to the radio environment and thus the uplink EGPRS rate may be increased. If this parameter is not set to "UNFIXED", the coding scheme cannot be selected dynamically according to the radio environment, and thus the uplink EGPRS rate Versions earlier than may be decreased. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a higher value and the quality on the Um interface is poor, the speed of increasing the PS service rate is lower. If this parameter is set to a lower value and the quality on the Um interface is good, the speed of increasing the PS service rate is Versions earlier than lower. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to "UNFIXED", a more suitable coding scheme can be dynamically selected according to the radio environment and thus the downlink EGPRS rate may be increased. If this parameter is not set to "UNFIXED", the coding scheme cannot be selected dynamically according to the radio environment, and thus the downlink EGPRS Versions earlier than rate may be decreased. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a higher value and the quality on the Um interface is poor, the speed of increasing the PS service rate is lower. If this parameter is set to a lower value and the quality on the Um interface is good, the speed of increasing the PS service rate is Versions earlier than lower. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to "UNFIXED", a more suitable coding scheme can be dynamically selected according to the radio environment and thus the uplink EGPRS2-A rate may be increased. If this parameter is not set to "UNFIXED", the coding scheme cannot be selected dynamically according to the radio environment, and thus the uplink EGPRS2-A rate may be decreased. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a higher value and the quality on the Um interface is poor, the speed of increasing the PS service rate is lower. If this parameter is set to a lower value and the quality on the Um interface is good, the speed of increasing the PS service rate is lower. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to "UNFIXED", a more suitable coding scheme can be dynamically selected according to the radio environment and thus the downlink EGPRS2-A rate may be increased. If this parameter is not set to "UNFIXED", the coding scheme cannot be selected dynamically according to the radio environment, and thus the downlink EGPRS2A rate may be decreased. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a higher value and the quality on the Um interface is poor, the speed of increasing the PS service rate is lower. If this parameter is set to a lower value and the quality on the Um interface is good, the speed of increasing the PS service rate is lower. BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
It is recommended that this parameter be set Versions earlier than to 2, so that the uplink rate is increased. BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
If the value of this parameter is too small, extension measurement reports are sent frequently. If the value is too large, feedback information may not be sent promptly in fewer Versions earlier than extension measurement reports. BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
Not involved
BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
Not involved
BSC6900 V900R011
Not involved
BSC6900 V900R011
Not involved
BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
Not involved The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
If this parameter is set to YES, the PS service rate can be increased. This function requires the support of the MS. BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Yes: In network control mode NC0, NC1, or NC2, when the MS is in the packet transmission mode, the network informs the MS of the system information about neighbor cells in advance. No: In network control mode NC0, NC1, or NC2, when the MS is in the packet transmission mode, the network does not inform the MS of the system information about Versions earlier than neighbor cells in advance. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to "YES", cell reselection is accelerated.
The parameter modification has no impact on the equipment.
This function has a great impact on MS cell reselection and radio network performance. Different from the autonomous cell reselection of the MS, cell reselection in NC2 mode comprehensively considers such factors as the receive level and load status in the serving cell and the neighboring cell so that the MS can reselect a proper cell. In this way, the loads in the cells can be balanced. When this function is disabled, the MS performs autonomous cell reselection in NC0 or NC1 mode without network control. As a result, the cell load cannot be considered as in NC2 Versions earlier than mode. BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
Versions earlier than BSC6900 V900R011
If this parameter is set to Yes, the BSC reports the information about all neighbor cells to the PCU when there are more than 32 neighbor cells. If this parameter is set to No, the BSC reports the information about a Versions earlier than maximum of 32 neighbor cells to the PCU. BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to "SUPPORT", the MS of class A can perform CS and PS services simultaneously. However, when CS services are released, the TBFs are disrupted Versions earlier than temporarily. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to "SUPPORT", the MS of class A can perform CS and PS services simultaneously. In addition, when CS services are released, the TBFs are not Versions earlier than disrupted. BSC6900 V900R011
The parameter modification has no impact on the equipment.
DTM multislot class 5 supports the maximum timeslot configuration of one CS channel, one uplink PS channel, and one downlink PS channel. DTM multislot class 9 supports the maximum timeslot configuration of one CS channel, one uplink PS channel, and two downlink PS channels. In DTM mode, only one uplink PS channel can be used; thus, the uplink PS bandwidth is limited. DTM multislot class 11 supports the maximum timeslot configuration of one CS channel, one uplink PS channel, and two downlink PS channels. It also supports the maximum timeslot configuration of one CS channel, two uplink PS channels, and one downlink PS channel. This better meets the requirements of applications for higher uplink Versions earlier than rate. BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
None When this parameter is set to "SUPPORT", the downlink rate can be increased. This function requires the support of the MS.
The parameter modification has no impact on the equipment.
If this parameter is set to "SUPPORT", the delay is shortened.
Versions earlier than BSC6900 V900R011
BSC6900 V900R011
BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to "SUPPORT", the outgoing inter-RAT PS handover is allowed. This function requires the support of the MS.
BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to SUPPORT, the coming inter-RAT PS handover is allowed. This function requires the support of the MS.
BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to "Support", the MS in an LTE cell can be handed over to a GSM cell by initiating the PS handover procedure. In this manner, the disruption of PS services is reduced. If this parameter is set to "Not Support", the MS in an LTE cell can be redirected to a GSM cell only by means of cell reselection. In this case, PS services are disrupted for a comparatively long time. BSC6900 V900R011
The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
If this parameter is set to "Support", the MS in a GSM cell can be handed over to an LTE cell by initiating the PS handover procedure. In this manner, the disruption of PS services is reduced. If this parameter is set to "Not Support", the MS in a GSM cell can be redirected to an LTE cell only by means of cell reselection. In this case, PS services are disrupted for a comparatively long time. BSC6900 V900R011 When the parameter is set to SUPPORT, the BSC can properly manage radio resources according to the type of service being performed if the LLC, SNDCP, and IP layers are not encrypted or compressed. In this manner, channel resources are saved and user experience is not affected. BSC6900 V900R012
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a high value and the VGCS has priority, public network services are likely to suffer from insufficient channels. Thus, this parameter needs to be set according to the actual service requirements. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a high value and the VGCS has priority, public network services are likely to suffer from insufficient channels. Thus, this parameter needs to be set according to the actual service requirements. BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
When preemption conditions are met, public network services can preempt channels of the VGCS if this parameter is set to Public Network First; the VGCS can preempt channels of public network services if this parameter is set to VGCS First. BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a too small value, the corresponding cell may reject some handover requests; thus the traffic congestion on the neighboring cells with heavy traffic cannot be relieved. If this parameter is set to a too great value, Versions earlier than the corresponding cell may be overloaded. BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a greater value, congestion may occur in the neighboring cells in a short time; if this parameter is set to a smaller value, congestion in the serving cell is Versions earlier than difficult to be relieved. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a greater value, unnecessary handovers between micro cells are performed, thus affecting the voice quality. If this parameter is set to a smaller value, Versions earlier than congestion may occur in macro cells. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a greater value, congestion may occur in macro cells. If this parameter is set to a smaller value, unnecessary handovers between micro cells Versions earlier than are performed, thus affecting the voice quality. BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
The parameter modification has no impact on the equipment.
If this parameter is set to a smaller value, call drops may occur or voice quality may be decreased due to delayed handover; if this parameter is set to a greater value, Versions earlier than unnecessary handover may be performed. BSC6900 V900R011
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
The parameter modification has no impact on the equipment.
If this parameter is set to a smaller value, handovers may be performed frequently; if this parameter is set to a greater value, handovers may not be performed in time and Versions earlier than call drops may occur. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a greater value, the handover to micro cells becomes difficult, and congestion may occur in macro cells. If this parameter is set to a smaller value, more handovers may be performed, thus the Versions earlier than voice quality is decreased. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a greater value, the handover to micro cells becomes difficult, and congestion may occur in macro cells. If this parameter is set to a smaller value, more handovers may be performed, thus the Versions earlier than voice quality is decreased. BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this switch is set to ON, the call access delay may be prolonged, but the performance of the algorithms in which the SDCCH MRs are used are enhanced. BSC6900 V900R011
The parameter modification has no impact on the equipment.
The greater the value of this parameter is, the longer the call access duration is, the MRs are filtered more completely. Generally, you are advised to set this parameter to a value smaller than 20. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to YES, the voice quality is enhanced and the handover times is reduced, but the call access delay is prolonged. The call access delay is affected by both the setting of "Maximum Assigning Duration" and the duration for waiting MRs on the SDCCH. The maximum delay is the value of "Maximum Assigning Duration". Enabling this function may cause SDCCH congestion. BSC6900 V900R011
The parameter modification has no impact on the equipment.
The setting of this parameter affects the access delay of parts of MSs.
The parameter modification has no impact on the equipment.
The smaller the value of this parameter is, the more MSs select a neighboring cell in directed retry. BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The smaller the value of this parameter is, the more MSs select a neighboring cell in directed retry. BSC6900 V900R011 When this algorithm is enabled, traffic distribution in a cell can be adjusted, thus decreasing the congestion rate in the cell. BSC6900 V900R011
BSC6900 V900R011
If this parameter is set to a higher value, the congestion rate in the serving cell is increased. If this parameter is set to a lower value, unnecessary handovers may be performed, thus increasing the congestion rate in the neighboring cells.
BSC6900 V900R011
None
BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a smaller value, call drops may occur due to delayed handover; if this parameter is set to a greater value, unnecessary handover may be performed, Versions earlier than thus affecting the voice quality. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a smaller value, call drops may occur due to delayed handover; if this parameter is set to a greater value, unnecessary handover may be performed, Versions earlier than thus affecting the voice quality. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a greater value, unnecessary handovers may be performed. If this parameter is set to a smaller value, the handover cannot be performed in time. Thus, the voice quality is decreased and call drops Versions earlier than may occur. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a greater value, the handover cannot be performed in time. Thus, the voice quality is decreased and call drops may occur. If this parameter is set to a smaller value, Versions earlier than unnecessary handovers may be performed. BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a greater value, the traffic volume during busy time may be decreased. If this parameter is set to a smaller value, the Versions earlier than voice quality may be decreased. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a greater value, the traffic volume during busy time may be decreased. If this parameter is set to a smaller value, the Versions earlier than voice quality may be decreased. BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
This parameter limits the number of candidate cells. If this parameter is set to a greater value, some desired cells may be excluded from the candidate cells and call drops may occur. If this parameter is set to a smaller value, an unwanted cell may become the candidate cell, thus leading to handover Versions earlier than failures or call drops. BSC6900 V900R011
The parameter modification has no impact on the equipment.
This parameter limits the number of candidate cells. If this parameter is set to a greater value, some desired cells may be excluded from the candidate cells and call drops may occur. If this parameter is set to a smaller value, an unwanted cell may become the candidate cell, thus leading to handover Versions earlier than failures or call drops. BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
If this parameter is set to a greater value, the BCCH may idle while non-BCCHs are congested, thus affecting the traffic volume during busy times and the access success rate. If this parameter is set to a smaller value, unnecessary handovers may be performed, thus the voice quality is decreased.
BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a greater value, unnecessary handovers may be performed. If this parameter is set to a smaller value, the handover cannot be performed in time, thus the voice quality is decreased or call drops Versions earlier than may occur. BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
If this parameter is set to a greater value, the handover cannot be performed in time. Thus, the voice quality is decreased and call drops may occur. If this parameter is set to a smaller value, Versions earlier than unnecessary handovers may be performed. BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this switch is turned on, AMR FR calls can be switched into AMR HR calls to relieve the network congestion, but the voice quality is decreased; if this switch is turned off, AMR FR calls cannot be switched into AMR HR calls, that is, network congestion cannot be relieved through the handover from TCHF to TCHH.
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a greater value, the calls cannot be handed over to TCHH in a short period when the traffic volume is increased greatly. Thus, the network congestion cannot be relieved in time. If this parameter is set to a smaller value, calls are handed over to TCHH unnecessarily, thus causing MOS loss of the customer.
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a smaller value, the duration of an AMR TCHF-TCHH handover is short after the handover is triggered. Thus, few MSs can be handed over from TCHF to TCHH, and the congestion relieving capability is decreased. If this parameter is set to a greater value, the duration of an AMR TCHF-TCHH handover is long after the handover is triggered. Thus, even the MSs on the edge of the cell are handed over from TCHF to TCHH, and the Versions earlier than voice quality deteriorates. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a smaller value, the handover zone is enlarged in a short time, and thus many MSs are handed over from TCHF to TCHH. If this parameter is set to a greater value, the handover zone is enlarged slowly and it takes a long time to initiate a TCHF-TCHH handover. Thus, and the congestion relieving Versions earlier than capability is decreased. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a greater value, the handover margin is increased in a short period and many MSs are handed over from TCHF to TCHH, thus affecting the voice quality. If this parameter is set to a smaller value, the handover margin is enlarged slowly and it takes a long time to initiate a TCHF-TCHH handover. Thus, network congestion cannot Versions earlier than be relieved in time. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a greater value, the handover margin is increased in a short period and many MSs are handed over from TCHF to TCHH, thus affecting the voice quality. If this parameter is set to a smaller value, the handover margin is enlarged slowly and it takes a long time to initiate a TCHF-TCHH handover. Thus, network congestion cannot Versions earlier than be relieved in time. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a greater value, MSs at the edge of the cell can also meet the handover condition, thus affecting the voice quality. If this parameter is set to a smaller value, only MSs in the center of the cell can meet the handover condition. Thus, the network Versions earlier than congestion cannot be relieved in time. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a greater value, network congestion may occur because the handover may not be performed timely. If this parameter is set to a smaller value, the Versions earlier than voice quality may be decreased. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a greater value, only MSs in the center of the cell can meet the handover condition. Thus, the network congestion cannot be relieved in time. If this parameter is set to a smaller value, MSs at the edge of the cell can also meet the handover condition, thus affecting the voice Versions earlier than quality. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a greater value, the voice quality may be decreased. If this parameter is set to a smaller value, the congestion relieving capability may be Versions earlier than decreased. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a greater value, MSs with poor quality can also meet the handover condition, thus affecting the voice quality. If this parameter is set to a smaller value, little MSs can meet the handover condition. Thus, the network congestion cannot be relieved in Versions earlier than time. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a greater value, unnecessary handovers may be performed. If this parameter is set to a smaller value, network congestion may occur because the handover may not be performed timely.
