Telecom Implementation Guideline-WCDMA
Site Solutions For internal use 1 © Nokia Siemens Networks
FSMD
FMFA
Product overview
FSIA
FSEC/S
For internal use 2 © Nokia Siemens Networks
Presentation / Author / Date
FPKA
FRGP
Node B Weight & Dimensions Property Height
Width
Depth
Weight
FPMA OVP System Module Triple RF Module SIMO/F SIA/FIS M 133 mm/3U (5.2 133 mm/3U (5.2 85.7mm/ 133 mm/3U 155 mm 2U (6.1 in.) in) in) (5.2 in) 1 U = 44.46 mm 1 U = 44.46 mm (1.75 in) (1.75 in) 447 mm (17.6 in) 447 mm (17.6 in) 447 mm (17.6 in) with casing with casing
1 U = 44.46 mm (1.75 in) 447 mm 95 mm (17.6 in) with (3.7 in.) casing 490 mm (19.3 in) 490 mm (19.3 in) 490 mm (19.3 in) with with front cover with front cover front cover 422 mm (16.6 in) 422 mm (16.6 in) 422 mm 155 mm (16.6 in) (6.1 in.) without covers without covers without covers 560 mm (22.0 in) 560 mm (22.0 in) 300 mm 560 mm (11.8in) (22.0 in) with with covers with covers covers FSMB: 19 Weight with 2.7 kg (5.9 lbs) With alluminium 11Kg FPAA&FPBA kg(41.9 lb) (without TRS casing: 25kg (55.1 casing: 28kg Sub module) lb) (61.9 lb) FSMC/D:18.5 kg(40.8 lb) FSME: 19 kg(41.9 lb) TRS sub module :max. 4 kg(8.8lb)
For internal use 3 © Nokia Siemens Networks
Plinth 69 mm (2.7 in) 455 mm (17.9 in) 459 mm (18.1 in)
7.0 kg (15.4 lb)
System Module Two Version of System Modules Offered :
FSIA (SIMO) : Indoor Version System Module without RF Module Power distribution. FSIA
FSMD : Outdoor Version System Module with RF/Extension Module Power distribution. FSMD
For internal use 4 © Nokia Siemens Networks
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External interfaces
FSIA/FSMD Dimension
Transmis sion PIU
2 HU
FSIA 1-2Extension Dimension : 447mm (W) X 300mm (D) X 89mm(H) PIU
Rack Unit Height : 2U FSMD
Optical RP3-01 to RFUnits and Extension module
Dimension : 490 mm (W) X 560 mm (D) X 133mm (H) (With Covers) Dimension : 447 mm (W) X 422 mm (D) X 133mm (H) (Without Covers) Rack Unit Height : 3U
Capacity FSIA
Step1 (base module):250CE Step2 (base module+1 extension board): 500CE FSMD Multimode System Module, 500 Channel Elements HW, 396 CE for traffic Use For internal use 5 © Nokia Siemens Networks
/
30 cm
Transmission Module FTIA/FTIB/FTFB is part of system module, which is handling transmission interfaces for WCDMA Flexi BTS.
FTFB For internal use 6 © Nokia Siemens Networks
Presentation / Author / Date
RF Module
RF Module The RF Module are stand-alone fully operational transceiver modules with integrated antenna filters. RF Modules host the RF Functionality and provide control and power supply to Flexi Antenna Line. Radio-Related (Modulation, Channelization, Analog RF Processing, Power Amplifier , Antenna Filter) processing is performed in the Module. The RF Module are able to support three sectors in a Flexi WCDMA base station, this type of RF Module is Known as Triple RF Module. For internal use 7 © Nokia Siemens Networks
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FRGP Dimension Dimension : 490 mm (W) X 560 mm (D) X 133mm (H) (With Covers) Dimension : 447 mm (W) X 422 mm (D) X 133mm (H) (Without Covers) Rack Unit Height : 3U Triple RF Module. Three Transceivers with Tx for two Carriers. Three Transceivers with Rx for two Carriers. Three Linear Power amplifiers in the Triple RF Module. Three RF Filters with Main and Diversity Branch. “FRGP“ is Triple RF Module for 2100MHz
FRGP For internal use 8 © Nokia Siemens Networks
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For internal use 9 © Nokia Siemens Networks
Pole Mounting kit
Flexi pole mounting kit . The Flexi pole mounting kit is designed for poles between 60 mm (2.4 in.) and 120 mm (4.7 in.).
