LTE TDD Installation MOP V2.1 29032016-1

Product: Offer name:

TD‐LTEeNodeB HW TDD‐LTE TDD LTE3500 eNodeB : S111‐20MHz‐8T8R

Code eNodeB HW 473585A 473586A 473196A 470239A 472839A

Description

QTY

FSMFA System Module FBBAA Capacity Extension Sub-Module Flexi RRH 8T8R 3500 20W (FZQE) FMCA FLEXI 3U MOUNTING COVERS FRONT/BACK FSAH EAC cable HDMI-D37 15m

1 2 3 1 1

FMFA FLEXI MOUNTING KIT FLOOR/WALL/POLE FPKA Flexi Pole Kit FYTF WiMAX Optical Cable LC 50m

2 4 6

eNodeB Accessorries 470149A 471649A 471964A 472579A 472823A 472508A 470315A 471408A eNodeB GPS 472510A 472748A 471812A 471605A

FOSH Optical SFP H 850nm 6G 300m MM FPCC DC cable multibeam-open, 2m FPFC Flexi Power Distribution Outdoor EMTA FLEXI EDGE MECHANICAL 2U UNIT FTCR OD CABLE RJ45 CAT5E 15 m

1 1

FTSE GPS cable assembly 30m FYGB GPS GLONASS receiver antenna FYEA GPS Surge Protector Kit FYMA GPS MOUNTING KIT

1 1 1 1

12 3 1

1

LTE Installation MOP_MTNI

LTE Installation MOP

Jan 2016 / [email protected]

2


MOP Revision History

#

REVISION #

1

version 1

Done by

Customer DATE

Ammar Ahmed Faleh

MTNI

comments

2-Jan-2016 21-Feb-2016 Adding Chapter 4, 5 and 6 modifying location of the RRH, define the knob current on

Version 2

FPFC, Eltek installation and

Charbel Chehwan

removing the SM from the cabinet, EAC cable color code and mapping Version 2.1

Charbel Chehwan


29-March2016

Adding labelling

3


Contents: •

Introduction………………………………………………………………………………….…....……….. 4

•

H&S………………………………………………………………….………………….….……………….. 4

•

Site materials required…………………………………………………….……..……..…………………. 5

•

Tools and testers……………………………………………………………..……… ..…………………. 6

•

Project scope …………………………………...………………………………..……….……………….. 7

•

Installation process for WiMax sites………………………………. ……….……….. ………….……… 9

•

Installation process for non WiMax sites ………………………………………………..….... ……….… 9

•

Ch1 / Overview of the System Module (FSMFa) with installation procedure for relevant cables ............11

•

Ch2 / Overview of the RRH (FZQE) with installation procedure for relevant cables ………….………....27

•

Ch3 / Power distribution module (FPFC) with installation procedure for relevant cables …….................38

•

4 Flexi Multiradio 10 BTS Capacity Extension Sub-Module (FBBA)----------------------------------------- 51

•

5 Connecting Flexi Multiradio 10 BTS RRH (FZQE) cabling --------------------------------------------------56

•

6 GPS GLONASS Receiver Antenna (FYGB)-------------------------------------------------------------------57


4


1. Introduction The purpose of this document is to provide installation instructions and guidelines to ensure high quality of installation for MTN Irancell LTE.

2. Health & Safety Safety Procedures are detailed documents to cover the implementation of safe systems of work. As such they constitute a mandatory element in the attainment of the required safety standards given either by industrial standards or by law. The project safety procedures are to ensure utmost safety of all individuals, materials, machines, vehicles, environment and the Customer’s property. The Project Health & Safety Coordinator or the designated person will ensure that the safety procedures are kept up to date and under constant review in the light of a feedback from operational experience and from safety audit reports. Changes will be initiated where existing safety procedures are found to be inadequate or in need of improvement. NOKIA’s occupational health and safety (H&S) practice supports our efforts to protect and promote the health, safety and well-being of NOKIA employees. It also reflects NOKIA’s responsibility as a corporate citizen, striving to make a fitting contribution to the communities in which we live and work.