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a greater value, the handover cannot be performed in time and network congestion may occur. If this parameter is set to a smaller value, unnecessary handovers may be performed.
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a smaller value, calls are handed over to TCHH unnecessarily, thus causing MOS loss of the customer; if this parameter is set to a greater value, TCHFTCHH handover is performed only when the traffic volume is high, and thus network Versions earlier than congestion may occur. BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a greater value, only MSs in the center of the cell use the TCHH, thus leading to timeslot waste and the network congestion cannot be relieved in time. If this parameter is set to a smaller value, MSs at the edge of the cell and with poor quality also cannot be handed over to the TCHF, thus Versions earlier than affecting the voice quality. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a greater value, only an MS close to the overlaid subcell can be assigned TCHHs. Thus, timeslots are wasted. If this parameter is set to a smaller value, an MS of bad quality on the edge of the overlaid subcell cannot be handed over from TCHH to TCHF. Thus, the voice quality of the call is Versions earlier than decreased. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a greater value, MSs at the edge of the cell and with poor quality also cannot be handed over to the TCHF, thus affecting the voice quality. If this parameter is set to a smaller value, only MSs in the center of the cell use the TCHH, thus leading to timeslot waste and the network congestion Versions earlier than cannot be relieved in time. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a greater value, only MSs in the center area of the overlaid subcell can be assigned TCHHs. Thus, timeslots are wasted and the congestion relieving capability is decreased. If this parameter is set to a smaller value, MSs on the edge of the overlaid subcell also use the TCHH. Thus, the voice quality of the Versions earlier than call is decreased. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a greater value, handover cannot be triggered even when the quality is poor, thus affecting the voice quality; if this parameter is set to a smaller value, handover is triggered even when the quality is good, thus the network congestion cannot be Versions earlier than relieved in time. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a greater value, unnecessary handovers may be performed. If this parameter is set to a greater value, the handover cannot be performed in time, and thus the voice quality is decreased.
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a greater value, the TCHH-to-TCHF handover cannot be performed in time, thus the voice quality is decreased. If this parameter is set to a smaller value, unnecessary handovers may be performed.
The parameter modification has no impact on the equipment.
If this parameter is set to YES, FR calls can be switched into HR calls to relieve the network congestion, but the voice quality is decreased; if this parameter is set to NO, FR calls cannot be switched into HR calls, that is, network congestion cannot be relieved Versions earlier than through the handover from TCHF to TCHH. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a greater value, the calls cannot be handed over to TCHH in a short period when the traffic volume is increased greatly. Thus, the network congestion cannot be relieved in time. If this parameter is set to a smaller value, calls are handed over to TCHH unnecessarily, thus causing MOS loss of the customer.
The parameter modification has no impact on the equipment.
If this parameter is set to a greater value, the handover margin is increased in a short period and many MSs are handed over from TCHF to TCHH, thus affecting the voice quality. If this parameter is set to a smaller value, the handover margin is enlarged slowly and it takes a long time to initiate a TCHF-TCHH handover. Thus, network congestion cannot Versions earlier than be relieved in time. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a greater value, the handover margin is increased in a short period and many MSs are handed over from TCHF to TCHH, thus affecting the voice quality. If this parameter is set to a smaller value, the handover margin is enlarged slowly and it takes a long time to initiate a TCHF-TCHH handover. Thus, the network congestion Versions earlier than cannot be relieved in time. BSC6900 V900R011
Versions earlier than BSC6900 V900R011
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a greater value, MSs at the edge of the cell can also meet the handover condition, thus affecting the voice quality. If this parameter is set to a smaller value, only MSs in the center of the cell can meet the handover condition. Thus, the network Versions earlier than congestion cannot be relieved in time. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a greater value, only MSs in the center of the cell can meet the handover condition. Thus, the network congestion cannot be relieved in time. If this parameter is set to a smaller value, MSs at the edge of the cell can also meet the handover condition, thus affecting the voice Versions earlier than quality. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a greater value, MSs with poor quality can also meet the handover condition, thus affecting the voice quality. If this parameter is set to a smaller value, little MSs can meet the handover condition. Thus, the network congestion cannot be relieved in Versions earlier than time. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a smaller value, calls are handed over to TCHH unnecessarily, thus causing MOS loss of the customer; if this parameter is set to a greater value, TCHFTCHH handover is performed only when the traffic volume is high, thus network congestion Versions earlier than may occur. BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a greater value, only MSs in the center of the cell use the TCHH, thus leading to timeslot waste and the network congestion cannot be relieved in time. If this parameter is set to a smaller value, MSs at the edge of the cell and with poor quality also cannot be handed over to the TCHF, thus Versions earlier than affecting the voice quality. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a greater value, MSs at the edge of the cell and with poor quality also cannot be handed over to the TCHF, thus affecting the voice quality. If this parameter is set to a smaller value, only MSs in the center of the cell use the TCHH, thus leading to timeslot waste and the network congestion Versions earlier than cannot be relieved in time. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a greater value, handover cannot be triggered even when the quality is poor, thus affecting the voice quality; if this parameter is set to a smaller value, handover is triggered even when the quality is good, thus the network congestion cannot be Versions earlier than relieved in time. BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
None
BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment.
If this parameter is set to a greater value, unnecessary handovers may be performed. If this parameter is set to a smaller value, the handover cannot be performed in time. Thus, the voice quality is decreased and call drops Versions earlier than may occur. BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
If this parameter is set to a greater value, the handover cannot be performed in time. Thus, the voice quality is decreased and call drops may occur. If this parameter is set to a smaller value, Versions earlier than unnecessary handovers may be performed. BSC6900 V900R011
None
BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
BSC6900 V900R012
The parameter modification has no impact on the equipment.
None
BSC6900 V900R012
The parameter modification has no impact on the equipment.
None
BSC6900 V900R012
The parameter modification has no impact on the equipment.
None
BSC6900 V900R012
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
None
BSC6900 V900R012
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a greater value, the handover cannot be performed in time and call drops may occur. If this parameter is set to a smaller value, unexpected handovers may be performed due to incorrect MR when the call is initially set up, thus affecting handover success rate.
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a greater value, the handover cannot be performed in time and call drops may occur. If this parameter is set to a smaller value, unexpected handovers may be performed due to incorrect MR when the call is initially set up, thus affecting handover success rate.
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a smaller value, handovers may be performed frequently; if this parameter is set to a greater value, handovers may not be performed in time and Versions earlier than call drops may occur. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a smaller value, handovers are performed frequently; if this parameter is set to a greater value, handovers cannot be performed timely, thus leading to Versions earlier than call drops. BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to BTS_Preprocessing, signaling on the Abis interface and BSC load are decreased, thus enhancing the response Versions earlier than speed and the network performance. BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
When "Sent Freq.of preprocessed MR" is set to NOreport(Do not report), the BTS does not send MRs to the BSC and the BSC does not perform the handover control. As a result, handovers cannot be performed in time for Versions earlier than the conversation and the call drop rate rises. BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
The parameter modification has no impact on the equipment.
If this parameter is set to a greater value, congestion may occur in the underlaid subcell; if this parameter is set to a smaller value, Versions earlier than congestion may occur in the overlaid subcell. BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a greater value, congestion may occur in the overlaid subcell; if this parameter is set to a smaller value, Versions earlier than congestion may occur in the underlaid subcell. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a greater value, congestion may occur in the underlaid subcell; if this parameter is set to a smaller value, congestion may occur in the overlaid subcell. BSC6900 V900R011
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a greater or a smaller value, the balance between the traffic volume on the overlaid subcell and that on the Versions earlier than underlaid subcell may not be achieved. BSC6900 V900R011
The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
If this parameter is set to a greater value, the overlaid subcell range in the algorithm is smaller than the actual range, thus leading to the unbalance between the traffic volume on the overlaid subcell and that on the underlaid Versions earlier than subcell. BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a greater value, congestion in the underlaid subcell is difficult to be relieved; if this parameter is set to a smaller value, congestion may occur in the overlaid subcell in a short time.
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a greater value, congestion may occur in the overlaid subcell in a short time; if this parameter is set to a smaller value, congestion in the underlaid subcell is difficult to be relieved.
Versions earlier than BSC6900 V900R011
If this parameter is set to a greater value, congestion may occur in the overlaid subcell in a short time; if this parameter is set to a smaller value, congestion in the underlaid subcell is difficult to be relieved.
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment.
If this parameter is set to a greater value, congestion may occur in the underlaid subcell in a short time; if this parameter is set to a smaller value, congestion in the overlaid Versions earlier than subcell is difficult to be relieved. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a greater value, congestion may occur in the underlaid subcell; If this parameter is set to a smaller value, Versions earlier than handover success rate may be decreased. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a greater value, congestion may occur in the overlaid subcell; if this parameter is set to a smaller value, Versions earlier than congestion may occur in the underlaid subcell. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a greater value, congestion may occur in the underlaid subcell. If this parameter is set to a smaller value, ping- Versions earlier than pong handovers may occur. BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a greater value, the handover cannot be performed in time and call drops may occur. If this parameter is set to a smaller value, the coverage area of the cell is reduced, and the traffic volume on the cell may be decreased.
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment.
If this parameter is set to a greater value, handover may not be performed when the downlink voice quality is bad, thus leading to call drops. If this parameter is set to a smaller value, unnecessary handovers may be performed, thus decreasing the user Versions earlier than experience and network traffic load. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a greater value, handover may not be performed when the uplink voice quality is bad, thus leading to call drops. If this parameter is set to a smaller value, unnecessary handovers may be Versions earlier than performed, thus affecting the voice quality. BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The handover decision is allowed only when the uplink receive quality is greater than or equal to the value of this parameter. Therefore, if this parameter is set to a greater value, the handovers due to no-downlink Versions earlier than measurement report cannot be triggered. BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a smaller value, unnecessary handovers may be performed. If this parameter is set to a greater value, call drops may occur because the handover may Versions earlier than not be performed timely. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a smaller value, unnecessary handovers may be performed. If this parameter is set to a greater value, call drops may occur because the handover may Versions earlier than not be performed timely. BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a greater value, it is difficult for the MS to be handed over to the original cell, thus leading to call drop when there is no suitable neighboring cell. If this parameter is set to a smaller value, the MS is likely to be handed over to the original cell Versions earlier than again, thus leading to ping-pong handovers. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a greater value, it is difficult for the MS to be handed over to the original cell, thus leading to call drop when there is no suitable neighboring cell. If this parameter is set to a smaller value, the MS is likely to be handed over to the original cell again, thus leading to ping-pong Versions earlier than handovers. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a greater value, call drops may occur because the handover may not be performed timely. If this parameter is set to a smaller value, Versions earlier than unnecessary handovers may be performed. BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to YES, the probability of MS handover to the cell in the direction opposite to the moving direction during fast handover is reduced. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a great value, there are strict restrictions on the judgement of the MS moving direction.
BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a great value, there are strict restrictions on the judgement of the MS moving direction.
BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
BSC6900 V900R012
None
BSC6900 V900R012
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a greater value, call drops may occur due to no suitable neighboring cell for handover. If this parameter is set to a smaller value, handover Versions earlier than success rate may be decreased. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a greater value, it is difficult for the MS to be handed over to the original cell, thus leading to call drop when there is no suitable neighboring cell. If this parameter is set to a smaller value, the MS is likely to be handed over to the original cell Versions earlier than again, thus leading to ping-pong handovers. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a greater value, it is difficult for the MS to be handed over to the original cell, thus leading to call drop when there is no suitable neighboring cell. If this parameter is set to a smaller value, the MS is likely to be handed over to the original cell Versions earlier than again, thus leading to ping-pong handovers. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a greater value, it is difficult for the MS to be handed over to the original cell, thus leading to call drop when there is no suitable neighboring cell. If this parameter is set to a smaller value, the MS is likely to be handed over to the original cell Versions earlier than again, thus leading to ping-pong handovers. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a greater value, it is difficult for the MS to be handed over to the original cell, thus leading to call drop when there is no suitable neighboring cell. If this parameter is set to a smaller value, the MS is likely to be handed over to the original cell Versions earlier than again, thus leading to ping-pong handovers. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a greater value, cell congestion may be difficult to be relieved, thus affecting the traffic volume during busy times and the access success rate. If this parameter is set to a smaller value, handover success Versions earlier than rate may be decreased. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a greater value, call drops may occur due to no suitable neighboring cell for handover. If this parameter is set to a smaller value, handover Versions earlier than success rate may be decreased. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a greater value, call drops may occur due to no suitable neighboring cell for handover. If this parameter is set to a smaller value, handover Versions earlier than success rate may be decreased. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a greater value, the target cell for the previous handover will not be selected for the next handover, but the probability of call drop increases. If this parameter is set to a smaller value, the probability of handover failure increases.
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
The parameter modification has no impact on the equipment.
If this parameter is set to a greater value, it is difficult for the MS to be handed over to the serving cell, thus leading to call drop when there is no suitable neighboring cell. If this parameter is set to a smaller value, the MS is likely to be handed over to the serving cell again, thus leading to ping-pong Versions earlier than handovers. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a greater value, it is difficult for the MS to be handed over to the serving cell, thus leading to call drop when there is no suitable neighboring cell. If this parameter is set to a smaller value, the MS is likely to be handed over to the serving cell again, thus leading to ping-pong Versions earlier than handovers. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a greater value, call drops may occur. If this parameter is set to a smaller value, handover may be performed frequently and Versions earlier than the signaling load in the cell is increased. BSC6900 V900R011
The parameter modification has no impact on the equipment.
