3G Flexi WCDMA BTS, Overview, Installation, Commissioning & Integration.
Nokia Siemens Networks Flexi WCDMA BTS OVERVIEW
Nokia Flexi WCDMA Base Station Revolutionary site concept
Multimode Nokia UltraSite EDGE BTS & 19” rack Installation
Wall installation
Pole installation
Pile/Floor installation
New way to build your 3G network • Fits Nokia UltraSite EDGE BTS cabinet – easier site acquisition • Faster, more economic roll-out • Modularity with OBSAI - the future proof multi-radio BTS architecture • Up to 60% lower energy consumption Fits practically anywhere • Small size and light weight • A few module types can meet all site needs New level of environmental performance • Less BTS sites required • Superior energy efficiency • Safe use of material
Nokia Flexi WCDMA Base Station Small and Modular Wide Area high capacity WCDMA/HSPA BTS in micro BTS size 422/560 mm • Up to 12 carriers, 6 sectors • Typical 43W output power • Remote channel capacity upgrade and
HSPA activation Modular structure enables flexible expansions – Radio and System modules as building blocks – Optional AC Power supply & back-up and Transmission Hub module
133mm (3U)
447mm (19” rack) Less than 21kg Outdoor –33 to + 55C, IP55
Optimized Antenna Line
•
Integrated power feed and control for Mast Head Amplifier and Antenna Tilt 2+2+2 BTS Less than 63kg
Modular BTS, installation options For indoor/outdoor use > IP 55 Installation options: Floor Wall, Multiple units on wall Rack Stand or pole Cabinet Feederless (RAS05.1: 190 m / later: 15km)
Nokia Flexi WCDMA BTS tackles site related costs
How much can you save?
OPEX • Power • Site rent • Remote capacity provisioning CAPEX • Site implementation • Site construction • Transmission
• Antenna system • Power system
Nokia Flexi WCDMA BTS Improved BTS Site CAPEX and IMPEX Shelter / equipment room can be avoided by outdoor BTS installation. Modular, small and light BTS minimizes also required civil work cost Antenna line civil work and component cost can be minimized by locating BTS close to the antennas (maximizes also cell capacity) In indoor installations additional air conditioning is not needed due to low power consumption
Antenna Line 1 - 30 k€
Shelter 14 k€
Air conditioning 4 k€
Equipment Room 8 k€
RF Module
Optional Front and Back covers
External Interfaces of RF Module (Figure without the Casing)
Antenna 4 Antenna 3 Antenna 2 Antenna 1
RF Module Variants RF Module variants supported in WN3.2 • FRGC: Flexi RF Module 2.1 GHz, Dual 50 W FRGD: Flexi RF Module 2.1 GHz, Single 50 W • FRIA: Flexi RF Module 1.7/2.1 GHz, Dual 50 W FRIB: Flexi RF Module 1.7/2.1 GHz, Single 50 W RF Module variants supported in WN3.3 • FRCA: Flexi RF Module 850 MHz, Dual 50 W FRCB: Flexi RF Module 850 MHz, Single 50 W • FRDA: Flexi RF Module 900 MHz, Dual 50 W FRDB: Flexi RF Module 900 MHz, Single 50 W • FREA: Flexi RF Module 1700 & 1800 MHz, Dual 50 W FREB: Flexi RF Module 1700 & 1800 MHz, Single 50 W • FRFA: Flexi RF Module 1900 MHz, Dual 50 W FRFB: Flexi RF Module 1900 MHz, Single 50 W
RF module Tx and Rx antenna connectors (WBTS5.0) Rx
Ant 2
Tx and Rx
Ant 1
FRxB/D Tx and Rx antenna connectors (Single PA = one pip Rx
Ant 4
Tx and Rx
Ant 3
Rx
Ant 2
Tx and Rx
Ant 1
Tx
Tx FRxA/C Tx and Rx antenna connectors (Dual PA = two pipe-PA) Rx
&
Rx
Ant5
Rx
Rx
Rx
Ant6
&
Tx
Ant4
Ant3
& Rx
Ant2
Ant1
FRxx Tx and Rx antenna connectors (Triple PA = three pipe-PA)
Flexi System Module + Transport sub-module
System module Power supply module is responsible for the distribution of 48VDC throughout the BTS
Transmission sub module for termination of the BTS transmission
Power Distribution Assembly
FSP WSPC WSPC
TRS SubModule
RF Mod I/F SUM & MUX
Control and Clock generation unit and the EAC, clock I/O ethernet distribution interface
Control MCU + Clock gen.