For internal use 10 © Nokia Siemens Networks
FSES Overview • FSES is an over voltage protection device. FSES is used to protect Flexi Units in
case of indirect lightning strike. • FSES is used in DC input when the input line is more than 2 meters. This is the case in feeder less site solutions. Cabinet installations or stack installations are not the main stream for FSES. • FSES is used in LTE, WCDMA and GSM/EDGE • Protection level of FSES is 15kA. - estimated weight of the FSES (1000g,may be slight over 1000g) - estimated size of the product package for FSES(160mmx160mmx200mm)
For internal use 11 © Nokia Siemens Networks
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(FMFA) Flexi Mounting Kit for Floor, Wall and Pole Flexi BTS modules are installed on the floor, wall or pole using Flexi Mounting kit for Floor, Wall and Pole (FMFA). The plinth is required in BTS site installations without a Cabinet and it provides grounding points for BTS and module grounding. The maximum number of modules in a stack is nine (maximum total height 22 U). In floor mounting, the plinth is fixed directly onto the floor for earthquake Zone 4 requirement. In wall mounting, the plinth is fixed onto the wall either by using adapter mechanics or directly to the wall. The maximum number of modules per plinth is two. If using FMFA, in pole mounting the plinth is fixed onto a pole mounting kit (VMPB or FPKA) by using adapter mechanics. The maximum number of modules per plinth is two. The FMFA delivery includes two fixing plates for the casings. Used in pole and wall installations, the plates are attached across two module casings on both sides of the Modules.
FMFA
For internal use 12 © Nokia Siemens Networks
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For internal use 13 © Nokia Siemens Networks
19” SUPPORT PLATE FOR FIXING SYSTEM/RF MODULE
For internal use 14 © Nokia Siemens Networks
3G BTS Solution Concept S.No Scenario 1
Deployment Scenarios
Scenario 1 OD Distributed BBU + RRU (Node B inside the Existing Outdoor Transmission Rack/ OD Flexi BTS & tripple RF Module on Pole)
2
Scenario 2 OD Classic On RTT (System Module & Tripple RF Module on Pole)
3
Scenario 3 ID Distributed (System Module Inside Existing Transmission rack / Flexi BTS & Tripple RF Module on Pole)
4
Scenario 4 OD Classic On Pole (System Module & Tripple RF Module on Pole with feeders)
5
Scenario 5 ID Distributed with Antenna Swap (System Module inside the existing Transmission rack & tripple RF Module on Pole )
6
Scenario 6 ID Classic (System & RF Module Inside the Shelter in the existing Transmission Rack)
7
Scenario 7 ID Distributed (System Module inside the shelter Transmission rack / Flexi BTS & Single RF Module 3 Diff POles)
8
Scenario 8 OD Distributed (System Module inside OD Transmission rack / Flexi OD BTS & Single RF Module on 3 Diff Poles)
9
Scenario 9 OD Distributed ( Sys Module & 1 RRU on Pole and Single RRU RF Unit on 2 Diff poles)
For internal use 15 © Nokia Siemens Networks
Presentation / Author / Date
Indoor Classic in 19” Rack
For internal use 16 © Nokia Siemens Networks
Presentation / sanjay majumder
Indoor Classic in 19” Rack
System Module & RF module Installed on a 19” Rack Inside the Existing Shelter .
System Module & RF module WCDMA Video call Testing Procedure installed together. RF Module connected to the system Module through the Optical FSFx
RF Module Power connectivity done through System module.
For internal use 17 © Nokia Siemens Networks
Presentation / Sanjay Majumder
System Module Power connectivity done through the DCDB box.
WCDMA Video call Testing Procedure External Cabling Diagram
For internal use 18 © Nokia Siemens Networks
Presentation / Sanjay Majumder
For internal use 19 © Nokia Siemens Networks
Internal Cabling Diagram System Module & RF module Installed Inside the Existing Shelter on a 19” Rack.
System Module & RF WCDMA Video call Testing Procedure module installed together.
System Module Power connectivity done through the DCDB box.
FIU (only for Flexi Hopper) has installed on existing 19” transmission rack.
All internal equipments properly Installation grounded 3G Elements through IGB.
Place
For internal use 20 © Nokia Siemens Networks
Presentation / Sanjay Majumder
Indoor System Module (ISM)
19'' Transmission Rack
Triple RF Module
19'' Transmission Rack
FIU (only for Flexi Hopper)
19'' Transmission Rack
Twin Diplexer
Ladder
Indoor Distributed in 19” Rack
For internal use 21 © Nokia Siemens Networks
Presentation / sanjay majumder
Indoor Distributed in 19” Rack System Module Installed Inside the Shelter in existing 19” Rack.
RF Module installed on Tower Top Tower Leg (Tubular)/Pole.