This parameter should be set to a small value because the signaling channel seizure duration is shorter than the traffic channel Versions earlier than seizure duration for the MS. BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
BSC6900 V900R011
None
BSC6900 V900R011
None
BSC6900 V900R011
None
BSC6900 V900R011
None
BSC6900 V900R011
None
BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
None
BSC6900 V900R011
If this parameter is set to a relatively great value, the congestion in the current cell cannot be solved. If this parameter is set to a relatively small value, the calls with low receive level are handed over to other cells. Thus, the handover success rate is decreased. BSC6900 V900R011
None
BSC6900 V900R011
None
BSC6900 V900R011
If this parameter is set to a relatively great value, congestion occurs to inter-RAT neighboring cells in a short time. If this parameter is set to a relatively small value, the congestion in the current cell cannot be solved.
BSC6900 V900R011
If this parameter is set to a relatively great value, congestion occurs to inter-RAT neighboring cells in a short time. If this parameter is set to a relatively small value, the congestion in the current cell cannot be solved.
BSC6900 V900R011
None
BSC6900 V900R011
If this parameter is set to a relatively small value, the calls with low receive level are handed over to other cells. Thus, the handover success rate is decreased.
BSC6900 V900R011
If this parameter is set to a relatively small value, the calls with low receive level are handed over to other cells. Thus, the handover success rate is decreased.
BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a greater value, congestion may occur in the underlaid subcell; if this parameter is set to a smaller value, Versions earlier than assignment success rate may be decreased. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a greater value, assignment success rate may be decreased; if this parameter is set to a smaller value, Versions earlier than congestion may occur in the underlaid subcell. BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a greater value, congestion in the underlaid subcell is difficult to be relieved; if this parameter is set to a smaller value, congestion may occur in the overlaid subcell in a short time.
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a greater value, congestion may occur in the underlaid subcell. If this parameter is set to a smaller value, ping- Versions earlier than pong handovers may occur. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a greater value, congestion may occur in the underlaid subcell; if this parameter is set to a smaller value, Versions earlier than handover success rate may be decreased. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a greater value, call drop rate may be increased and congestion may occur in the overlaid subcell; if this parameter is set to a smaller value, handover Versions earlier than success rate may be decreased. BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
The parameter modification has no impact on the equipment.
If this parameter is set to a greater value, traffic load on the underlaid subcell is increased, and thus congestion may occur in the underlaid subcell. If this parameter is set to a smaller value, traffic load on the overlaid subcell is increased, and thus congestion may Versions earlier than occur in the overlaid subcell. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a greater value, congestion may occur in the underlaid subcell; if this parameter is set to a smaller value, Versions earlier than congestion may occur in the overlaid subcell. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a greater value, the congestion relieving speed in the underlaid subcell is decreased. If this parameter is set to a smaller value, traffic load on the overlaid subcell is increased, and thus congestion may Versions earlier than occur in the overlaid subcell. BSC6900 V900R011
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a smaller value, congestion may occur in the underlaid subcell in a short time; if this parameter is set to a greater value, congestion in the overlaid Versions earlier than subcell is difficult to be relieved. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a greater value, congestion may occur in the underlaid subcell in a short time; if this parameter is set to a smaller value, congestion in the overlaid Versions earlier than subcell is difficult to be relieved. BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a greater value, congestion may occur in the overlaid subcell in a short time; if this parameter is set to a smaller value, congestion in the underlaid subcell is difficult to be relieved.
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
If this parameter is set to a greater value, congestion in the underlaid subcell may not be relieved in time. If this parameter is set to a smaller value, many calls may be handed over from the underlaid subcell to the overlaid subcell in a shot period, thus causing network congestion in the overlaid subcell and Versions earlier than handover failure. BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The cell should be activated after the parameter modification.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
The cell should be activated after the parameter modification.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment.
The cell should be activated after the parameter modification.
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The cell should be activated after the parameter modification.
None
Versions earlier than BSC6900 V900R011
The cell should be activated after the parameter modification.
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment.
The cell should be activated after the parameter modification. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a too great value, the handover cannot be performed timely, and the speech quality is deteriorated or call drop occurs. If this parameter is set to a too small value, unnecessary handovers may be performed.
Versions earlier than BSC6900 V900R011
If this parameter is set to a too great value, the handover cannot be performed timely, and the speech quality is deteriorated or call drop occurs. If this parameter is set to a too small value, unnecessary handovers may be performed.
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a too great value, the handover cannot be performed timely, and the speech quality is deteriorated or call drop occurs. If this parameter is set to a too small value, unnecessary handovers may be performed.
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment.
The setting of this parameter affects the GSM Versions earlier than Phase II MS. BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
If the number of RACH conflicts in a cell is small, T should be set to a great value. If the number of RACH conflicts in a cell is large, T should be set to a small value. The increase in T and S prolongs the access time of an MS, thus affecting the access performance of the whole network. Therefore, appropriate values should be selected for T and S. When the network traffic is heavy, the success rate of immediate assignment is low if the sum of S and T is low. Thus, the value of T should be properly adjusted to make the Versions earlier than sum of S and T great. BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
The setting of this parameter may affect the MS paging response and performance of the system. A greater value may decrease the number of paging blocks, paging capacity, and paging success rate.
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a greater value, the number of paging subchannels in a cell increases and the number of MSs on each paging subchannel decreases. This can prolong the average service life of MS batteries but increase the delay of paging messages and degrade the system performance.
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a smaller value, the paging success rate increases but the load on the SDCCH also increases, thus causing Versions earlier than congestion on the SDCCH. BSC6900 V900R011
The parameter modification has no impact on the equipment.
The MS cannot respond to the paging during the location update, thus decreasing the call completion rate in the system. If this parameter is set to a smaller value, pingpong location update may occur, thus increasing the signaling load on the SDCCH. If this parameter is set to a greater value, the MS may not camp on an optimum cell for a long time after entering a new location area.
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
The MS calculates C1 and C2 of the serving cell at a minimum interval of 5s. When necessary, the MS re-calculates C1 and C2 of all non-serving cells (neighboring cells). The MS constantly checks whether a cell reselection is required by checking following conditions: Whether the path loss (C1) of the current serving cell drops below 0 within 5s. If yes, the path loss is too large. C2 of an appropriate non-serving cell exceeds that of the serving cell in 5s and the following conditions are met: The C2 of a new cell in another LAC minus CRH (broadcast in the system information 3 and 4 of the serving cell) exceeds C2 of the serving cell in 5s. A cell reselection is performed in the last 15s, and the C2 of the new cell minus 5 dB constantly exceeds the C2 of the serving cell in 5s. A better cell exists if the above conditions are met. If a better cell exists, the MS reselects a cell, and does not select the previous cell Versions earlier than within 5s. BSC6900 V900R011
The parameter modification has no impact on the equipment.
The most significant three bits of BSIC for all cells map with the NCC. NCC Permitted should be set properly to avoid too many call drops. The MS does not report the information on the neighboring cells in the network whose corresponding NCC bit is set to 0. Thus, this parameter should be set properly. Otherwise, an MS during an ongoing call cannot perform normal handover and a cross-coverage call drop occurs. For details, see GSM Rec. 05. 08. During an ongoing call, the MS reports to the BTS the signal information on neighboring cells. A report covers a maximum of six cells. Thus, the MS should report those possible target cells, rather than selecting cells only based on the signal level. Generally, the MS does not report the information on the cells belonging to other GSM PLMNs. This function enables the MS to measure only those specified cells. This parameter specifies the codes of the NCCs to be measured by the MS. On the SCH, the system constantly transmits the BSIC, the first three bits of which indicate the NCC. Thus, the MS needs to compare only this parameter with the adjacent NCCs measured. Then, the MS reports the matched NCCs to the BTS and discards others. The setting of this parameter affects only those MSs during conversation, as well as Versions earlier than boundary handovers. BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
The cell should be activated after the parameter modification.
None
Versions earlier than BSC6900 V900R011
The cell should be activated after the parameter modification.
None
Versions earlier than BSC6900 V900R011
The cell should be activated after the parameter modification.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
When "Network Operation Mode" is set to "NC2" in the "SET GCELLPSBASE" command, a higher value of this parameter poses higher requirements for the candidate cell in cell reselection and a lower value of this parameter lowers the requirements for the Versions earlier than candidate cell in cell reselection. BSC6900 V900R011
The parameter modification has no impact on the equipment.
When "Network Operation Mode" is set to "NC2" in the "SET GCELLPSBASE" command, this parameter is used to prevent ping-pong cell reselections. If this parameter is set to a higher value, cell reselection is less likely to be triggered. If this parameter is set to a lower value, ping-pong cell reselections are Versions earlier than likely to occur. BSC6900 V900R011
Not involved The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment.
When "Network Operation Mode" is set to "NC2" in the "SET GCELLPSBASE" command, a higher value of this parameter requires higher level in the target cell for cell reselection of the MS, and a lower value of this parameter requires lower level in the target cell.
The parameter modification has no impact on the equipment.
When "Network Operation Mode" is set to "NC2" in the "SET GCELLPSBASE" command, a higher value of this parameter hinders the MS from reselecting a cell to which the previous reselection fails or in which load-based reselection is once performed, and a lower value of this parameter accelerates the reselection to a cell to which the previous reselection fails or in which load- Versions earlier than based reselection is once performed. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a higher value, the validity of the filtering value of the measurement report is decreased. If this parameter is set to a lower value, the validity of the filtering value of the measurement report is increased.
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a higher value, the weight of the previous signal level increases; if this parameter is set to a lower value, the weight of current signal level increases.
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a higher value, the critical reselection is triggered difficultly; if this parameter is set to a lower value, the critical Versions earlier than reselection is triggered easily. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a higher value, the critical reselection is triggered difficultly; if this parameter is set to a lower value, the critical Versions earlier than reselection is triggered easily. BSC6900 V900R011
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a higher value, it is difficult to trigger the load-based reselection; if this parameter is set to a lower value, it is Versions earlier than easier to trigger the load-based reselection. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a higher value, it is easier for the MS to reselect this cell; if this parameter is set to a lower value, it is difficult Versions earlier than for the MS to reselect this cell. BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a lower value, the precision of decision may be reduced; if this parameter is set to a higher value, the decision may not be performed immediately.
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a higher value, the probability of the cell reselection increases; if this parameter is set to a lower value, the probability of the cell reselection decreases.
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a higher value, the number of cell reselections increases; if this parameter is set to a lower value, the number Versions earlier than of cell reselections decreases. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a higher value, the number of times that the transmission quality is worsened decreases, and the critical reselection is triggered difficultly; if this parameter is set to a lower value, the number of times that the transmission quality is worsened increases, and the critical Versions earlier than reselection is triggered easily. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a higher value, the number of times that the transmission quality is worsened decreases, and the critical reselection is triggered difficultly; if this parameter is set to a lower value, the number of times that the transmission quality is worsened increases, and the critical Versions earlier than reselection is triggered easily. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a higher value, the number of times that the transmission quality is worsened decreases, and the critical reselection is triggered difficultly; if this parameter is set to a lower value, the number of times that the transmission quality is worsened increases, and the critical Versions earlier than reselection is triggered easily. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a higher value, the load-based reselection is triggered difficultly; if this parameter is set to a lower value, the load- Versions earlier than based reselection is triggered easily. BSC6900 V900R011
Not involved The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Together with "GPRS Penalty Time" set in the "SET GCELLNCRESELECTPARA" command, this parameter is used to prevent ping-pong cell reselections. If this parameter is set to a higher value, ping-pong cell reselections are less likely to occur but stricter conditions are imposed on cell reselection. If this parameter is set to a lower value, pingVersions earlier than pong cell reselections are more likely to occur. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If you do not want a fast-moving MS to access a micro cell, this parameter should be set to a high value when the coverage area of the Versions earlier than micro cell is large. BSC6900 V900R011
The parameter modification has no impact on the equipment.
The principles of cell reselection offset are as follows: 1. For the cell with low traffic and low equipment usage, Huawei recommends that MSs work in the cell. The value range 0-20 dB is recommended. 2 For the cell with medium traffic, value 0 is Versions earlier than recommended. BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
The MS should stay in non-DRX mode for a period of time after the measurement report is sent. If this parameter is set to an excessive value, the MS may stay in non-DRX mode for a long time and services may be affected. If this parameter is set to a modest value, the MS enters the DRX mode and may send the Versions earlier than measurement report frequently. BSC6900 V900R011
Not involved The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment.
If this parameter is set to an excessive value, some information may be missing. If this parameter is set to a modest value, the reselection measurement report is sent frequently. This occupies many bandwidth Versions earlier than resources. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to an excessive value, some information may be missing. If this parameter is set to a modest value, the reselection measurement report is sent frequently. This occupies many bandwidth Versions earlier than resources. BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The cell should be activated after the parameter modification. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
If this parameter is set to YES, the probability that the BTS transmits at full power increases. This increases the interference but the Versions earlier than handover success rate also increases. BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
This technology prevents the loss of measurement reports caused by the BSIC that cannot be decoded, improves the system performance, and ensures the radio handover Versions earlier than success rate of the BSC. BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
When this parameter is set to YES, the network KPIs may be deteriorated.
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
When this parameter is set to YES, the network KPIs may be deteriorated.
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
When this parameter is set to a large value, the values of the new counters TCH call drops (UL receive level) and TCH call drops (UL receive level and DL receive level) are increased. When this parameter is set to a small value, the values of the two counters are reduced. The overall number of call drops, however, remains unchanged and the performance of other counters is not affected. BSC6900 V900R011
The parameter modification has no impact on the equipment.
When this parameter is set to a large value, the values of the new counters TCH call drops (DL receive level) and TCH call drops (UL receive level) are increased. When this parameter is set to a small value, the values of the two counters are reduced. The overall number of call drops, however, remains unchanged and the performance of other counters is not affected. BSC6900 V900R011
The parameter modification has no impact on the equipment.
When this parameter is set to a large value, the values of the new counters TCH call drops (UL receive quality) and TCH call drops (UL receive quality and DL receive quality) are reduced. When this parameter is set to a small value, the values of the two counters are increased. The overall number of call drops, however, remains unchanged and the performance of other counters is not affected. BSC6900 V900R011
The parameter modification has no impact on the equipment.