Therefore, NOKIA is committed to:  Complying with, and where feasible, exceeding the requirements of applicable H&S laws and regulations of countries where we operate;  Providing safe and healthy working conditions for all our employees and promoting well being at work;  Working with external contractors, suppliers and customers in meeting their safety commitments;  Integrating occupational health and safety management into our business and processes at all levels, emphasizing line management and also individual responsibility for H&S;  Promoting H&S awareness in the company through effective communication, education and training; Jan 2016 / [email protected]

5

 Developing and introducing new H&S technologies and methods and continuously improving our H&S performance through sound management. LTE Installation MOP_MTNI

3. Site material received To make sure that all equipment are delivered to site according to the SMR and with good condition. Example below: SI code

Description (optional)

CS73300.49

RS Hex cap screw M10*25 A4 (10 pcs)

CS73301.40

RS Hexagon nut M10 (100 pcs)

CS73303.49

RS Washer M10 A4 (10 pcs)

CS73180

MKEM-LSZH 35 y/g install. cable (reel)

CS73226.30

RS Cable shoe 35mm2 / M10

CS73327.12

RS Shrinkingsleeve 18/6mm black 1200mm

CS73182.11

MMJ 5*6S INSTALLATION CABLE (reel)

CS73331.98

RS Text marker black 0502 163

CS73226.04


CS73327.12

RS Shrinkingsleeve 18/6mm black 1200mm

CS73339.10

RS Insulation tape 15*10 m black(10pcs)

CS73339.11

RS Insulation tape 15*10 m ye/gr(10pcs)

CS73339.12

RS Insulation tape 15*10 m blue(10pcs)

CS73320.08

Cable tie 7,6*390 black (100 pcs)

CS73174

MK 16 GND CABLE Y/G (reel)

CS73179.01

MKEM-LSZH 25 black inst. cable (reel)

CS73179.02

MKEM-LSZH 25 blue inst. cable (reel)

CS73226.06


CS73226.08


CS73199.15

LAN cable CAT6a S/FTP RJ45-RJ45 15m

CS72753.80

Cable clamp OX M for FO(2) + DC(1)

CS73175

MK 25 GROUNDING CABLE Y/G (reel)

CS73178.20

MCMK-HF/XCMK-HF 2x25+16 cable

CS73320.08

Cable tie 7,6*390 black (100 pcs)


delivered

Comments

6

CS73327.25

Shrinking sleeve, Y-type

LTE Installation MOP_MTNI CS73178.17 MCMK-HF/XCMK-HF 2x10+10 cable CS75207.03

RF Jumper 4.3 Male - N Male - 3M

4. Details of tools and testers are given below for Flexi eNB implementation: 1. Screw Driver Set: Knurled-Head. 2. TORX Screw driver set: T10, T20, and T25mm. 3. Side Cutter. 4. Monkey Wrench. 5. Wrench 13mm (0.51 inch.). 6. Torque Wrench for Feeder Connectors, Battery Terminals etc. 7. Crimping Tool for 16Sq.mm to 70Sq.mm cables. 8. Hammer Drill. 9. Measuring Tape (30M). 10. Tool Case. 11. Hex-Box Spanner set 12. Multigrip Pliers 13. Cable ties cutter. 14. ESD Wrist Strap and cable. 15. Allen Key set 16. Folding knife. 17. Marker Pen or Comparable tool. 18. Levelling tool. 19. Extension Board. 20. Scissor. 21. Flash light or torch. 22. 1.5 m (5ft) high safety ladders 23. Site Master which includes VSWR, Power & Frequency Meter (Anritsu/Bird) Jan 2016 / [email protected]

7 24. Digital Multimeter (Fluke) LTE Installation MOP_MTNI 25. Optical Power Meter

26. Riveting Gun

5. Project Scope •

The solution of this project will be feeder less for all sites and there are two types of LTE will be installed : 1. TDD feeder less with new antennas 2. FDD feeder less

And for the TDD there are two scenario for installation of the RF module (FZQE): 1. To be installed with existing WiMax and replace the existing antenna 2. Or to be installed separately if there is no WiMax with adding new antenna RRH (FZQE) can be located back to the antenna, as shown in below photo Jan 2016 / [email protected]

8


Below you will see the antenna installation scenario: 1. TDD with Wimax showing below the connection for one sector; other sectors will be same


9


Installation process for WiMax sites: 

Replace the existing antennas (with 8 port antenna) and all details in the last chapter



Installation of the System Module in the agreed location (on top of ELTIK CAB or mounted on the side of



same CAB or mounted on back of the same CAB) and details of the installation you will find in chapter 1 Install the FZQE as mounted on pole of the antenna and all details in chapter 2



Installation of the FPFC as mounted on pole of the new antenna and all details in chapter 3



All the cabling will be clarified with each item separately


10


Installation process for non WiMax sites: 

Adding new antennas



Installation of the System Module in the agreed location (on top of ELTEK CAB or mounted on the side of same CAB or mounted on back of the same CAB) and details of the installation you will find in chapter 1

 

Install the FZQE as mounted on pole of the antenna and all details in chapter 2 Installation of the FPFC as mounted on pole of the new antenna and all details in chapter 3



All the cabling will be clarified with each item separately


11



12


1. Installation of System Module FSFMa 1.1.

Front Panel of System Module FSMFa


13


1.2.

