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Table Of Contents 1
INTRODUCTION...........................................................................................................................................3
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SYSTEM RELATED INFORMATION........................................................................................................3 2.1 2.2
3
SYSTEM RELATED INFORMATION........................................................................................................4 3.1 3.2 3.3
4
MO DESCRIPTION.......................................................................................................................................3 DESCRIPTION OF THE MO STATES............................................................................................................3 MANAGED OBJECT HIERARCHY................................................................................................................4 BLOCKING OF MO'S...................................................................................................................................4 DEBLOCKING OF MO'S..............................................................................................................................5
BTS MAINTENANCE....................................................................................................................................6 4.1 4.2 4.3 4.4
INTERNAL ALARM......................................................................................................................................6 EXTERNAL ALARM....................................................................................................................................6 STATUS OF MOS.........................................................................................................................................6 BTS ALARM HANDLING.............................................................................................................................6
5
HISTORICAL STORAGE OF QUALITY DATA OF A DIGITAL PATH................................................7
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ANNEXE..........................................................................................................................................................8
Figures Figure 1: MO-State Overview..................................................................................................................................3 Figure 2: Managed Object (MO) hierarchy for RBS 2000 series.............................................................................4
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Introduction
The aim of this manual is to give the NMC department an overview of the most used commands , related to the BSS subsystem , while dealing with the maintenance procedures .
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System Related Information
2.1 Mo description MO TG CF CON IS TF DP TRXC RX TX TS
MO class Transceiver Group Central Function LAPD Concentrator Interworking Switch Timing Function Digital Path Transceiver Controller Receiver Transmitter Time Slot
MO type RXOTG RXOCF RXOCON RXOIS RXOTF RXODP RXOTRX RXORX RXOTX RXOTS
2.2 Description of the MO States The figure below shows an overview of the different states the BSC/TAS 1-MOs can have in the procedure of blocking/deblocking and bring them into and out of service.
Figure 1: MO-State Overview
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TAS Transceiver Administration Subsystem Page 3 sur 8
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Automatically (auto in Figure 1) means that the operation is automatically performed by the BSC.
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System Related Information
3.1 Managed Object Hierarchy The Managed Objects CF, TF, DP, CON and IS corresponds to the hardware unit DXU in the BTS. The Managed Objects TRX, TX, RX and TS corresponds to the hardware unit TRU in the BTS. The Managed Object TG has no corresponding hardware in the BTS.
Figure 2: Managed Object (MO) hierarchy for RBS 2000 series