When this parameter is set to a large value, the values of the new counters TCH call drops (DL receive quality) and TCH call drops (UL receive quality and DL receive quality) are reduced. When this parameter is set to a small value, the values of the two counters are increased. The overall number of call drops, however, remains unchanged and the performance of other counters is not affected. BSC6900 V900R011
The parameter modification has no impact on the equipment.
When this parameter is set to a large value, the values of the new counters TCH call drops (UL FER) and TCH call drops (UL FER and DL FER) are reduced. When this parameter is set to a small value, the values of the two counters are increased. The overall number of call drops, however, remains unchanged and the performance of other counters is not affected. BSC6900 V900R011
The parameter modification has no impact on the equipment.
When this parameter is set to a large value, the values of the new counters TCH call drops (DL FER) and TCH call drops (UL FER and DL FER) are reduced. When this parameter is set to a small value, the values of the two counters are increased. The overall number of call drops, however, remains unchanged and the performance of other counters is not affected. BSC6900 V900R011
The parameter modification has no impact on the equipment.
This parameter affects only the statistical result of the counter "FER I (I = 0-7) Quality Level N".
BSC6900 V900R011
The parameter modification has no impact on the equipment.
This parameter affects only the statistical result of the counter "FER I (I = 0-7) Quality Level N".
BSC6900 V900R011
The parameter modification has no impact on the equipment.
This parameter affects only the statistical result of the counter "FER I (I = 0-7) Quality Level N".
BSC6900 V900R011
The parameter modification has no impact on the equipment.
This parameter affects only the statistical result of the counter "FER I (I = 0-7) Quality Level N".
BSC6900 V900R011
The parameter modification has no impact on the equipment.
This parameter affects only the statistical result of the counter "FER I (I = 0-7) Quality Level N".
BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
This parameter affects only the statistical result of the counter "FER I (I = 0-7) Quality Level N". This parameter affects only the statistical result of the counter "FER I (I = 0-7) Quality Level N".
The parameter modification has no impact on the equipment.
None
BSC6900 V900R012
The parameter modification has no impact on the equipment.
None
BSC6900 V900R012
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
Not involved The parameter modification has no impact on the equipment.
BSC6900 V900R011
BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to an excessive value, the MS needs to wait for a long time before sending the next request. This may affect MS services. If this parameter is set to a modest value, it is possible that a response is sent, but the MS has not received it because of transmission delay. In this case, the MS also resends the Versions earlier than access request. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to an excessive value, the MS sends a new Channel Request within a long interval after the channel request fails, thus reducing access collisions but slowing down the MS access speed. If this parameter is set to a modest value, the MS sends a new Channel Request within a short interval after the channel request fails, thus accelerating the MS access speed but Versions earlier than adding access collisions. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to an excessive value, it is difficult for an MS to access the cell. Therefore, radio resources may be wasted. If this parameter is set to a modest value, it is easy for an MS to access the cell. However, too many MSs may access the cell. Versions earlier than Therefore, the system may be overloaded. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to an excessive value, it is difficult for an MS to access the cell. Therefore, radio resources may be wasted. If this parameter is set to a modest value, it is easy for an MS to access the cell. However, too many MSs may access the cell. Versions earlier than Therefore, the system may be overloaded. BSC6900 V900R011
The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment.
If this parameter is set to an excessive value, it is difficult for an MS to access the cell. Therefore, radio resources may be wasted. If this parameter is set to a modest value, it is easy for an MS to access the cell. However, too many MSs may access the cell. Versions earlier than Therefore, the system may be overloaded. BSC6900 V900R011
If this parameter is set to an excessive value, it is difficult for an MS to access the cell. Therefore, radio resources may be wasted. If this parameter is set to a modest value, it is easy for an MS to access the cell. However, too many MSs may access the cell. Versions earlier than Therefore, the system may be overloaded. BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
The parameter modification has no impact on the equipment.
When this parameter is set to a very small value, the MS is unlikely to reselect a neighboring cell in UTRAN or EUTRAN whose priority is lower than the GERAN priority, even if the signal quality of the GERAN cell is bad whereas the signal quality of the neighboring UTRAN or EUTRAN cell is good. BSC6900 V900R011
The parameter modification has no impact on the equipment.
When this parameter is set to a very great value, the MS is likely to reselect a neighboring cell in UTRAN or EUTRAN whose priority is lower than the GERAN priority, even if the signal quality of the GERAN cell is good. BSC6900 V900R011
The parameter modification has no impact on the equipment.
When this parameter is set to a very small value, the MS is likely to reselect a neighboring cell in UTRAN whose priority is higher than the GERAN priority, even if the signal quality of the GERAN cell is good whereas the signal quality of the neighboring UTRAN cell is bad. When this parameter is set to a very great value, the MS is unlikely to reselect a neighboring cell in UTRAN whose priority is higher than the GERAN priority, even if the signal quality of the GERAN cell is bad whereas the signal quality of the neighboring UTRAN cell is good. BSC6900 V900R011
The parameter modification has no impact on the equipment.
When this parameter is set to a very small value, the MS is likely to reselect a neighboring cell in UTRAN whose priority is lower than the GERAN priority, even if the signal quality of the UTRAN cell is bad. When this parameter is set to a very great value, the MS is unlikely to reselect a neighboring cell in UTRAN whose priority is lower than the GERAN priority, even if the signal quality of the neighboring UTRAN cell is good. BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
The parameter modification has no impact on the equipment.
When this parameter is set to a very small value, the MS is likely to reselect a neighboring cell in EUTRAN whose priority is higher than the GERAN priority, even if the signal quality of the GERAN cell is good whereas the signal quality of the neighboring EUTRAN cell is bad. When this parameter is set to a very great value, the MS is unlikely to reselect a neighboring cell in EUTRAN whose priority is higher than the GERAN priority, even if the signal quality of the GERAN cell is bad whereas the signal quality of the neighboring EUTRAN cell is good. BSC6900 V900R011
The parameter modification has no impact on the equipment.
When this parameter is set to a very small value, the MS is likely to reselect a neighboring cell in EUTRAN whose priority is lower than the GERAN priority, even if the signal quality of the EUTRAN cell is bad. When this parameter is set to a very great value, the MS is unlikely to reselect a neighboring cell in EUTRAN whose priority is lower than the GERAN priority, even if the signal quality of the neighboring EUTRAN cell is good. BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
If this parameter is set to a very great value, the duration of making priority-based decision on cell reselection is prolonged. BSC6900 V900R011
None
BSC6900 V900R011
None
BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a higher value, this can increase the probability of establishing the downlink TBF on the PACCH, thus greatly reducing the downlink TBF establishment time; however, if the MS needs to send new uplink data, because the BSC6900 does not support the uplink establishment function on the uplink at present, the reserved uplink TBF must be released and a new TBF must be established to transmit the new data. Therefore, the overall transmission performance decreases. If this parameter is set to a lower value, this can decrease the probability of establishing the downlink TBF on the PACCH. The downlink TBF must establish on the CCCH, Versions earlier than thus increasing the establishment time. BSC6900 V900R011
Not involved The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment.
If this parameter is set to a higher value, the release delay of the uplink TBF increases, thus wasting the uplink resources. If this parameter is set to a lower value, the uplink TBF frequently releases and establishes, thus increasing the delay for the delay tests of the Attach and Ping services. The most optimized value should be a little greater than the interval between two discontinuous uplink transmissions.
The parameter modification has no impact on the equipment.
If this parameter is set to a higher value, this wastes the wireless resources and influences the the access performance of other MSs in the network, thus causing the useless signaling seizing the channel bandwidth and wasting the downlink resources. If this parameter is set to a lower value, the uplink TBF frequently releases and establishes, thus increasing the delay for the delay tests of the Attach and Ping services. The original downlink TBF is released immediately and cannot be used to transmit subsequent downlink data. Therefore, a new TBF must be established. The original downlink TBF also cannot be used for a new requirement of uplink data transmission. Therefore, the duration and success rate of Versions earlier than the TBF establishment are greatly affected. BSC6900 V900R011
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set improperly to a small value, the downlink assignment procedure may fail. Therefore, it is recommended that this parameter be greater than 80 ms.
The parameter modification has no impact on the equipment.
When "ON when no MS is accessed" or "ON when no valid data needs to be sent" is selected, the power amplifier of the TRX is shut down if there is no traffic. This reduces power consumption and air interference. The network optimization effect is better when "ON when no valid data needs to be sent" is selected. The accessibility performance of the network, however, deteriorates because errors may occur when some MSs send data in the uplink. BSC6900 V900R012
Not involved The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment.
BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
When the CN is configured with the Gs interface, this parameter must be set to "NOMI"; otherwise, this parameter must be set to "NOMII". When this parameter is set to "NOMI", the CN paging coordination is supported. As a result, the paging success rate is increased and the paging congestion rate is decreased. In addition, the delay of cell reselection between location areas is shortened; however, the downlink PS service Versions earlier than disruption rate may be increased. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If the timer is set to a lower value, the MS can detect the TBF establishment failure within a shorter period. If the TBF establishment fails, the average delay of packet access is short, but the success rate of TBF establishment in bad radio environment decreases. In addition, the small timer value increases the probability of the retransmission of the packet access request, thus increasing the probability of reassignment by the PCU and wasting system resources. If the timer is set to a higher value, the MS takes a longer period to detect the TBF establishment failure. If the TBF establishment fails, the average delay of packet access is long, but the success rate of TBF establishment in bad radio environment Versions earlier than increases. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a higher value, the TBF resources (including TFI and timeslots) are reserved for a long time. If no downlink data needs to be sent, many resources are not used but occupied for a long time. If the timer is set to a smaller value, the MS releases the TBF resources within a shorter period. However, if the network sends new downlink PDU data packets, the network must initiate a paging or immediate assignment procedure. Therefore, the downlink TBF establishment takes a longer period. If the download data packets from the network are not received and T3192 does not expire, the network directly sends a Packet Downlink Assignment message to establish a new downlink TBF, thus shortening the TBF Versions earlier than establishment time. BSC6900 V900R011
The parameter modification has no impact on the equipment.
It takes a shorter time to send the Immediate Assignment message on all PCHs and AGCHs in non-DRX mode than in DRX mode. During the period of non-DRX mode, the TBF establishment time decreases, but the power consumption of the MS increases. In DRX mode, the MS monitors paging messages only on the home paging group, and then receives the Immediate Assignment message on all the paging blocks and AGCH reservation blocks. The TBF establishment time increases, but the power consumption of the MS decreases. If this parameter is set to a modest value, the TBF establishment time increases but the power consumption of the MS decreases. If this parameter is set to an excessive value, the TBF establishment time decreases but the Versions earlier than power consumption of the MS increases. BSC6900 V900R011
The parameter modification has no impact on the equipment.
Some MSs do not support the 11-bit access burst. Therefore, 8bit is recommended.
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
The parameter modification has no impact on the equipment.
If the value of this parameter is set to a modest value, the MS may retransmits the RLC data block before the BSC sends an Uplink Acknowledgment message. Thus, many radio resources are not used but occupied. If this parameter is set to an excessive value, the speed of the sliding window decreases and the probability of the uplink TBF transmission countdown increases, thus decreasing the performance of uplink transmission. To make this value more accurate, you need to estimate the delay in the transmission between the MS and the BSC6 first. This Versions earlier than value is set based on the transmission delay. BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
When the radio operating environment is good, decreasing the parameter value improves the transmission rate. When the radio operating environment is poor, increasing the parameter value reduces Versions earlier than the times of abnormally releasing TBFs. BSC6900 V900R011
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
The setting of parameter determines the mode of MS cell reselection. If this parameter is set to "NC0" or "NC1", the MS performs autonomous cell reselection without network control. As a result, the cell load cannot be considered as in NC2 mode. If this parameter is set to "NC2" and NC2 is enabled, the network controls the MS cell reselection. Cell reselection in NC2 mode comprehensively considers factors such as the receive level and load status in the serving cell and the neighboring cell so that the MS can reselect a proper cell. In this way, the loads in the cells Versions earlier than can be balanced. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to "YES", the BTS and MS calculate the paging group by using the DRX parameters of the MS (for details of the calculation formula, see 45002). The MS can listen to the paging message or downlink immediate assignment message in the specified paging group on the CCCH, so that the power consumption of the MS in idle Versions earlier than mode is saved. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a lower value, the cell imposes stricter restrictions on PS access of an MS. As a result, the MS is more likely to be rejected. If this parameter is set to a higher value, the cell imposes looser restrictions on PS access of an MS. As a result, the MS is less likely to be rejected. When this parameter is set to 0, no MS is allowed to access the cell. When this parameter is set to 6, any MS Versions earlier than can access the cell. BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
When this parameter is set to Yes, the access Versions earlier than delay of the EGPRS MS is shortened. BSC6900 V900R011 If this parameter is set to "YES" and "Network Operation Mode" in the "SET GCELLPSBASE" command is set to "NOMII", the paging success rate is increased but the downlink PS service disruption rate may also Versions earlier than be increased. BSC6900 V900R011
If this parameter is set to SEND, the traffic volume on the Um interface and the MS power consumption are increased. If this parameter is set to NOTSEND, the traffic volume on the Um interface and MS power consumption are decreased.
BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to an excessive value, there are excessive PDCHs and insufficient TCHs. This affects CS services. If this parameter is set to a modest value, there are insufficient PDCHs and excessive Versions earlier than TCHs. This affects PS services. BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
Not involved The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment.
If this parameter is set to a higher value, the accessibility KPIs can be improved but the uplink rate is decreased. If this parameter is set to a lower value, the uplink rate is increased but the accessibility KPIs deteriorate.