WCDMA Video call Testing Procedure RF Module has mounted on Pole through VPMB/FPKA.
RF Module has connected to the system Module through the Optical FSFx.
For internal use 22 © Nokia Siemens Networks
Presentation / Sanjay Majumder
RF Module Power connectivity through FSEC/S (OVP) from PDU. Two OVP installed (one inside the shelter near system module and other with RF module.
WCDMA Video call Testing Procedure External Cabling Diagram
RF Module installed on Tower Top Tower Leg (Tubular)/Pole.
RF Module mounted on Pole through VPMB/FPKA.
RF Module connected to the system Module through the Optical FSFx.
RF Module Power connectivity through FSEC/S (OVP) from PDU.
OVP installed with RF module casing.
For internal use 23 © Nokia Siemens Networks
Presentation / Sanjay Majumder
Internal Cabling Diagram
System Module Installed Inside the Shelter in the existing 19” Rack.
WCDMA Video call Testing Procedure System Module Power
connectivity done through DCDB box.
FIU (only for Flexi Hopper) has installed on existing 19” transmission rack.
RF Module is connected to the system Module through the Optical FSFx.
All internal equipments properly grounded through IGB.Installation 3G Elements
Place
Indoor System Module (ISM)
For internal use 24 © Nokia Siemens Networks
Presentation / Sanjay Majumder
19'' Transmission Rack
Triple RF Module
Tower Top Mount/Platform
Twin Diplexer for Indoor Site
Ladder
FIU (only for Flexi Hopper)
19'' Transmission Rack
NSN solution: Node B Outdoor BBU+ RRU S1/1/1 DC Requirement: existing OD sites-Space required on outdoor foundation for IP55 rack installation (800x800mm) (part of 1800*1200 OD Platform) O/D sites-Duct or cable tray required from shelter or Power plant to existing 2G OD BTS for laying of Power & PCM cable OD sites- EGB with 2 nos hole along with nut and bolt is required. Provision of grounding in tower top 63A-1no. MCB required for power taping of IP55 rack (back end BB/PP/DG/AC up-gradation is IP’s responsibility and they are expected to complete the same before offering the site RFI) Additional GSM pole(60-120 mm Dia.) required at the at the height where TTSL existing 2G GSM antenna are mounted. This is for mounting of RRU Space required for Power & OFC cable routing in HCT &VCT 15U IP 55 Rack
Optical cable + DC power cable
System module For internal use 25 © Nokia Siemens Networks
RF module
NSN solution– Pole solution S1/1/1 DC Pole solution Requirement: MCB 32A-1no. 16A-1no. Required (back end BB/PP/DG/AC up-gradation is IP’s responsibility and they are expected to complete the same before offering the site RFI) Provisioning of 2nos Holes with nut& bolt in IGB & EGB Existing pole should be (60-120 mm Dia.) if not then new pole required Entire NodeB on The Pole Remarks : a)if all GSM antenna install in single pole (dia 60mm-120mm) then no pole required for BTS mounting b) GSM Antenna mount in different location then cable tray required for feeder cable routing
For internal use 26 © Nokia Siemens Networks
With Outdoor System module
Site Requirements-Node B Grounding
• Main grounding (earthling) is tested within last 3 months. • The earthling (grounding) resistance target of the BTS site is ≤ 10 Ω . • The cross-sectional area of the Main Earthling Conductor shall not be smaller than live (L) and neutral never less than 6 mm2.
Power
For internal use 27 © Nokia Siemens Networks
Node B Delivery Package
For internal use 28 © Nokia Siemens Networks
Presentation / Author / Date
Delivery contents of the System Module (FSMD)
For internal use 29 © Nokia Siemens Networks
Presentation / Author / Date
Delivery content of RF Module (FRGP)
RF Module (including casing and fan subassembly) 1. 2.0 meter long IP55 protected outdoor cable for 48 V DC 2. 3. 2.0 meter long IP55 protected outdoor multimode optical system cable
4. 4.)
• 4 Gbps OBSAI optical RP3 - 01 support • UL & DL in the same cable pair Two pluggable SFP optical transceivers, one to System Module and other to RF Module. SFP optical transceiver
1.)
(SFP=Small Form factor Pluggable)
3.) Optical cable , 2m
SFP IP rating = IP55 with connector rubber gaskets
2.)