EAC, Clock I/O, Eth
Summing and Multiplexing unit and up to three signal processing sub assemblies (FSPA’s). The signal processing units are similar to the WSPC unit
RF Mod I/F
Three Optical Interface units for RF module interfacing
RF Mod I/F
BB Extension I/F
FCM
Baseband Extension interface to second system module • Two hardware versions of the system module are available •FSMA – has only one FSPA unit and a processing capacity of 64 channel elements •FSMB – has three FSPA’s and a processing capacity of 192 channel elements • The units are identical except that the extension module does not require the transmission module • In extension mode only the baseband processing capacity of the extension module is used
System module - Release 2 •
Core assembly (new parts in blue) – – – – – –
• •
1xFCMD Clock & Control sub-assembly 1-3xFSPC BB sub-assembly Core mechanics sub-assembly 1xFPFB power sub-assembly 1xFAN sub-assembly (same as rel1) Connection cards (same as rel1 – except FPF-FCM connection card)
1xCasing: (same as rel1) 1xFTM: Transmission module (rel1 FTM is compatible) – New FTM is developed for WBTS5.0 (not in SM2 program scope)
Three SM R2 variants supported: • FSMC, 1 FSPC, 216 CE (WBTS5.0) • FSMD, 2 FSPC, 432 CE (WBTS5.0) • FSME, 3 FSPC, 648 CE (tentatively in WBTS5.0) Compatibility • FCMD, FSPC and core mechanics is not SM1 compatible • SM1 re-used parts, FPFB and FTM is SM1 compatible • SM2 is compatible with RFM1 and RFM2 • SM2 HW is LTE capable – same HW for LTE 1.0 SW release
System Module R2 (FSMC/D/E) FSMC/D/E Y** and product contains FCMD/FSPC (FSMC/D/E X** old protos contain FCMC/FSPB)
FlexiTransport Overview
FTEB (RAS05.1)
FTPB (RAS05.1)
FTOA (RAS05.1ED
FTJA (RAS06)FTIA (RAS05.1)FTFA (RAS05.1)
Transport Sub-modules
Module name
Interfaces
Availability
Remarks
FTPB
8xE1/T1/JT1
RAS05.1
120/110/100Ω, RJ48c
FTEB
8xE1 coaxial
RAS05.1
75Ω, SMB
FTOA
1xSTM1/OC3
RAS05.1 ED
1xSFP, LC equipped
FTFA
2xFlexbus
RAS05.1
TNC
FTIA
4xE1/T1/JT1 2xFast Ethernet, 1xGE
RAS05.1 Ethernet supported in RAS06
Optional Gigabit Ethernet interface (SFP) RJ48C, RJ45, SFP (LC)
FTJA
4xE1 coaxial 2xFast Ethernet, 1xGE
RAS06
Optional Gigabit Ethernet interface (SFP) SMB, RJ45, SFP (LC)
Flexi Power Module FPMA Example configuration with: 1 x Flexi Power Module FPMA • 3 Flexi Power AC/DC sub-modules FPAA (230VAC -> 48VDC) • 1 Flexi Power Battery FPBA
48VDC output to BTS
+ -
AC input cabling to FPMA
AC feed to FPAA (3pcs)
Nokia Flexi WCDMA Base Station Modularity is the key
Base band Processing OBSAI Interface
OBSAI Interface
Control
OBSAI Interface
OBSAI Interface
Radio RF OBSAI Interface
Transport Transmission Source: OBSAI
Modularity with open OBSAI compatible interfaces enables Faster time to market Economies of scale Future proofness
OBSAI reference architecture System module FC M
FS P FC M
FT M
FP F
FC M
OBSAI is multistandard (WCDMA/FDD, WCDMA/TDD, GSM/EDGE, …) • RP1: Clocks & Synchronization + Ethernet (control/management) • RP2: 100M or 1Gbit Ethernet (physically same as RP1 c/m) • RP3: OBSAI specified protocol, 768/1536/3072Mbps ) serial bus 8B/10B encoded with embedded clock. Frame structure optimized for air interfaces • 48V power supply for all blocks/units
HW Unit comparison between platforms Nokia UltraSite/MetroSite(50) WCDMA BTS