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a higher value, the accessibility KPIs can be improved but the downlink rate is decreased. If this parameter is set to a lower value, the downlink rate is increased but the accessibility Versions earlier than KPIs deteriorate. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a lower value, the TBFs established on the PDCH and the subscribers are fewer, and the uplink bandwidth for each subscriber is higher. If this threshold is set to a higher value, the TBFs established on the PDCH and the subscribers are more, and the uplink bandwidth for each subscriber is lower.
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a lower value, the TBFs established on the PDCH and the subscribers are fewer, and the downlink bandwidth for each subscriber is higher. If this threshold is set to a higher value, the TBFs established on the PDCH and the subscribers are more, and the downlink bandwidth for each subscriber is lower.
The parameter modification has no impact on the equipment.
This parameter is configured according to the congestion counter of the underlaid (UL) and overlaid (OL) voice services. If the UL voice service is congested, the dynamic channel is converted at the UL cell. If the OL voice service is congested, the Versions earlier than dynamic channel is converted at the OL cell. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to an excessive value, the dynamic channel resources may be wasted when there are no services for a long time. If this parameter is set to a modest value, it is possible that a dynamic channel is requested immediately after being released. Therefore, the dynamic channel request is sent Versions earlier than frequently. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to "Preempt all dynamic TCHFs", the TCH congestion rate may be decreased but the TBF call drop rate may be increased, thus decreasing the service rate. If this parameter is set to "No preempt of CCHs", the TCH congestion rate may be decreased without affecting the TBF call drop but the service rate may be decreased. If this parameter is set to "No preempt of service TCHF", the TCH congestion rate may be increased without affecting the TBF call Versions earlier than drop rate and service rate. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a higher value, the rate and delay of CS services are satisfactory but the PS services may be affected. If this parameter is set to a lower value, the CS services may be affected when there are Versions earlier than excessive PS services. BSC6900 V900R011
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a higher value, the period of reserving the Abis timeslots is prolonged and thus the delay is shortened. However, there may be insufficient idle Abis timeslots and thus the service rate is decreased. If this parameter is set to a lower value, Abis timeslots may be requested frequently.
The parameter modification has no impact on the equipment.
If this parameter is set to a higher value, more radio blocks can be provided for this type of service, thus improving the service performance. If this parameter is set to a lower value, less radio blocks are provided for this type of service, thus deteriorating the Versions earlier than service performance. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a higher value, more radio blocks can be provided for this type of service, thus improving the service performance. If this parameter is set to a lower value, less radio blocks are provided for this type of service, thus deteriorating the Versions earlier than service performance. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a higher value, more radio blocks can be provided for this type of service, thus improving the service performance. If this parameter is set to a lower value, less radio blocks are provided for this type of service, thus deteriorating the Versions earlier than service performance. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a higher value, more radio blocks can be provided for this type of service, thus improving the service performance. If this parameter is set to a lower value, less radio blocks are provided for this type of service, thus deteriorating the Versions earlier than service performance. BSC6900 V900R011
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a higher value, more radio blocks can be provided for this type of service, thus improving the service performance. If this parameter is set to a lower value, less radio blocks are provided for this type of service, thus deteriorating the Versions earlier than service performance. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a higher value, more radio blocks can be provided for this type of service, thus improving the service performance. If this parameter is set to a lower value, less radio blocks are provided for this type of service, thus deteriorating the Versions earlier than service performance. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a higher value, more radio blocks can be provided for this type of service, thus improving the service performance. If this parameter is set to a lower value, less radio blocks are provided for this type of service, thus deteriorating the Versions earlier than service performance. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a higher value, more radio blocks can be provided for this type of service, thus improving the service performance. If this parameter is set to a lower value, less radio blocks are provided for this type of service, thus deteriorating the Versions earlier than service performance. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a higher value, more radio blocks can be provided for this type of service, thus improving the service performance. If this parameter is set to a lower value, less radio blocks are provided for this type of service, thus deteriorating the Versions earlier than service performance. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a higher value, more radio blocks can be provided for this type of service, thus improving the service performance. If this parameter is set to a lower value, less radio blocks are provided for this type of service, thus deteriorating the Versions earlier than service performance. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a higher value, more radio blocks can be provided for this type of service, thus improving the service performance. If this parameter is set to a lower value, less radio blocks are provided for this type of service, thus deteriorating the Versions earlier than service performance. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a higher value, more radio blocks can be provided for this type of service, thus improving the service performance. If this parameter is set to a lower value, less radio blocks are provided for this type of service, thus deteriorating the Versions earlier than service performance. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a higher value, more radio blocks can be provided for this type of service, thus improving the service performance. If this parameter is set to a lower value, less radio blocks are provided for this type of service, thus deteriorating the Versions earlier than service performance. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a higher value, more radio blocks can be provided for this type of service, thus improving the service performance. If this parameter is set to a lower value, less radio blocks are provided for this type of service, thus deteriorating the Versions earlier than service performance. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a higher value, more radio blocks can be provided for this type of service, thus improving the service performance. If this parameter is set to a lower value, less radio blocks are provided for this type of service, thus deteriorating the Versions earlier than service performance. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to YES and "Level of Preempting Dynamic Channel" is set to No preempt of service TCHF, a CS call drop occurs when there are no idle TCHs.
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a higher value, the MS is less likely to enter the MSRD mode automatically, thus decreasing the downlink PS throughput in the cell. If this parameter is set to a lower value, the MS is less likely to be assigned the downlink dual carriers, thus also decreasing the downlink PS throughput in the cell. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a higher value, the MS is less likely to be assigned the downlink dual carriers, thus decreasing the downlink PS throughput in the cell. If this parameter is set to a lower value, the MS is less likely to enter the MSRD mode automatically, thus also decreasing the downlink PS throughput in the cell
The parameter modification has no impact on the equipment.
If this parameter is set to a higher value, the number of multiplexed TBFs is increased and the RTTI delay is prolonged. If this parameter is set to a lower value, the RTTI service consumes more PDCH resources. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a higher value, there are excessive initial PDCHs, thus deteriorating the CS service performance. If this parameter is set to a lower value, there are insufficient PDCHs, thus deteriorating the PS service performance. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a higher value, CS services cannot preempt PS resources in busy hours. If this parameter is set to a lower value, channels are insufficient for basic PS services. BSC6900 V900R011
BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to "ON", the PS congestion rate is decreased and the PS service rate is increased. However, the MS attach and the delay of PDP context activation are affected. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a greater value (not 100), the PS throughout will be affected when the CS services are in idle state. If this parameter is set to a smaller value, the probability of channel preemption for CS service increases when the CS services boom. In this case, both CS service accessibility and PS service stability are affected. BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
If this parameter is set to a greater value, the PS throughout will be affected when the CS services are in idle state. If this parameter is set to a smaller value, the probability of channel preemption for CS service increases when the CS services boom. In this case, both CS service accessibility and PS service stability are affected. BSC6900 V900R011 If this parameter is set to "YES", PS services in other BTS-shared cells may be affected.
BSC6900 V900R011
If this parameter is set to "YES", PS services in the current cell may be affected.
BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a lower value, more MSs can access the network under the same network capacity but each MS obtains less air interface resources on average; if this parameter is set to a higher value, the access success rate in busy hours is affected. BSC6900 V900R012
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to "UNFIXED", a more suitable coding scheme can be dynamically selected according to the radio environment and thus the uplink GPRS rate may be increased. If this parameter is not set to "UNFIXED", the coding scheme cannot be selected dynamically according to the radio environment, and thus the uplink GPRS rate Versions earlier than may be decreased. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a higher value and the quality on the Um interface is poor, the speed of increasing the PS service rate is lower. If this parameter is set to a lower value and the quality on the Um interface is good, the speed of increasing the PS service rate is Versions earlier than lower. BSC6900 V900R011
Not involved The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment.
If this parameter is set to a higher value, the coding scheme of the uplink TBF is less likely to change from CS1 to CS2, and thus decreasing the service rate. If this parameter is set to a lower value, more data is retransmitted in CS2 coding scheme. As a result, the retransmitted data may still not be received, leading to repeated retransmissions Versions earlier than and decreased service rate. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a higher value, the coding scheme of the uplink TBF is less likely to change from CS2 to CS3, and thus decreasing the service rate. If this parameter is set to a lower value, more data is retransmitted in CS3 coding scheme. As a result, the retransmitted data may still not be received, leading to repeated retransmissions Versions earlier than and decreased service rate. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a higher value, the coding scheme of the uplink TBF is less likely to change from CS3 to CS4, and thus decreasing the service rate. If this parameter is set to a lower value, more data is retransmitted in CS4 coding scheme. As a result, the retransmitted data may still not be received, leading to repeated retransmissions Versions earlier than and decreased service rate. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a higher value, the coding scheme of the uplink TBF is less likely to change from CS2 to CS1. When the radio environment is poor, the MS may still fail to receive any data. As a result, multiple retransmissions are performed and thus decreasing the uplink rate. If this parameter is set to a lower value, more data is retransmitted in CS1 coding scheme. As a Versions earlier than result, the uplink rate is decreased. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a higher value, the coding scheme of the uplink TBF is less likely to change from CS3 to CS2. When the radio environment is poor, the MS may still fail to receive any data. As a result, multiple retransmissions are performed and thus decreasing the uplink rate. If this parameter is set to a lower value, more data is retransmitted in CS2 coding scheme. As a Versions earlier than result, the uplink rate is decreased. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a higher value, the coding scheme of the uplink TBF is less likely to change from CS4 to CS3. When the radio environment is poor, the MS may still fail to receive any data. As a result, multiple retransmissions are performed and thus decreasing the uplink rate. If this parameter is set to a lower value, more data is retransmitted in CS3 coding scheme. As a Versions earlier than result, the uplink rate is decreased. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to "UNFIXED", a more suitable coding scheme can be dynamically selected according to the radio environment and thus the downlink GPRS rate may be increased. If this parameter is not set to "UNFIXED", the coding scheme cannot be selected dynamically according to the radio environment, and thus the downlink GPRS Versions earlier than rate may be decreased. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a higher value and the quality on the Um interface is poor, the speed of increasing the PS service rate is lower. If this parameter is set to a lower value and the quality on the Um interface is good, the speed of increasing the PS service rate is Versions earlier than lower. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a higher value, the coding scheme of the uplink TBF is less likely to change from CS1 to CS2, and thus decreasing the service rate. If this parameter is set to a lower value, more data is retransmitted in CS2 coding scheme. As a result, the retransmitted data may still not be received, leading to repeated retransmissions Versions earlier than and decreased service rate. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a higher value, the coding scheme of the uplink TBF is less likely to change from CS2 to CS3, and thus decreasing the service rate. If this parameter is set to a lower value, more data is retransmitted in CS3 coding scheme. As a result, the retransmitted data may still not be received, leading to repeated retransmissions Versions earlier than and decreased service rate. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a higher value, the coding scheme of the uplink TBF is less likely to change from CS3 to CS4, and thus decreasing the service rate. If this parameter is set to a lower value, more data is retransmitted in CS4 coding scheme. As a result, the retransmitted data may still not be received, leading to repeated retransmissions Versions earlier than and decreased service rate. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a higher value, the coding scheme of the downlink TBF is less likely to change from CS2 to CS1. When the radio environment is poor, the MS may still fail to receive any data. As a result, multiple retransmissions are performed and thus decreasing the downlink rate. If this parameter is set to a lower value, more data is retransmitted in CS1 coding scheme. As a Versions earlier than result, the downlink rate is decreased. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a higher value, the coding scheme of the downlink TBF is less likely to change from CS3 to CS2. When the radio environment is poor, the MS may still fail to receive any data. As a result, multiple retransmissions are performed and thus decreasing the downlink rate. If this parameter is set to a lower value, more data is retransmitted in CS2 coding scheme. As a Versions earlier than result, the downlink rate is decreased. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a higher value, the coding scheme of the downlink TBF is less likely to change from CS4 to CS3. When the radio environment is poor, the MS may still fail to receive any data. As a result, multiple retransmissions are performed and thus decreasing the downlink rate. If this parameter is set to a lower value, more data is retransmitted in CS3 coding scheme. As a Versions earlier than result, the downlink rate is decreased. BSC6900 V900R011
Not involved The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a higher value, the information about PSI1 cannot be obtained promptly. If this parameter is set to a lower value, excessive system resources are occupied.
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to "NO", the MS does not send any measurement report to the network, thus reducing the traffic volume on the Um interface. If this parameter is set to "YES", the MS sends measurement reports to the network, thus increasing the traffic volume Versions earlier than on the Um interface. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to "NO", the network does not support the PACKET PSI STATUS message. If this parameter is set to "YES", the network supports the PACKET PSI STATUS message. When PACKET PSI STATUS and NACC are enabled simultaneously, cell reselection can be accelerated, thus shortening the period of PS Versions earlier than service disruption during cell reselection. BSC6900 V900R011
Not involved The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to "NO", the PFC and GBR QoS are not supported, and thus the GBR for the streaming service cannot be guaranteed. If this parameter is set to "YES", the GBR for the streaming service can be guaranteed, thus improving user experience.
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to "YES", the access delay is shortened.
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to "YES", the access delay is shortened.
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
This parameter, together with "Max. GBR for POC Service", is used to detect the POC service type. The setting of this parameter affects the correctness of POC service type detection. The value of this parameter must match the transmission delay configured at the CN.
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
This parameter, together with "Min. GBR for POC Service", is used to detect the POC service type. The setting of this parameter affects the correctness of POC service type detection. The value of this parameter must match the transmission delay configured at the CN.
The parameter modification has no impact on the equipment.
The setting of this parameter affects the transmission delay of the POC service. This parameter must match the transmission delay Versions earlier than configured at the CN. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to "YES", flexible QoS Versions earlier than can be provided for different users. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to Open, then the downlink PS services can be processed on the odd-numbered channels on the underlaid TRXs in the dual timeslot extended cell, and thus improve the downlink throughput. If this parameter is set to Close, then the packet services cannot be processed on the oddnumbered channels on the underlaid TRXs in Versions earlier than the dual timeslot extended cell. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to Yes, the MS in the GSM cell can be reselected to the 3G TDD neighboring cell. If this parameter is set to No, the MS in the GSM cell cannot be reselected Versions earlier than to the 3G TDD neighboring cell. BSC6900 V900R011
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to "Support", the POC service is provided. The network provides bandwidth guarantee for the POC service; therefore, the performance of other services may be affected if bandwidth resources are insufficient.