DC cable , 2m
Note: For FXxx rel. 2.2 RF modules EMHA Flexi EDGE Mech. Module 3U has to be used for installations w/o cabinet FMHAincludes front and rear covers, mounted cable tunnels, screws, and ground cable(s) For internal use 30 © Nokia Siemens Networks
Delivery contents of Plinth(FMFA)
For internal use 31 © Nokia Siemens Networks
Presentation / Author / Date
Pole Mounting kit Delivery content (FPKA)
For internal use 32 © Nokia Siemens Networks
Presentation / Author / Date
Delivery Content FMCA
Flexi mounting covers for back and front are optional 3U (FMCA) module covers that are required in installations without a cabinet. The primary functions of the covers are to provide protection against winddriven rain, visual protection, and mechanical NOTE: FMCA required for BBU+RRU type installation to protection of RF module and pole classic Type Installation to protection of RF module &system module both For internal use 33 © Nokia Siemens Networks
Presentation / Author / Date
NODE B SDR FORMAT
Microsoft Excel Worksheet
For internal use 34 © Nokia Siemens Networks
Install System Module FSIA
For internal use 35 © Nokia Siemens Networks
FSIA Cabling
For internal use 36 © Nokia Siemens Networks
Presentation / Author / Date
SFP Installation 1. Take out the IP seal from the System Module and the RF Module and Insert the SFP in to the slots. Note SFP supply with RF module
For internal use 37 © Nokia Siemens Networks
Presentation / Author / Date
Optical Cable Connection
For internal use 38 © Nokia Siemens Networks
Presentation / Author / Date
Install System Module (FSMD)
1. Remove the fixing studs from the Module Casings. Remove the Cable support plates from the casings. Loosen the Module fixing screws. 2. Then connect the FCM-FTM card supplied with the TRS sub module. Align and guide the TRS sub module on System Module. 3. Connect the ESD wrist strip with cabinet and wear it before proceeding for the Modules installation.
For internal use 39 © Nokia Siemens Networks
Installation of Transmission Sub Module (FSMD)
Align the Transmission Sub module with the Guide Pins in the System module and push the TRS Sub module in place.
NOTE:-If your TRS is either FTIA, FTIB, FTJA, or FTOA, do one of the following: • FTIA/FTIB: insert a SFP Ethernet transceiver (not included in the delivery) into the GE slot. • FTJA: Insert the SFP transceiver to the EIF1 slot. • FTOA: Insert the SFP SDH transceiver to the FTOA. The SFP transceiver is optional for the FTIA, FTIB and FTJA, and mandatory for the FTOA.
For internal use 40 © Nokia Siemens Networks
DC Power Cabling in FSMD PREPARE AND CONNECT THE POWER CABLE AT +VE AND –VE TERMINATION POINT RESPECTIVELY
For internal use 41 © Nokia Siemens Networks
Install RF Module (FRGP) inside Cabinet
Install the RF module Below system Gap between System module and RF module 1U Insert the RF Module along with the casing inside the cabinet and tighten properly with screws. Connect RF module GND cable with cabinet Grounding Connect the power cable & route properly Install SFP and connect optical cable Connect the Jumper cable and route both site according specification
For internal use 42 © Nokia Siemens Networks
For internal use 43 © Nokia Siemens Networks
Presentation / Author / Date
Mounting RF Module on Pole
For internal use 44 © Nokia Siemens Networks
Presentation / Author / Date
FSES installation (OVP) • FSES is installed to the side of 3U height casing • Installing the power cables – Input into 3 pole screw terminal – Output from 2m length cable with Multibeam DC connector – No need to open the lid fast and easy installation
For internal use 45 © Nokia Siemens Networks
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Draft Assembly Drawing of FSES
For internal use 46 © Nokia Siemens Networks
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OVP Installation
3. Connect the grounding cable (GND).
4. Cut the DC cable included in the delivery close to the connector, strip it as necessary to reveal the black and blue wires and connect the wires as shown in figure. 5. Connect the other end of the DC cable to the RF Module.
For internal use 47 © Nokia Siemens Networks
For internal use 48 © Nokia Siemens Networks
For internal use 49 © Nokia Siemens Networks
For internal use 50 © Nokia Siemens Networks
For internal use 51 © Nokia Siemens Networks
For internal use 52 © Nokia Siemens Networks
For internal use 53 © Nokia Siemens Networks
Jumper cable Routing of RRU Route the Jumper cable with standard bending radius and secure properly with Panduit cable tie
Note: 5meters Jumper connect from between nearest Antenna to RF module and other Antenna to RF Module 7Meters Jumper
For internal use 54 © Nokia Siemens Networks
Presentation / Author / Date
GENRAL GUIDELINE OF iNSTALLATION
For internal use 55 © Nokia Siemens Networks
Presentation / Author / Date
• TI ACTIVITIES INVOLVED IN NODE B • • • • • • • • • • • • • •
1. collect TSSR Report from the Project Coordinator 2. Filling the Site Survey Report. 3. Raising the SDR based on physical Site Survey. 4. Preparing the Layout of the Site. 5. SDR to be checked by the NSN person 6. Checking the delivery of material. (any shortage) 7. Installation of Flexi BTS. 8. Commissioning Flexi BTS. 9. Making the material Re-consolation Report. 10. Self assessment of the Site execution. (SQI) 11. Preparation of Site Folder. 12. Clearing The Punch Point of Self Assessment. 13. Offering the Site for AT.