3.2 Blocking of MO's Defined MOs are brought out of service with command RXESE. Blocking of a TG shall be performed in the order stated below. Please note that XX is the TG number and the example is for a cell which has two TRxs ( 0 & 1 ). RXBLI:MO=RXOTG-XX; RXESE:MO=RXOTG-XX; RXBLI:MO=RXOCF-XX; RXESE:MO=RXOCF-XX; RXBLI:MO=RXOCON-XX; RXESE:MO=RXOCON-XX;
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RXBLI:MO=RXOIS-XX; RXESE:MO=RXOIS-XX; RXBLI:MO=RXOTF-XX; RXESE:MO=RXOTF-XX;
RXBLI:MO=RXODP-XX-0; ! The same command for RXODP-XX-1 if exist ! RXESE:MO=RXODP-XX-0; ! The same command for RXODP-XX-1 if exist ! RXBLI:MO=RXOTRX-XX-0&1; RXESE:MO=RXOTRX-XX-0&1; RXBLI:MO=RXOTX-XX-0&1; RXESE:MO=RXOTX-XX-0&1; RXBLI:MO=RXORX-XX-0&1; RXESE:MO=RXORX-XX-0&1; RXBLI:MO=RXOTS-XX-0-0&-7; RXESE:MO=RXOTS-XX-0-0&-7; RXBLI:MO=RXOTS-XX-1-0&-7; RXESE:MO=RXOTS-XX-1-0&-7;
3.3 Deblocking of MO's Defined MOs are brought into service with command RXESI. Deblocking of a TG shall be performed in the order stated below. Please note that XX is the TG number and the example is for a cell which has two TRxs ( 0 & 1 ). RXESI:MO=RXOTG-XX; RXBLE:MO=RXOTG-XX; RXESI:MO=RXOCF-XX; RXBLE:MO=RXOCF-XX; RXESI:MO=RXOCON-XX; RXBLE:MO=RXOCON-XX; RXESI:MO=RXOIS-XX; RXBLE:MO=RXOIS-XX; RXESI:MO=RXOTF-XX; RXBLE:MO=RXOTF-XX;
RXESI:MO=RXODP-XX-0; ! The same command for RXODP-XX-1 if exist ! RXBLE:MO=RXODP-XX-0; ! The same command for RXODP-XX-1 if exist ! RXESI:MO=RXOTRX-XX-0&1; RXBLE:MO=RXOTRX-XX-0&1; RXESI:MO=RXOTX-XX-0&1; RXBLE:MO=RXOTX-XX-0&1; RXESI:MO=RXORX-XX-0&1; RXBLE:MO=RXORX-XX-0&1;
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RXESI:MO=RXOTS-XX-0-0&-7; RXBLE:MO=RXOTS-XX-0-0&-7; RXESI:MO=RXOTS-XX-1-0&-7; RXBLE:MO=RXOTS-XX-1-0&-7;
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BTS Maintenance
Faults occurring in the BTS which permanently affect the normal operation of the equipment, will be detected by the software and are reported to the alarm handling block in the BSC. We can distinguish between internal and external alarms.
4.1 Internal Alarm To print Internal Alarm, execute the command : RXASP : MO=RXOTG-XX;
The code of the fault of each MO (those which have faults ) are reported in the printout above. More details about the alarms code can be founded in the Annex.
4.2 External Alarm To print External Alarm, execute the command : ALLIP;
To specify only alarms related to BTS execute the command : ALLIP : PRCA=53;
4.3 Status of MOs To check status of MOs execute the command : RXMSP: MO= mo; To print MO fault status of MOs execute the command : RXMFP: MO= mo;
4.4 BTS alarm handling
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Whenever a BTS alarm is issued, we should check if the fault is permanent or not by performing a test on the faulty equipment. The OPI Radio X-ceiver Administation Manged Object Fault is to be used as the first step in locating the cause of a fault. 1. Print MOs fault information : RXMFP: MO= mo; 2. Manually block the faulty equipment : RXBLI: MO= mo; ! You can use parameter force to force the blockage ! 3. Test the faulty MO.
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Historical Storage of Quality Data of A Digital Path
If there is are any alarms issued regarding signalling and transmission Network to BTS, or there is a doubt of the good performance of the concerned digital, an Historical Storage of Quality Data can be initiated per DIP (Let's take RBLT-YY). Please follow the procedure below to activate the storage of quality data per DIP. 1. To see the DIP status : DTSTP:DIP=RBLT-XX; The status should be WORKING, if there is a problem in the link, then the status will be different, for example Automatically Blocked (ABL). 2. To see the quality of the DIP : DTQDP: DIP=RBLT-XX; 3. To initiate a storage of the historical quality data for the dip XX , execute the command in periods of 15 minutes! DTQHI: DIP=RBLT-XX; To initiate a storage of the historical quality data for the dip XX , in periods of 15 minutes! DTQDP: DIP=RBLT-XX; ! Print the historical data that had been stored! Please notice that the values T1 and T2 (inteval time can change ), but if the indicators (ES , ESS , SES, UAS, UASB, UASR,SFV, SFTI) are different than the value zero that mean the the link is bad in term of quality.
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Annexe
Fault Code List.
Lists the Mo Fault Map on the Abis interface.
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