The parameter modification has no impact on the equipment.
If this parameter is set to "ON", the QoS of high-priority users is increased. However, highpriority users can preempt the streaming resources of low-priority users, and thus the Versions earlier than QoS of low-priority users is decreased. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to "ON", the number of retransmissions due to block loss is decreased, and thus the uplink PS throughput is increased. BSC6900 V900R011
The parameter modification has no impact on the equipment.
This parameter must be set on the basis of primary service type in a cell. If the downlinkpreferred service is the primary service in a cell, setting this parameter to Uplink Priority or Neutral Priority decreases the downlink PS throughput. If the uplink-preferred service is the primary service in the cell, setting this parameter to Downlink Priority or Neutral Priority decreases the downlink PS throughput. If the neutral service is the primary service in the cell, setting this parameter to Uplink Priority or Downlink Priority decreases the uplink and downlink PS Versions earlier than throughput simultaneously. BSC6900 V900R011
The parameter modification has no impact on the equipment.
The throughput of the GPRS service is affected.
Versions earlier than BSC6900 V900R011
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
The service data rate and service experience of users are priority-relevant, after the feature "PS Service in Priority" is activated. The higher the user priority, the higher the service data rate, and thus the better service experience, and vice versa. BSC6900 V900R012
The parameter modification has no impact on the equipment.
The impact of different MAC scheduling types on the performance is different. When "Round Robin Scheduling" is selected, the opportunity of users being scheduled is relatively even but the cell throughput and service delay are not optimal. When "Proportional Fair Scheduling" is selected, the delay of the service with small amount of data can be reduced. When "Scheduling Based on Carrier to Interference Ratio" is selected, the cell throughput can be highest but the user fairness is bad. BSC6900 V900R012
The parameter modification has no impact on the equipment.
The parameter setting affects the user experience for interactive services and background services. The higher the parameter value, the faster the increase in data rate of users, and thus the better user experience, but the guaranteed bit rate (GBR) for conversational services and steaming services is affected. BSC6900 V900R012
The parameter modification has no impact on the equipment.
The parameter setting affects the sensitivity of the rate filter algorithm to the instantaneous rate. The smaller the parameter value, the more sensitive of the rate filter algorithm to the current instantaneous rate, the more likely the filter rate may change abruptly, and vice versa. BSC6900 V900R012
The parameter modification has no impact on the equipment.
Not involved The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment.
If this parameter is set to a larger value, the RTT delay is longer, and thus the anti-jitter capability is better. If this parameter is set to a smaller value, the RTT delay is shorter, and thus the anti-jitter capability is worse. BSC6900 V900R012
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a higher value, the MS transmit power increases; if this parameter is set to lower value, the MS transmit power decreases.
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a higher value, the output power of the MS decreases; if this parameter is set to a lower value, the output power of the MS increases.
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a higher value, the influence of Cn-1 on Cn increases; if this parameter is set to a lower value, the influence of Cn-1 on Cn decreases.
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a higher value, the influence of Cn-1 on Cn increases; if this parameter is set to a lower value, the influence of Cn-1 on Cn decreases.
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a higher value, the transmit power of the BTS on the PBCCH/PCCCH/PTCCH is decreased, thus decreasing the inter-channel interference and the BTS power consumption. If this parameter is set to a lower value, the transmit power of the BTS on the PBCCH/PCCCH/PTCCH is increased, thus increasing the inter-channel Versions earlier than interference and the BTS power consumption. BSC6900 V900R011
The parameter modification has no impact on the equipment.
This parameter must be set to BCCH when the PS downlink power control is enabled.
The parameter modification has no impact on the equipment.
If this parameter is set to a lower value, the proportion of the history value in the interference measurement results decreases; if this parameter is set to a lower value, the proportion of the history value in the Versions earlier than interference measurement results increases. BSC6900 V900R011
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Enabling the downlink power control reduces the BTS power consumption and increases the system throughout.
The parameter modification has no impact on the equipment.
This parameter, together with "Code Scheme Stable Threshold", is used as the criterion, to determine whether the coding scheme is stable. The setting of this parameter may affect the frequency and sensitivity of power control. BSC6900 V900R011
The parameter modification has no impact on the equipment.
This parameter, together with "Code Scheme Statistics Threshold", is used as the criterion, to determine whether the coding scheme is stable. The setting of this parameter may affect the frequency and sensitivity of power control. BSC6900 V900R011
The parameter modification has no impact on the equipment.
This parameter determines the initial value for power attenuation. BSC6900 V900R011
BSC6900 V900R011
The parameter modification has no impact on the equipment.
This parameter, together with "Target CIR Offset", determines the effect of power control.
BSC6900 V900R011
The parameter modification has no impact on the equipment.
This parameter, together with "Target CIR Position", determines the effect of power control.
BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a higher value, the step of power adjustment is too large; if this parameter is set to a lower value, the step of power adjustment is too small.
BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
Higher power control precision indicates more smooth power control. In this manner, power overshoot is avoided or relieved. Similarly, lower power control precision indicates less smooth power control. BSC6900 V900R012
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a smaller value, the algorithm cannot realize fast power control. If this parameter is set to a greater value, the power control may be performed excessively, thus leading to poor quality, low level, and Versions earlier than ping-pong power control.. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a smaller value, the algorithm cannot realize fast power control. If this parameter is set to a greater value, the power control may be performed excessively, thus leading to poor quality, low level, and Versions earlier than ping-pong power control.. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a smaller value, the algorithm cannot realize fast power control. If this parameter is set to a greater value, the power control may be performed excessively, thus leading to poor quality, low level, and Versions earlier than ping-pong power control.. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a smaller value, the algorithm cannot realize fast power control. If this parameter is set to a greater value, the power control may be performed excessively, thus leading to poor quality, low level, and Versions earlier than ping-pong power control. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a smaller value, call drops may occur due to delayed power control; if this parameter is set to a greater value, the power control may be performed excessively, thus leading to ping-pong power Versions earlier than control. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a smaller value, call drops may occur due to delayed power control; if this parameter is set to a greater value, the power control may be performed excessively, thus leading to ping-pong power Versions earlier than control. BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a smaller value, the range of BTS dynamic power adjustment is decreased, and thus network interference is Versions earlier than difficult to be reduced. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a greater value, power control may not be performed in time. If this parameter is set to a smaller value, power control may be performed frequently, thus Versions earlier than increasing the signaling load. BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
The parameter modification has no impact on the equipment.
If this parameter is set to a greater value, power control may not be performed when the uplink level is high, thus causing the power waste and increasing the interference. If this parameter is set to a smaller value, downlink power control may be performed when the uplink power is low, in this way, call drops Versions earlier than may occur. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a greater value, uplink power control may be performed when the uplink level is high, thus causing the power waste and increasing the interference. If this parameter is set to a smaller value, power control may not be performed when the uplink power is low, in this way, call drops Versions earlier than may occur. BSC6900 V900R011
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a smaller value, downlink power control may not be performed when the voice quality is good, thus causing the power waste and increasing the interference. If this parameter is set to a greater value, downlink power control may be performed when the voice quality is bad, thus Versions earlier than affecting the voice quality. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a greater value, uplink power control may not be performed when the voice quality is bad, thus affecting the voice quality. If this parameter is set to a smaller value, uplink power control may be performed when the voice quality is good, thus causing the power waste and increasing Versions earlier than the interference. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a greater value, downlink power control may not be performed when the downlink level is high, thus causing the power waste and increasing the interference. If this parameter is set to a smaller value, downlink power control may be performed when the downlink power is low, in Versions earlier than this way, call drops may occur. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a greater value, uplink power control may be performed when the downlink level is high, thus causing the power waste and increasing the interference. If this parameter is set to a smaller value, power control may not be performed when the downlink power is low, in this way, call drops Versions earlier than may occur. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a smaller value, downlink power control may not be performed when the voice quality is good, thus causing the power waste and increasing the interference. If this parameter is set to a greater value, downlink power control may be performed when the voice quality is bad, thus Versions earlier than affecting the voice quality. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a greater value, uplink power control may not be performed when the voice quality is bad, thus affecting the voice quality. If this parameter is set to a smaller value, uplink power control may be performed when the voice quality is good, thus causing the power waste and increasing Versions earlier than the interference. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a smaller value, fast power control cannot be realized. If this parameter is set to a greater value, the power control may be performed excessively, thus Versions earlier than leading to call drops. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a smaller value, fast power control cannot be realized. If this parameter is set to a greater value, the power control may be performed excessively, thus Versions earlier than leading to call drops. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a smaller value, fast power control cannot be realized. If this parameter is set to a greater value, the power control may be performed excessively, thus Versions earlier than leading to call drops. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a smaller value, the algorithm cannot realize fast power control. If this parameter is set to a greater value, call Versions earlier than drops may occur. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a smaller value, call drops may occur due to delayed power control; if this parameter is set to a greater value, power waste may occur and network Versions earlier than interference may be increased. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a smaller value, call drops may occur due to delayed power control; if this parameter is set to a greater value, power waste may occur and network Versions earlier than interference may be increased. BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a smaller value, the dynamic power adjustment range for the BTS is decreased. This may cause power waste and increase network interference when the Versions earlier than downlink quality is good. BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a greater value, decrease power control may not be performed when the downlink level is high, thus causing the power waste and increasing the interference. If this parameter is set to a smaller value, decrease power control may be performed when the downlink power is low, in Versions earlier than this way, call drops may occur. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a greater value, increase power control may be performed when the downlink level is high, thus causing the power waste and increasing the interference. If this parameter is set to a smaller value, increase power control may not be performed when the downlink power is low, Versions earlier than in this way, call drops may occur. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If the parameter is set to a relatively great value, down power adjustment may not be performed when the downlink quality is good, thus causing power waste and increasing the interference. If this parameter is set to a relatively small value, down power adjustment may be performed when the downlink quality Versions earlier than is poor. In this case, call drops may occur. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If the parameter is set to a relatively great value, up power adjustment may be performed when the downlink quality is good, thus causing power waste and increasing the interference. If this parameter is set to a relatively small value, up power adjustment may not be performed when the downlink quality is poor. In this case, call drops may Versions earlier than occur. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If the parameter is set to a relatively great value, down power adjustment may not be performed when the downlink quality is good, thus causing power waste and increasing the interference. If this parameter is set to a relatively small value, down power adjustment may be performed when the downlink quality Versions earlier than is poor. In this case, call drops may occur. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If the parameter is set to a relatively great value, up power adjustment may be performed when the downlink quality is good, thus causing power waste and increasing the interference. If this parameter is set to a relatively small value, up power adjustment may not be performed when the downlink quality is poor. In this case, call drops may Versions earlier than occur. BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a relatively small value, the fast power control on the downlink cannot be implemented. If this parameter is set to a relatively great value, the power control may be performed excessively on the downlink, thus leading to poor quality, low level, and ping-pong power control.
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a relatively small value, call drops may occur due to delayed power control in the downlink. If this parameter is set to a relatively great value, the power control may be performed excessively on the downlink, thus leading to ping-pong Versions earlier than power control. BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a greater value, downward power control may not be performed when the voice quality is good, thus causing the power waste and increasing the interference. If this parameter is set to a smaller value, downward power control may be performed when the voice quality is bad, Versions earlier than thus affecting the voice quality. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a greater value, upward power control may be performed when the voice quality is good, thus causing the power waste and increasing the interference. If this parameter is set to a smaller value, upward power control may not be performed when the voice quality is bad, thus affecting the voice quality.
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
If the parameter is set to a relatively great value, down power adjustment may not be performed when the uplink quality is good, thus causing power waste and increasing the interference. If this parameter is set to a relatively small value, down power adjustment may be performed when the uplink quality is Versions earlier than poor. In this case, call drops may occur. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If the parameter is set to a relatively great value, up power adjustment may be performed when the uplink quality is good, thus causing power waste and increasing the interference. If this parameter is set to a relatively small value, up power adjustment may not be performed when the uplink quality Versions earlier than is poor. In this case, call drops may occur. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If the parameter is set to a relatively great value, down power adjustment may not be performed when the uplink quality is good, thus causing power waste and increasing the interference. If this parameter is set to a relatively small value, down power adjustment may be performed when the uplink quality is Versions earlier than poor. In this case, call drops may occur. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If the parameter is set to a relatively great value, up power adjustment may be performed when the uplink quality is good, thus causing power waste and increasing the interference. If this parameter is set to a relatively small value, up power adjustment may not be performed when the uplink quality Versions earlier than is poor. In this case, call drops may occur. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If the parameter is set to a relatively great value, down power adjustment may not be performed when the uplink quality is good, thus causing power waste and increasing the interference. If this parameter is set to a relatively small value, down power adjustment may be performed when the uplink quality is Versions earlier than poor. In this case, call drops may occur. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If the parameter is set to a relatively great value, up power adjustment may be performed when the uplink quality is good, thus causing power waste and increasing the interference. If this parameter is set to a relatively small value, up power adjustment may not be performed when the uplink quality Versions earlier than is poor. In this case, call drops may occur. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If the parameter is set to a relatively great value, down power adjustment may not be performed when the uplink quality is good, thus causing power waste and increasing the interference. If this parameter is set to a relatively small value, down power adjustment may be performed when the uplink quality is Versions earlier than poor. In this case, call drops may occur. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If the parameter is set to a relatively great value, up power adjustment may be performed when the uplink quality is good, thus causing power waste and increasing the interference. If this parameter is set to a relatively small value, up power adjustment may not be performed when the uplink quality Versions earlier than is poor. In this case, call drops may occur. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a relatively small value, the fast power control on the uplink cannot be implemented. If this parameter is set to a relatively great value, the power control may be performed excessively on the uplink, thus leading to poor quality, low level, and ping-pong power control.
The parameter modification has no impact on the equipment.