For internal use 56 © Nokia Siemens Networks
TTSL Ver 002
ANTENNA AND FEEDERLINE INSTALLATION - GENERAL PRECAUTIONS
Storing cables indoors is recommended Be careful with the RF cable during transportation, protect the cable from physical damage, sharp bending, crushing, water ingress, etc. Check the cable ends before installation Protect the drum/cable ends after cutting; preferably by heat shrinkable rubber cap Grounding kits: sealing class IP 67. Follow the manufacturers installation instructions carefully in order to obtain a good water seal and avoid damage to the cable. Use proper tools for preparing the RF cable for the connectors. This saves time and results in better performance terminations. Do not over-tighten grounding kits and cable fixing clamps as this will damage the cable! Be prepared: have the right tools for the job!
For internal use 57 © Nokia Siemens Networks
TTSL Ver 002
ANTENNA LINE
Feeder bending radius FEEDER TYPE REPEATED
REPEATED BENDING RADIUS
SINGLE BENDING RADIUS
RF 1 5/8”
500mm
250mm
RF 1 1/4”
350mm
200mm
RF 7/8”
250mm
120mm
RF 1/2”
160mm
80mm
RFF 1/2” RFF 3/8”
For internal use 58 © Nokia Siemens Networks
30m m 25m m
TTSL Ver 002
BENDING RADIUS PER FEEDER TYPE
eeder Type
MINIMUM SINGLE BENDING RADIUS
MINIMUM REPEATED
BENDING RADIUS
3/8”-50
13 mm
25 mm
1/2”-50
15 mm
30 mm
1/2”-50
80 mm
7/8”-50
120 mm
1 1/4”-50
200 mm
1 5/8”-50
250 mm
160 mm 250 mm 350 mm 500 mm
NOTE: Given values are for NK Cables feeder cables, other manufacturers’ may have different values, check the proper values before implementation from manufacturer’s data sheets For internal use 59 © Nokia Siemens Networks
TTSL Ver 002
DISTANCE FOR FEEDER CLAMPS
Cable Type
Support Distance Spacing Max Preferred
1 /2” Feeder
1000mm
1000mm
7/8” Feeder
1000mm
1000mm
1-5/8” Feeder
1000mm
1000mm
NOTE: Given values are for NK Cables feeder cables, other manufacturers’ may have different values, check the proper values before implementation from manufacturer’s data sheets
For internal use 60 © Nokia Siemens Networks
TTSL Ver 002
ANTENNA AND FEEDERLINE INSTALLATION
INSTALLATION Verify that antenna supports/poles are installed and in right location. Check the delivered antennas & installation hardware are correct and complete. Fix the down tilt kits to the antenna. Hoist the antenna up to the antenna support. Note: when hoisting antenna in foul weather conditions, it is necessary to control antenna movement to avoid damage. Use ropes etc. Install the antennas on the antenna support exactly vertical or with a specified offset. Use the data specified in the BTS Site Installation Parameters to set the antenna height, vertical/horizontal separation, direction and down tilt. Connect one end of the antenna jumpers to the antennas, leaving the opposite ends open. Note: the open ends should be protected from moisture. Clamp/tie the jumpers to the antenna support. Secure the antenna fixing clamps with the DOUBLE LOCK NUTS provided.
For internal use 61 © Nokia Siemens Networks
TTSL Ver 002
ANTENNA AND FEEDERLINE INSTALLATION GENERAL PRECAUTIONS NOT OK
TAKE CARE OF: • MINIMUM BENDING RADIUS • MAXIMUM PULLING FORCE • CORRECT DRUM HANDLING • CORRECT TOOL/CABLE HANDLING • ORDINARY CABLE FIXING • COMPLETE WATER PROOFING
NOT OK
• TIGHTENING OF CABLE CLAMPS • TIGHTENING OF THE RF CONNECTORS. All RF connectors must be properly tightened with an appropriate torque spanner!!