Nokia Flexi WCDMA BTS RF modules:
• FRxy Flexi RF Module Dual 50 W • FRxy Flexi RF Module Single 50 W • Frequency variant (x): C = 850, D= 900, E =1700 or 1800, F = 1900, G=2100, I = 1700/2100 • Number of carriers per RF module (y): A = 2 carriers, dual 50W B = 1 carrier, single 50W C = 2 carriers, dual 50W / 2100 D = 1 carrier, single 50W / 2100
• • • • • •
WAFA/B/I/J/H/G/M/N/T/W WPAI/J/C/D/H/K/M, WMPA/C/M WTRB/C/D/G WICA, WOCA/C WFCA/B/C/D, WUCM/A/B Bias-T
System modules:
Baseband units:
• FSMA System module 1 FSP • FSMB System module 3 FSP
• WAMA, WSMB, WSCA, WSPC, WMCM, WPSE
Transmission sub-modules:
Transmission units:
• FTOA, FTPB, FTEB, FTFA, FTIA, FTJA
• AXUA/B, AXCC/D, IFUA, IFUC, IFUD, IFUE, IFUF
Nokia Flexi WCDMA BTS Build Up by Modules RF MODULE: - Modulator - Channelizer - Analog RF processig - Power Amplifier (integr.) - Antenna filter (integr.)
Optional Outdoor cabinet Two PA RF Module
Two PA RF Module
Two PA RF Module Optical interfaces between the modules
Optional Extension System Module (RAS05.1 ED)
BTS System Module AC (Optional)
AC-> DC
BBU
SYSTEM MODULE: - C-plane processing + centralised timing - U-plane processing + multiplexing & summing - Ethernet switching - Transport processing - External interfaces - Power Distribution
Site upgrade path to 2+2+2
(2nd of 2)
Cost Optimized Configuration COC (WN3.3) TX1 & RX1
Sector 1 Div RX1
Sector 3
TX1 & RX1 Div RX1
•
1+1+1 @ 20/40 W
50 W 30 PA TX TX 12
50 W 30 PA
TX1 & RX1
TXTX 34
TXTX 12
•
•
2nd Carrier SW Licence (RAS06)
2 x 50 W RF Module Sector 1 •
50 W RF Module the same RF cabling
•
1+1+1 40 2+2+2@ @20 20W W 40W Licence + 40 WPower SW Licence •
with minimum 3-sector RF Module configuration
•
Div RX1
50 W 30 PA
-> 2+2+2 @ 20 W
•
Sector 2
2x50 W RF Module
Sector 2
50 W RF Module
Sector 3
no site visits
Tx/Rx Carrier Centre Frequency Spacing = 5MHz
BTS System Module
Capacity upgrade path to 4+4+4 (2nd of 2) Upgrade Optimized Configuration UOC (WN5.0) Carrier TX1& TX3 & RX4 Div RX2 & RX3 RX1
50 W PA TX 1
TX 2
& TX4 Carrier TX2
50 W PA TX 3
& RX3 Div RX1 & RX4 RX2
TX 4
•40W 40W Power License Power License
1x40 W (WN5.0) +
•2nd Carrier License
Sector 1 (2 and 3 identical) •
4+4+4 @ 20 W 2+2+2 @ 40WW 1+1+1 @ 3+3+3 @40 2x20
(WN5.0)
1+1+1 @ 20/40 W -> 2+2+2 @ 20/40 W -> 3+3+3 @ 20 W
-> 4+4+4 @ 20 W •
with minimum 3-sector RF Module configuration •
three 2 x 50 W RF Modules
•
the same RF cabling
Sector 1
2x50 W RF Module
Sector 2
2x50 W RF Module
Sector 3
no site visits
BTS System Module
Tx/Rx Carriers 1…4 inside 20 MHz subband
Optional BB Extension System Module
→ •
2x50W RF Module
Nokia Siemens Networks Flexi WCDMA BTS Installation
Objectives After the completion of this chapter, the participant will be able to:
• Examine a Nokia Siemens Flexi WCDMA BTS for correct installation
Work Order Handling the modules and unpacking the
delivery Preparing the modules for installation Installing the stand-alone BTS on the floor Fixing adapter mechanics to plinth
Mounting the stand-alone BTS on the wall Mounting the stand-alone BTS on the pole Installing modules inside Nokia cabinet Installing optional modules Installing transmission sub-module Grounding the BTS Connecting external power feed