If this parameter is set to a relatively small value, call drops may occur due to delayed power control in the uplink. If this parameter is set to a relatively great value, the power control may be performed excessively on the uplink, thus leading to ping-pong power Versions earlier than control. BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a greater value, downward power control may not be performed when the voice quality is good, thus causing the power waste and increasing the interference. If this parameter is set to a smaller value, downward power control may be performed when the voice quality is bad, Versions earlier than thus affecting the voice quality. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a greater value, upward power control may be performed when the voice quality is good, thus causing the power waste and increasing the interference. If this parameter is set to a smaller value, upward power control may not be performed when the voice quality is bad, thus affecting the voice quality.
The parameter modification has no impact on the equipment.
If this parameter is set to a smaller value, downward power control is not performed when the signal quality is good, thus causing power waste and increasing the interference. If this parameter is set to a greater value, downward power control is performed even though the signal quality is bad, thus affecting Versions earlier than the speech quality. BSC6900 V900R011
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a greater value, upward power control may not be performed when the voice quality is bad, thus affecting the voice quality. If this parameter is set to a smaller value, upward power control may be performed when the voice quality is good, thus causing the power waste and increasing Versions earlier than the interference. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a greater value, decrease power control may not be performed when the downlink level is high, thus causing the power waste and increasing the interference. If this parameter is set to a smaller value, decrease power control may be performed when the downlink power is low, in Versions earlier than this way, call drops may occur. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a greater value, increase power control may be performed when the downlink level is high, thus causing the power waste and increasing the interference. If this parameter is set to a smaller value, increase power control may not be performed when the downlink power is low, Versions earlier than in this way, call drops may occur. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a smaller value, downlink power control may not be performed when the voice quality is good, thus causing the power waste and increasing the interference. If this parameter is set to a greater value, downlink power control may be performed when the voice quality is bad, thus Versions earlier than affecting the voice quality. BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment.
If this parameter is set to a greater value, uplink power control may not be performed when the voice quality is bad, thus affecting the voice quality. If this parameter is set to a smaller value, uplink power control may be performed when the voice quality is good, thus causing the power waste and increasing Versions earlier than the interference. BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
As the double antenna gain increases, the downlink power increases; as the double antenna gain decreases, the downlink power decreases.
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
If this parameter is set to a greater value, the effectiveness of power control is reduced, and thus the network interference can not be reduced effectively. If this parameter is set to a smaller value, call drops may occur due to Versions earlier than excessive power control. BSC6900 V900R011
The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment.
If this parameter is set to a greater value, the effectiveness of power control is reduced, and thus the network interference can not be reduced effectively. If this parameter is set to a smaller value, call drops may occur due to Versions earlier than excessive power control. BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
BSC6900 V900R011
Not involved
BSC6900 V900R011
Not involved
BSC6900 V900R011
Not involved
BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
BSC6900 V900R011
Not involved
BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
BSC6900 V900R011
Not involved
BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
In the same routing area, if this parameter is set to an excessive value, it is hard for cell reselection. If this parameter is set to a modest value, the frequent ping-pong reselection occurs.
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
Not involved The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
If this parameter is set to an excessive value, the period when cell reselection is prohibited increases. If this parameter is set to a modest value, the period when cell reselection is prohibited Versions earlier than decreases. BSC6900 V900R011
In different routing areas, if this parameter is set to an excessive value, it is hard for cell reselection. If this parameter is set to a modest value, the frequent ping-pong reselection occurs.
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
Not involved The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to an excessive value, the coverage area of the cell is large. The MS on the edge of the cell may not be able to access the system. If this parameter is set to a modest value, the coverage area of the cell is small. The usage Versions earlier than of cell resources decreases. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to an excessive value, the power consumption and radiation of the MS are high. If this parameter is set to a modest value, the Versions earlier than MS may not be able to access the channel. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If the priority is high, it is easy for the MS to select this cell during cell reselection. If the priority is low, it is difficult for the MS to select this cell during cell reselection.
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment.
If the threshold of HCS signal strength is high, it is difficult for the cell to be selected. If the threshold of HCS signal strength is low, Versions earlier than it is easy for the cell to be selected. BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
The switching from an intra-cell handover procedure to an assignment procedure shortens the duration of the intra-cell handover.
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
If this function is enabled after encryption is enabled, the network security can be improved.
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to YES, the speech quality is improved.
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
If this parameter is set to ON, the calls are handed over on schedule. This increases the load of the BSC but improves the network Versions earlier than security. BSC6900 V900R011 If this parameter is set to a smaller value, the Versions earlier than handover frequency is higher. BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this timer is set to a greater value, channel resources may be wasted, thus causing congestion.
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
Reduce the rate of call drop and improve the value of the KPI counters.
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a lower value, alarms are less likely to be generated, and thus the field engineers cannot be notified of the PS channel failure due to transmission resource failure in time. If this parameter is set to a higher value, excessive alarms are generated.
BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment.
If this parameter is set to a higher value, the judgment on PDCH out-of-synchronization is delayed, thus deteriorating the data transmitted on the PDCH. If this parameter is set to a lower value, intermittent link disconnection may be mistakenly considered as PDCH out-of-synchronization. BSC6900 V900R011
None
BSC6900 V900R012
None
BSC6900 V900R012
The parameter modification has no impact on the equipment.
None
BSC6900 V900R012
The parameter modification has no impact on the equipment.
None
BSC6900 V900R012
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a lower value, the tolerance of the network to uplink errors decreases and the probability of the frequent TBF release increases. If this parameter is set to a higher value, the abnormal TBF may occur (such as the MS has not received the message of current cell in the network caused by the MS activities, the network still assigns the uplink resources to the MS), the network cannot release this TBF, thus wasting the network resources. Based on the actual condition of existing network (for example, the N3101 overflow caused by the bad Um interface quality, the unstable transmission link quality, and the MS activities), you should properly adjust this parameter to ensure the uplink TBF does not abnormally release due to the frequent Versions earlier than overflow of the N3101. BSC6900 V900R011
Not involved The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment.
If this parameter is set to a lower value, the abnormal uplink TBF release increases caused by the overflow of the N3103. If this parameter is set to a higher value, the release time of the uplink TBF delays due to no response of the MS caused by the bad Um interface quality, thus occupying the link resources of system. Based on the actual condition of existing network (for example, the N3103 overflow caused by the bad Um interface quality, the unstable transmission link quality, and the MS activities), you should properly adjust this parameter to ensure the uplink TBF does not abnormally release due to the frequent Versions earlier than overflow of the N3103. BSC6900 V900R011 If this parameter is set to a lower value, the tolerance of the network to downlink errors decreases and the probability of the frequent TBF release increases. If this parameter is set to a higher value, the abnormal TBF may occur (such as the MS does not receive the message of current cell in the network caused by the MS activities, and the network still assigns the radio resources to the MS), the network cannot release this TBF, thus wasting the network resources. Based on the actual condition of existing network (for example, the N3105 overflow caused by the bad Um interface quality, the unstable transmission link quality, and the MS activities), you should properly adjust this parameter to ensure the downlink TBF does not abnormally release due to the frequent Versions earlier than overflow of the N3105. BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
BSC6900 V900R011
Not involved
BSC6900 V900R011
Not involved
BSC6900 V900R011
Not involved
BSC6900 V900R011
Not involved
BSC6900 V900R011
Not involved
BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
Not involved
BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
Not involved
BSC6900 V900R011
Not involved
BSC6900 V900R011
Not involved
BSC6900 V900R011
Not involved
BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
If this timer is set to a greater value, channel resources may be wasted, thus causing congestion. If this timer is set to a smaller value, the success rate of immediate assignment may decrease. If this timer is set to a greater value, channel resources may be wasted, thus causing congestion.
The parameter modification has no impact on the equipment.
If this timer is set to a greater value, channel resources may be wasted, thus causing congestion. If this timer is set to a smaller value, the handover success rate may decrease.
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this timer is set to a greater value, channel resources may be wasted, thus causing congestion. If this timer is set to a smaller value, the handover success rate may decrease.
Versions earlier than BSC6900 V900R011
Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
The parameter modification has no impact on the equipment.
If this parameter is set to a higher value, channel resources may be wasted and congestion occurs; if this parameter is set to a lower value, the assignment success rate may Versions earlier than decrease. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a greater value, channel resources may be wasted, thus causing congestion. If this parameter is set to a smaller value, the handover success rate Versions earlier than may decrease. BSC6900 V900R011
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a greater value, channel resources may be wasted, thus causing congestion.
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this timer is set to a greater value, channel resources may be wasted, thus causing congestion.
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this timer is set to a greater value, the radio resources are occupied for a too long time, thus affecting the channel resource usage. If this timer is set to a smaller value, the call Versions earlier than reestablishment success rate decreases. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a smaller value, the channel load may increase and the access Versions earlier than success rate may decrease. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a greater value, channel resources may be wasted, thus causing congestion.
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a greater value, channel resources may be wasted, thus causing congestion.
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
Not involved
None
BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
BSC6900 V900R011
Not involved The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
None
BSC6900 V900R011
None
BSC6900 V900R011
None
BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
None
BSC6900 V900R011
None
BSC6900 V900R011
None
BSC6900 V900R011
None
BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
Not involved
None
BSC6900 V900R012
Not involved
None
BSC6900 V900R012
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a greater value, the handover to micro cells becomes difficult, and congestion may occur in macro cells. If this parameter is set to a smaller value, unnecessary handovers are performed, thus Versions earlier than affecting the voice quality. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a greater value, the handover to micro cells becomes difficult, and congestion may occur in macro cells. If this parameter is set to a smaller value, unnecessary handovers are performed, thus Versions earlier than affecting the voice quality. BSC6900 V900R011
The parameter modification has no impact on the equipment.
This parameter limits the number of candidate cells. If this parameter is set to a greater value, some desired cells may be excluded from the candidate cells and call drops may occur. If this parameter is set to a smaller value, an unwanted cell may become the candidate cell, thus leading to handover Versions earlier than failures or call drops. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a greater value, it is difficult for the MS to be handed over to the original cell, thus leading to call drop when there is no suitable neighboring cell. If this parameter is set to a smaller value, the MS is likely to be handed over to the original cell Versions earlier than again, thus leading to ping-pong handovers. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a greater value, it is difficult for the MS to be handed over to the original cell, thus leading to call drop when there is no suitable neighboring cell. If this parameter is set to a smaller value, the MS is likely to be handed over to the original cell again, thus leading to ping-pong Versions earlier than handovers. BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a greater value, call drops may occur because the handover may not be performed timely. If this parameter is set to a smaller value, Versions earlier than unnecessary handovers may be performed. BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
If this parameter is set to a too small value, the corresponding cell may reject some handover requests; thus the traffic congestion on the neighboring cells with heavy traffic cannot be relieved. If this parameter is set to a too great value, Versions earlier than the corresponding cell may be overloaded. BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
This parameter is used to limit the number of candidate cells for handovers. If this parameter is set to a greater value, some desired cells may be excluded from the candidate cells, thus leading to call drops. If this parameter is set to a smaller value, an unwanted cell may become a candidate cell, Versions earlier than thus leading to handover failures. BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a greater value, some desired cells may be excluded from the candidate cells, thus leading to call drops. If this parameter is set to a smaller value, an unwanted cell may become a candidate cell, Versions earlier than thus leading to handover failures. BSC6900 V900R011
The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
Not involved
None
Versions earlier than BSC6900 V900R011
If this parameter is set to a too small value, the corresponding cell may reject some handover requests; thus the traffic congestion on the neighboring cells with heavy traffic cannot be relieved. If this parameter is set to a too great value, Versions earlier than the corresponding cell may be overloaded. BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
None
BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
None
BSC6900 V900R011
None
BSC6900 V900R011
None
BSC6900 V900R011
None
BSC6900 V900R011
None
BSC6900 V900R011
None
BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
None
BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to "SUPPORT" and the area covered by the GSM cell is larger than the area covered by the LTE cell, the success rate of GSM outgoing PS handover may decrease. BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
BSC6900 V900R012
The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
None
BSC6900 V900R012
None
BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
BSC6900 V900R011
Not involved The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
Not involved The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
None
BSC6900 V900R011
None
BSC6900 V900R011
None
BSC6900 V900R011
None
BSC6900 V900R011
None
BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
BSC6900 V900R011
None
BSC6900 V900R011
None
BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
Not involved The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
None
BSC6900 V900R011
None
BSC6900 V900R011
None
BSC6900 V900R011
None
BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
Not involved
BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
Versions earlier than BSC6900 V900R011
Not involved
None
Not involved
None
Not involved
None
Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
Not involved
None
Not involved The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011 Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
BSC6900 V900R012
None
BSC6900 V900R012
None
BSC6900 V900R012
None
BSC6900 V900R012
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment.
None
BSC6900 V900R012
The parameter modification has no impact on the equipment.
None
BSC6900 V900R012
The parameter modification has no impact on the equipment.
None
BSC6900 V900R012
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
BSC6900 V900R012
Not involved The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
Not involved
None
BSC6900 V900R012
Not involved
None
Versions earlier than BSC6900 V900R011
None
BSC6900 V900R011
None
BSC6900 V900R011
None
BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
BSC6900 V900R011
None
BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment.
The cell should be activated after the parameter modification. The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a higher value, more radio resources can be allocated to PS services, thus improving the PS performance. If this parameter is set to a lower value, less radio resources are allocated to PS services, Versions earlier than thus deteriorating the PS performance. BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
In terms of service support capability, the PDCH can be classified into EGPRSdedicated PDCH, EGPRS-preferred PDCH, common EGPRS PDCH, and GPRS PDCH. The EGPRS-dedicated PDCH can be allocated to only the EGPRS service. The EGPRS-preferred PDCH is preferentially allocated to the EGPRS service. When there is no EGPRS service, the EGPRS-preferred PDCH can also be allocated to the GPRS service. The common EGPRS PDCH can be allocated to both the EGPRS and GRPS services. The GPRS PDCH can be allocated to only the GRPS service. A reasonable planning of the PDCHs can prevent the GPRScapable MS and the EGPRS-capable MS from being multiplexed on the same PDCH, thus reducing the impact of uplink GRPS data scheduling on the downlink EGPRS Versions earlier than throughput. BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
Not involved The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment.