For internal use 62 © Nokia Siemens Networks
TTSL Ver 002
FIXING RF FEEDER CLAMPS - ANTENNA
INSTALLATION
TAKE CARE OF sharp edges ! Recommended clamp distance for cables 1/2” to 1 5/8” is 1000 mm Keep the rows of RF clamps together and to one side of the cable ladder Do Not tighten the cable clamps TOO TIGHT causing damage to the cables and giving high return loss measurement results Take care NOT TO DROP plastic cushions
For internal use 63 © Nokia Siemens Networks
TTSL Ver 002
AND FEEDERLINE
Lugs should be out side busbar
For internal use 64 © Nokia Siemens Networks
TTSL Ver 002
Already three operator installed feeder cable no space Available in cable tray and left and right edge of cable trey and back side of the cable trey. So feeder clamp can be installed in back side of side edge the of the cable trey ( Site: Kartika complex)
For internal use 65 © Nokia Siemens Networks
TTSL Ver 002
Jumper and Feeder Routed With Maintaining Proper Bending Radius
For internal use 66 © Nokia Siemens Networks
TTSL Ver 002
ANTENNA LINE
Antenna jumper cable installation The distance clamps for jumper cables is about 500mm It is vitally important that the internal and external jumper cables have to be supported securely. For the 1.5m jumper, minimum 2 (two) points of support are to be used, and for the 3m jumpers, minimum 4 (four) points.
1.5m jumper, used 2 securing points ( at least )
For internal use 67 © Nokia Siemens Networks
TTSL Ver 002
ANTENNA LINE
Antenna jumper cable installation NOT OK
OK
OK 3 meter Jumper
For internal use 68 © Nokia Siemens Networks
3 meter Jumper
NOT OK
Jumper Cables have to be installed as straight as possible. Avoid additional bendings. Follow manufacturers bending instructions. Proper tools have to be used during jumper installation. All cables have to be fixed properly. Prefabricated jumpers have to be used always when possible. On existing sites most practical solution should be used. Think about future. TTSL Ver 002
ANTENNA LINE
Antenna jumper cable installation O K
NOT OK
O K
OK 1.5meter Jumper
For internal use 69 © Nokia Siemens Networks
1.5meter Jumper
NOT OK
Jumper Cables have to be installed as straight as possible. Avoid additional bendings. Follow manufacturers bending instructions. Proper tools have to be used during jumper installation. All cables have to be fixed properly. Prefabricated jumpers have to be used always when possible. On existing sites most practical solution should be used. Think about future. TTSL Ver 002
Jumper Cables routing both sides
For internal use 70 © Nokia Siemens Networks
TTSL Ver 002
Surge Arrestors installation
For internal use 71 © Nokia Siemens Networks
TTSL Ver 002
ANTENNA LINE
RF connector position
Connector body must not be in contact with cable ladder. Position connectors between the ladder rungs or insulate the ladder rung with rubber sheeting. For internal use 72 © Nokia Siemens Networks
TTSL Ver 002
RF CABLE GROUNDING KITS
C a b l e E a r t h i n g K it
F e e d e r C a b le L C F6 6 / " 6, 6 / " 6, 6 - 6 / " 6, 6 - 6 / "
C r im p T e r m i n a l T in P la t e d C o p p e r L u g 1. 1m m d ia m e t e r ( M 1)
G r o u n d i n g W i r e 'T a il ' C a b l e 1 11m m 6 6 m6 m f ix e d le n g h t For internal use 73 © Nokia Siemens Networks
TTSL Ver 002
FEEDER CABLE GROUNDING KITS The grounding kit must always be positioned on the straight part of feeder cable and never on a bend or curve in the cable. Grounding kit's earthing cable can be cut or extended to make grounding cable connection to bar as straight as possible.
Feeder Cable
Ground Cable to Main Site Ground System
Feeder Cable
Up instead of Down!
Upside Down!
On Cable Bend! Loops!
For internal use 74 © Nokia Siemens Networks
TTSL Ver 002
FEEDER GROUNDING AT ANTENNA Feeders have to be grounded after antenna jumper connection All feeder grounding kits have to be connected to feeder grounding bar Antenna Jumper Cable or Antenna Connector Jumper Cable or Antenna Connector
External Jumper
(Normally11 . m, - see Appendix 1)
Earthing Kit
RF Cable Earthing Kit
d
Alternative Orientation for Grounding Bar
Ground Cable (Tail) 111mm long
111mm < d < 1111mm Grounding Bar Ground Cable to Main Site Ground System
Ground Cable to Main Site Ground System
Feeder Cable Note: Grounding bar should be fixed directly to the tower where the tower is itself the main ground down-conductor!