Handling the Modules and unpacking delivery When handling the modules, always use the antistatic wrist strap as shown in the Connecting the antistatic wrist strap figure below. The cabinet must be grounded, otherwise the antistatic wrist strap will not work. Refer to Grounding the BTS section.
ESD ANTI-STATIC WRIST STRAPS SHOULD BE WORN WHEN HANDLING ANY UNIT WHICH DISPLAYS THE ESD LOGO
Handling the Modules and unpacking delivery
After mounting the Plinth, attach the site ground.
Unpack and check the delivery System Module Front and Rear covers External Cable Entry System Module
Unpack and check the delivery RF Module
Front and Rear covers External Cable Entry RF Module
Preparing the modules for installation Rear Cover Fix the module back cover with two screws.
Preparing the modules for installation External Cable Entry
Fix the two external cable entries with four screws.
Supported Configurations
Clearances
Anchoring the plinth on the floor Without maintenance Space
With maintenance Space
Recommended installation order
Check that the plinth is installed correctly.
Actual stacking configuration may vary
Installing modules on the floor
Installation example: modules on the floor
Fixing adapter mechanics to plinth
Adapter mechanics brackets are installed on the plinth in wall and pole installations
Mounting the stand-alone BTS on the wall
A plinth is required for mounting the modules on a wall Check that the plinth adapter mechanics are installed as instructed in Fixing adapter mechanics to plinth section.
Mounting a second plinth on the wall
Mounting the modules on a wall
One mounting plinth per two modules is installed on a wall. Refer to Mounting the plinth on a wall for plinth installation instructions.
Mounting the stand-alone BTS on the pole
NOTE: There are different lengths of bolts and places for bolts in the bracket.
Mounting the plinth on a pole
Recommended module installation order
• Do not install more than two modules per plinth • The modules must be installed with front panels facing left or right. Do not install modules so that the front panels face up or down.
Mounting the modules on the wall or pole 1 Tip Line up the locating marks in the module to help aligning the holes with fixing studs.
4 Tip Use the markings in the module to help aligning the holes with fixing studs.
Installing modules inside Nokia cabinet Flexi Outdoor Cabinet FCOA
5U
14U
5U
14U
1260
Flexi Indoor Cabinet FCIA
690 Front view
Installing optional modules Flexi power module (FPMA) consists of connector blocks and four slots for AC/ DC sub-module (FPAA) or battery sub-module (FPBA).
FPMA can include:
. two FPAAs and two FPBAs . three FPAAs and one FPBA . one FPAA and three FPBAs . one FPAA and three free slots for expansion.
Grounding the BTS
When modules are installed inside a cabinet, separate module grounding is not required.
If the BTS has more than one plinth (for example in wall or pole installations), connect the main ground to one of the plinths and ground all the modules to that plinth.
Nokia Siemens Networks Flexi WCDMA BTS Commissioning & Integration
What should be do before Commissiong & integration? What should I have befor Commissioning?
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Tests Calls
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Thanks !