Not involved The parameter modification has no impact on the equipment.
The cell should be activated after the parameter modification.
None
Versions earlier than BSC6900 V900R011
The cell should be activated after the parameter modification.
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
The TRX is shut down automatically, and the capacity of the cell is decreased.
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
If the value of this parameter is set inappropriately high or small, the BTS cabinet top output power is inconsistent with the TRX Versions earlier than output power. BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The setting of this parameter must be consistent with the actual frequency reuse pattern of the TRX. Otherwise, the speech quality will be bad.
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
If the value of this parameter is set too small, frequent handovers are likely to occur.
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
If the value of this parameter is set too high, the power load of other timeslots or cells is burdened.
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
The parameter modification has no impact on the equipment.
Versions earlier than BSC6900 V900R011
Not involved
None
The parameter modification has no impact on the equipment.
If the value of this parameter is too high, the congestion control is delayed, which leads to deteriorated performance on the signaling link and certain messages may be lost. If the difference between the values of "CSTARTTHD" and "CENDTHD" is small, the signaling link is unstable and congestion control is performed frequently. In this case, Versions earlier than the paging messages may be abandoned. BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
Not involved
If this parameter is set too small, the congestion control duration is too long, and thus the transmission capability of signaling links cannot be fully used. If the difference between the values of "CSTARTTHD" and "CENDTHD" is small, the signaling link is unstable and congestion control is performed frequently. In this case, Versions earlier than the paging messages may be abandoned. BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The cell should be activated after the parameter modification.
If this parameter is set to "NO_FH", the antiinterference capability of the TRX is decreased.
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
Not involved
None
BSC6900 V900R012
Not involved
Not involved
BSC6900 V900R012
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
Not involved The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
None
BSC6900 V900R012
None
BSC6900 V900R012
The parameter modification has no impact on the equipment.
None
BSC6900 V900R012
The parameter modification has no impact on the equipment.
None
BSC6900 V900R012
The parameter modification has no impact on the equipment.
None
BSC6900 V900R012
The parameter modification has no impact on the equipment.
None
BSC6900 V900R012
The parameter modification has no impact on the equipment.
None
BSC6900 V900R012
The parameter modification has no impact on the equipment.
None
BSC6900 V900R012
The parameter modification has no impact on the equipment.
None
BSC6900 V900R012
The parameter modification has no impact on the equipment.
None
BSC6900 V900R012
The parameter modification has no impact on the equipment.
None
BSC6900 V900R012
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
Not involved The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
Not involved
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
Not involved The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
Not involved
The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
Not involved The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
Not involved The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
Not involved The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
BSC6900 V900R012
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
BSC6900 V900R012
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
None
BSC6900 V900R012
None
BSC6900 V900R012
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
BSC6900 V900R011
None
BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
Not involved
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
Not involved
Not involved
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
Not involved
Not involved
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
Not involved The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
Not involved The parameter modification has no impact on the equipment.
Not involved
None
BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
Not involved The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
Not involved
None
BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
Not involved
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
Not involved The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
Not involved
None
BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
Not involved
Not involved
Not involved
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
Not involved
None
BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
BSC6900 V900R012
None
BSC6900 V900R011
None
BSC6900 V900R011
None
BSC6900 V900R011
None
BSC6900 V900R011
None
BSC6900 V900R011
None
BSC6900 V900R011
None
BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
Not involved
None
BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
Not involved The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
Not involved The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The transport path should be re-established after the parameter modification.
None
The transport path should be re-established after the parameter modification.
If this parameter is set to "YES", the user with high QoS requirement may occupy a great number of PS resources. In this case, the remaining resources for other users reduce. As a result, the KPIs for these users become Versions earlier than bad. BSC6900 V900R011
The transport path should be re-established after the parameter modification.
If this parameter is set to "YES", the delay caused by cell reselection decreases.
BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
Not involved The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
Not involved The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
None
BSC6900 V900R012
Not involved
BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
Not involved
Not involved
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
When the neighboring 3G cell is configured and the inter-system cell reselection is enabled, the MS cannot receive the 2Quater message and thus cannot be reselected to the neighboring 3G cell if this parameter is set to NO.
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment.
None
The parameter modification has no impact on the equipment.
If this parameter is set to a greater value, TCHFs are preferentially selected even when congestion occur on the Ater interface, thus decreasing the system capacity. If this parameter is set to a lower value, TCHHs are selected when no congestion occur on the Ater interface, thus decreasing Versions earlier than the voice quality. BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
BSC6900 V900R011
None
BSC6900 V900R011
None
BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
None
BSC6900 V900R011
None
BSC6900 V900R011
None
BSC6900 V900R011
None
BSC6900 V900R011
None
BSC6900 V900R011
None
BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
Not involved
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a greater value, the accuracy of interference assessment in the IBCA algorithm may be reduced; if this parameter is set to a smaller value, the CPU occupancy for IBCA algorithm is increased.
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
If this parameter is set to a greater value, the accuracy of interference assessment in the IBCA algorithm may be reduced; if this parameter is set to a smaller value, the CPU occupancy for IBCA algorithm is increased.
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
BSC6900 V900R012
The parameter modification has no impact on the equipment.
None
BSC6900 V900R012
The parameter modification has no impact on the equipment.
None
BSC6900 V900R012
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
None
BSC6900 V900R012
None
BSC6900 V900R012
The parameter modification has no impact on the equipment.
None
BSC6900 V900R012
The parameter modification has no impact on the equipment.
None
BSC6900 V900R012
The parameter modification has no impact on the equipment.
None
BSC6900 V900R012
None
BSC6900 V900R012
None
BSC6900 V900R012
When this parameter is set to Open, the processing capacity of the DSP decreases.
BSC6900 V900R012
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment.
None
BSC6900 V900R012
The parameter modification has no impact on the equipment.
None
BSC6900 V900R012
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
None
BSC6900 V900R012
None
BSC6900 V900R012
The parameter modification has no impact on the equipment.
None
BSC6900 V900R012
The parameter modification has no impact on the equipment.
None
BSC6900 V900R012
The parameter modification has no impact on the equipment.
None
BSC6900 V900R012
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
Not involved
None
BSC6900 V900R011
Not involved
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
Not involved The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
Not involved The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
Not involved The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
Not involved
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
Not involved The parameter modification has no impact on the equipment.
Not involved
None
Versions earlier than BSC6900 V900R011
Not involved
None
BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
BSC6900 V900R011
Not involved The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
Not involved The parameter modification has no impact on the equipment.
None
BSC6900 V900R012
None
BSC6900 V900R012
Not involved
None
Versions earlier than BSC6900 V900R011
Not involved
None
BSC6900 V900R012
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
Not involved
None
BSC6900 V900R012
Not involved
None
Versions earlier than BSC6900 V900R011
Not involved The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
Not involved The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
BSC6900 V900R011
None
BSC6900 V900R011
None
BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification does not impact the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification does not impact the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
BSC6900 V900R012
The parameter modification has no impact on the equipment.
None
BSC6900 V900R012
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
Not involved
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The BSC should be reset to validate the parameter modification.
None
Versions earlier than BSC6900 V900R011
The BSC should be reset to validate the parameter modification.
None
Versions earlier than BSC6900 V900R011
The BSC should be reset to validate the parameter modification. The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
Not involved
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
Not involved The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
None
BSC6900 V900R012
None
Versions earlier than BSC6900 V900R011
None
BSC6900 V900R012
None
BSC6900 V900R012
None
BSC6900 V900R012
None
Versions earlier than BSC6900 V900R011
Not involved
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
Not involved The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment.
None
BSC6900 V900R012
None
BSC6900 V900R012
None
BSC6900 V900R012
None
BSC6900 V900R012
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
None
BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The radio link should be reestablished after the parameter modification.
If this parameter is set to ON, the acoustic echo can be cancelled to improve the speech quality. BSC6900 V900R012
The radio link should be reestablished after the parameter modification.
None
BSC6900 V900R012
The radio link should be reestablished after the parameter modification.
None
BSC6900 V900R012
The radio link should be reestablished after the parameter modification.
None
BSC6900 V900R012
The radio link should be reestablished after the parameter modification.
If this parameter is set to ON, the noise can be depressed automatically to improve the speech quality.
BSC6900 V900R012
The parameter modification has no impact on the equipment.
None
BSC6900 V900R012
The parameter modification has no impact on the equipment.
None
BSC6900 V900R012
The parameter modification has no impact on the equipment.
None
The parameter modification has no impact on the equipment. The radio link should be reestablished after the parameter modification.
None BSC6900 V900R012 If this parameter is set to ON, the voltage level can be adjusted automatically to improve the speech quality. BSC6900 V900R012
The radio link should be reestablished after the parameter modification. The radio link should be reestablished after the parameter modification. The radio link should be reestablished after the parameter modification. The radio link should be reestablished after the parameter modification.
BSC6900 V900R012
None
BSC6900 V900R012
None
BSC6900 V900R012
None
BSC6900 V900R012
None
BSC6900 V900R012
The radio link should be reestablished after the parameter modification.
The radio link should be reestablished after the parameter modification. The radio link should be reestablished after the parameter modification. The radio link should be reestablished after the parameter modification.
The radio link should be reestablished after the parameter modification.
The parameter modification has no impact on the equipment. The radio link should be reestablished after the parameter modification.
None
BSC6900 V900R012
None BSC6900 V900R012 If this parameter is set to ON, the noise can be compensated automatically to improve the speech quality. BSC6900 V900R012
None
BSC6900 V900R012
None
BSC6900 V900R012
None
BSC6900 V900R012
None
Versions earlier than BSC6900 V900R011
The radio link should be reestablished after the parameter modification.
If both TFO and AEC functions are enabled and the acoustic echo is detected, the TFO is disabled to cancel the echo so that the speech quality can be improved. BSC6900 V900R011
The radio link should be reestablished after the parameter modification.
None
BSC6900 V900R011
The radio link should be reestablished after the parameter modification.
None
BSC6900 V900R011
The radio link should be reestablished after the parameter modification. The parameter modification has no impact on the equipment.
If this parameter is set to OPEN, the speech quality can be improved when the signal strength is low on the air interface.
BSC6900 V900R011
None
BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
BSC6900 V900R012
The parameter modification has no impact on the equipment.
None
BSC6900 V900R012
None
BSC6900 V900R012
None
BSC6900 V900R012
None
BSC6900 V900R012
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment.
None
BSC6900 V900R012
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
None
BSC6900 V900R011
None
BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
None
BSC6900 V900R011
None
BSC6900 V900R011
None
BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
Not involved The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
Not involved The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
Not involved
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Not involved
Versions earlier than BSC6900 V900R011
Not involved
Not involved
Versions earlier than BSC6900 V900R011
Not involved The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
Not involved
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment.
The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
Not involved
None
Versions earlier than BSC6900 V900R011
None
BSC6900 V900R012
None
BSC6900 V900R012
None
BSC6900 V900R012
None
BSC6900 V900R012
None
BSC6900 V900R012
None
BSC6900 V900R012
None
BSC6900 V900R012
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
Not involved
Not involved
The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment. The parameter modification has no impact on the equipment.
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
None
Versions earlier than BSC6900 V900R011
Attribute
Equipment
Transport
Transport
Transport
Transport
Transport
Transport
Transport
Transport
Transport
Transport
Transport
Transport
Equipment
Transport
Transport
Transport
Transport
Equipment
Transport
Equipment
Transport
Equipment
Transport
Transport
Transport
Equipment
Equipment
Radio
Radio
Equipment
Radio
Radio
Radio
Equipment
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Equipment
Equipment
Equipment
Equipment
Equipment
Radio
Radio
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Transport
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Transport
Transport
Transport
Equipment
Transport
Transport
Transport
Transport
Equipment
Equipment
Transport
Transport
Transport
Transport
Transport
Transport
Equipment
Transport
Transport
Equipment
Transport
Transport
Equipment
Transport
Transport
Transport
Transport
Equipment
Equipment
Equipment
Equipment
Equipment
Transport
Equipment
Equipment
Equipment
Equipment
Equipment
Radio
Radio
Radio
Equipment
Equipment
Transport
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Transport
Transport
Equipment
Transport
Transport
Transport
Transport
Transport
Transport
Transport
Transport
Transport
Transport
Transport
Transport
Transport
Transport
Transport
Transport
Transport
Transport
Transport
Transport
Transport
Transport
Radio
Radio
Radio
Radio
Radio
Equipment
Equipment
Equipment
Equipment
Equipment
Radio
Radio
Equipment
Radio
Radio
Equipment
Radio
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Radio
Equipment
Equipment
Radio
Equipment
Equipment
Equipment
Equipment
Equipment
Transport
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Radio
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Radio
Equipment
Equipment
Equipment
Equipment
Equipment
Radio
Equipment
Equipment
Equipment
Radio
Equipment
Radio
Radio
Radio
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Radio
Radio
Radio
Radio
Radio
Transport
Transport
Transport
Transport
Transport
Transport
Transport
Transport
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Transport
Transport
Transport
Transport
Transport
Transport
Transport
Equipment
Equipment
Equipment
Equipment
Equipment
Radio
Equipment
Radio
Radio
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Transport
Transport
Equipment
Transport
Transport
Equipment
Transport
Equipment
Equipment
Transport
Radio
Equipment
Equipment
Equipment
Equipment
Transport
Equipment
Radio
Radio
Radio
Equipment
Equipment
Equipment
Equipment
Equipment
Transport
Transport
Equipment
Equipment
Equipment
Equipment
Transport
Transport
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Radio
Radio Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Radio
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Radio
Equipment
Equipment
Radio
Radio
Radio
Radio
Radio
Equipment
Transport
Radio
Equipment
Equipment
Equipment
Equipment
Equipment
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Radio
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
Equipment
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