For internal use 75 © Nokia Siemens Networks
TTSL Ver 002
FEEDER GROUNDING bar
FEEDER GROUNDING AT BOTTOM OF TOWER Feeders have to be grounded approx. 200-1500mm before horizontal bending All feeder grounding kits should be connected to a feeder grounding bar or other suitable earth point. Feeder Cable
Earthing Kits
RF Cable Earthing Kit Alternative Orientation for Grounding Bar (beside cable ladder)
d 111mm < d < 1111mm
FEEDER GROUNDIN G bar
For internal use 76 © Nokia Siemens Networks
Ground Cable to Main Site Ground System
TTSL Ver 002
Grounding Bar
(behind cable ladder)
Ground Cable to Main Site Ground System
Note: Grounding bar should be fixed directly to the tower where the tower is itself the main ground down-conductor!
Feeders - Feeder entry and grounding kits
For internal use 77 © Nokia Siemens Networks
TTSL Ver 002
FEEDER CABLES INSTALLATION WEATHER PROOFING
WEATHER PROOFING NEEDED
All ourdoor antenna line connections, grounding kits and wall entries have to be weather proofed. Connections where weather proofing is needed: • Feeder to feeder • Feeder to antenna • Feeder to EMP (if located outdoor)
BTS
Grounding kits have to be sealed according to manufacturer instructions. Wall feed through have to be properly sealed. Ensure that all connectors are on correct torque before sealing!
For internal use 78 © Nokia Siemens Networks
TTSL Ver 002
ANTENNA LINE
Feeder to Antenna, Combiner or MHA connection 1. CONNECTION TO BE TAPED USING APPROVED TYPE OF INSULATION TAPE 2. CONNECTION TO BE TAPED USING APPROVED TYPE OF SELF AMALGAMATING TAPE 3. CONNECTION TO BE TAPED USING APPROVED TYPE OF INSULATION TAPE CABLE TIE 5 0
2 0
1. ONE WRAPS OF INSULATION TAPE (OVERLAPPING 50%)
For internal use 79 © Nokia Siemens Networks
3. THREE WRAPS OF INSULATION TAPE (OVERLAPPING 50%)
TTSL Ver 002
2. TWO STRETCH WRAPPED WRAPS OF SELF AMALGAMATING TAPE (STRETCH 30%, OVERLAPPING 50%)
FEEDER TO FEEDER CONNECTION 1. CONNECTION TO BE TAPED USING APPROVED TYPE OF INSULATION TAPE 2. CONNECTION TO BE TAPED USING APPROVED TYPE OF SELF AMALGAMATING TAPE 3. CONNECTION TO BE TAPED USING APPROVED TYPE OF INSULATION TAPE
2 0
5 0
5 0
2 0
1. ONE WRAP OF INSULATION TAPE (OVERLAPPING 50%)
For internal use 80 © Nokia Siemens Networks
2. TWO STRETCH WRAPPED WRAPS OF SELF AMALGAMATING TAPE (STRETCH 30%, OVERLAPPING 50%) TTSL Ver 002
3. THREE WRAPS OF INSULATION TAPE (OVERLAPPING 50%)
ANTENNA LINE
Feeder to EMP connection 1. CONNECTION TO BE TAPED USING APPROVED TYPE OF INSULATION TAPE 2. CONNECTION TO BE TAPED USING APPROVED TYPE OF SELF AMALGAMATING TAPE 3.2 CONNECTION TO BE TAPED USING APPROVED TYPE OF 2 INSULATION 5 CABLE 5 0 0 0 0 TIE TAPE
1. ONE WRAP OF INSULATION TAPE (OVERLAPPING 50%)
For internal use 81 © Nokia Siemens Networks
2. TWO STRETCH WRAPPED WRAPS OF SELF AMALGAMATING TAPE (STRETCH 30%, TTSL Ver 002 OVERLAPPING 50%)
3. THREE WRAPS OF INSULATION TAPE (OVERLAPPING 50%)
ANTENNA LINE
Feeder grounding kit positions
The grounding kit must always be positioned on the straight part of feeder cable and never on a bend or curve in the cable. Grounding kit's earthing cable can be cut or extended to make grounding cable connection to busbar as straight as possible.
Acceptable installation
For internal use 82 © Nokia Siemens Networks
TTSL Ver 002
WATER PROOFING OF CONNECTORS & GROUNDING KITS ON TOWER
-CONNECTION TO BE TAPED USING VINYL ELECTRIC TAPE -CONNECTION TO BE SEALED USING RUBBER SPLICING TAPE -CONNECTION TO BE TAPED USING VINYL ELECTRIC TAPE -AFTER WEATHER PROOFING OF CONNECTORS/GROUNDING KITS ,CABLE TIES TO BE USED OVER THE SAME
For internal use 83 © Nokia Siemens Networks
TTSL Ver 002
Grounding – Feeder grounding
For internal use 84 © Nokia Siemens Networks
TTSL Ver 002
Cell Site View:-
For internal use 85 © Nokia Siemens Networks
TTSL Ver 002
Emp grounding .
For internal use 86 © Nokia Siemens Networks
TTSL Ver 002
.
For internal use 87 © Nokia Siemens Networks
TTSL Ver 002
USE OF PROPER TOOLS Proper tools has to be always used. If crimping fails, cable lug has to be changed and new crimping applied. Lugs should match the cable size. Hex crimp have to be used. Not OK : Crimping not acceptable
For internal use 88 © Nokia Siemens Networks
TTSL Ver 002
MAKE ACCEPTABLE CONNECTION Proper tools has to be always used. Lugs should match the cable size. Strip cable correctly. Hex crimp have to be used. Connection have to be protected by tape.
For internal use 89 © Nokia Siemens Networks
TTSL Ver 002
MAKE ACCEPTABLE CONNECTION Proper tools has to be always used. Cable size should match to the connector. Strip cable correctly. Inner cable conductor are exposed DC + DC -
DC + DC -
For internal use 90 © Nokia Siemens Networks
TTSL Ver 002
MAKE ACCEPTABLE CONNECTION Cable lug correctly hex crimped.. Connection have to be protected by heat shrink. Do not use electrical tape.
For internal use 91 © Nokia Siemens Networks
TTSL Ver 002
Crimping Connection and MCB’s At Power Plant
For internal use 92 © Nokia Siemens Networks
TTSL Ver 002
MAKE ACCEPTABLE CONNECTION
Correct tape on crimp joint
Correct tape on crimp joint
For internal use 93 © Nokia Siemens Networks
TTSL Ver 002
INDOOR GROUNDING CABLING Example of good installation of grounding busbar
For internal use 94 © Nokia Siemens Networks
TTSL Ver 002
Labelling of Cables
For internal use 95 © Nokia Siemens Networks
TTSL Ver 002
Labelling of Cables
For internal use 96 © Nokia Siemens Networks
TTSL Ver 002
Labelling of Cables
For internal use 97 © Nokia Siemens Networks
TTSL Ver 002
Jumper and All Internal Cable marking
For internal use 98 © Nokia Siemens Networks
TTSL Ver 002
General installation – Labeling
For internal use 99 © Nokia Siemens Networks
TTSL Ver 002
Outdoor installation – Labeling
For internal use 100 © Nokia Siemens Networks
TTSL Ver 002
CABLE Labeling Labels has to be seen visibly and when many cables are together labels has to be in same line and direction. Labelling may be customer specific and differ from Nokia Standard.
For internal use 101 © Nokia Siemens Networks
TTSL Ver 002
External Alarms details:NSN NSN ALARMS ALARM DESCRIPTIONS No
COLOUR CODE
WTTIL ALARM NO
DESCRIPTION OF WTTIL ALARMS
1Mains Fail
Green + White Green
3EB FAILURE
2Load on DG
Blue + White Blue
2LOAD ON DG
3DG Fail to start
Violet + White Violet
1DG ON
4Battery Discharge Grey + White Grey
12DC VOLTAGE LOW
5Rectifier Fail
Pink + Black Red
10RECTIFIER FAILURE
6Door Open
Light Green + Black Green
4INTRUDER(DOOR OPEN)
7Fire and Smoke Alarm
Light Blue + Black Blue
9FIRE AND SMOKE
8Temp High
White + Black White
8ROOM TEMP HIGH
9Low Fuel Level
Light Gray + Light Gray Balck
5LOW FUEL LEVEL
Red Black + Red TTSL Ver 002 Blue
6LOW OIL PRESSURE
10Low Oil Pressure
For internal use 102 © Nokia Siemens Networks
KRONE DDF-Labeling and Patching
For internal use 103 © Nokia Siemens Networks
TTSL Ver 002
Shelter View-Inside
For internal use 104 © Nokia Siemens Networks
TTSL Ver 002
BTS – Cable Routing
For internal use 105 © Nokia Siemens Networks
TTSL Ver 002
Internal Cable Routing
For internal use 106 © Nokia Siemens Networks
TTSL Ver 002
Latest Quality Bulletin on sharenet
https://sharenet-ims.inside.nokiasiemensnetworks.com/livelink/livelink?func=ll&objId=
Note:- for more update on Telecom Implementation Guidelines , Follow the above link for Latest Quality Bulletin.
For internal use 107 © Nokia Siemens Networks
Thank You………..
For internal use /