System Module dimensions and weights

Property Value Property

Value

Casing height

133 mm/3U

Width without front cover

447 mm

(17.6 in)

Width with front cover

492 mm

(19.4 in)

Depth without front cover

420 mm

(16.6 in)

Depth with front cover

560 mm

(22 in)

Weight with casing, without FBBA submodule

10.1 kg

Weight with casing, with FBBA submodule and FMFA

10.1+8+3=21.1 kg

1.3.

(5.2 in)

Installation process of the FSMFa :

It will be with different scenarios but all those scenarios will use the plinth FMFA:  On ground ( to be installed with FMFA)  Above of the CAB ( to be installed with FMFA)  Mounted on the side (or back) of ELTEK (power CAB) or wall ( to be installed with FMFA) 

1.3.1.Installing the FSMFA on ground ( to be installed with FMFA)


14

The FSMFa will be installed on the ground or mounted (wall or pole) by using Flexi Mounting kit for Floor, Wall and Pole (FMFA). FMFA is required in SM installation according to scope and it provides grounding points for LTE Installation MOP_MTNI System module grounding.

Plinth (FMFA) 1. V.104-105 is installed on the wall or pole or on ground. 2. Installation of FMFA:

Clearance space should be taken care off before starting the installation as in next point •

First keep the Plinth on the floor and mark the holes as per the given drawing

•

Grout the Plinth as per Points shown in the picture with either Anchor Bolts in the case of Foundation or Coach Bolts in case of shelter.


15


Grounding the Plinth (FMFA) Right after installing the plinth the very first thing that needs to be carried out is the grounding. Laying and terminating the grounding cable at the Grounding point located at the front side of the Plinth.

Installing the Mechanical Unit (Casing of FSMFa): There are fixing studs on the upper side of the plinth and there are 4 holes at bottom side of EMHA:

Put Casing on top of the plinth; make sure all 4 holes on the mechanical unit fit all 4 studs on plinth. After fixation properly the mechanical unit to the back side and then tighten the screws.

Cabling of FSMF 1.

Strip each DC power cable and wrap with tape; this will protect the rubber boot.

2.

Remove the plug from the rubber boot.

Note: if the cables do not fit, carefully cut the rubber boot with scissors until the cables fit, it should be a good tight fit.


16

3.

Feed the taped ends of the DC power cables into the rubber boot.

5.

Install the black DC power cable into the “+” side of the FSMF DC IN connector, torque screw down terminal to 3.7 ft lb (5Nm).

4. Remove the tape from the DC power cables. LTE Installation MOP_MTNI

6.

Install the blue/red DC power cable into the “-” side of the FSMF DC IN connector, torque screw down terminal to 3.7 ft lb (5Nm).

Tighten screw terminals.

7.

Pull the rubber boot over the DC in port and secure with attached screw, torque to 1.5 ft lb (2Nm).


17


8. If more than one cable is used in the rubber boot, zip tie the end, tighten, and flush-cut the zip tie.

9.

Verify all the connections are installed and properly torqued.

10. Flip the two associated breakers to the on position. 11. Verify power to the FSMF.

Installation of Optical fiber and SFP The optical cables are connected between the System Module and each of the RF Modules, and are used to distribute signals between the modules. 1. Remove the protective seals from the relevant optical cable connector on both the System Module and the RF Module. Store the seals for later use.

2. Remove the protective cap from the SFP optical transceiver and insert the transceiver into the System Module.. 3. Pull back the optical cable connector boot to uncover the connector 4. Remove the protective plugs and clean the connector tips according to previous instructions. Connect the cable to the System Module. Make sure it clicks into place. 5. Push the connector boot firmly into place.


18


6. Route the cable through the external cable entries. Coil up the excess cable and fasten it with cable ties to the left-hand cable support plate on the module casing (see next slide).

6. Remove the protective cap from the second optical transceiver and insert it into the RF Module 8. Remove the protective plugs from the optical connector and clean the tips according to instructions. Connect the optical cable to the RF Module. Make sure it clicks into place. 9. Push the connector boot firmly into place.

Installation of LAN cabling

1. Remove the connector seal from the relevant transmission unit connector. Store the seal for later use. 2. Route the transmission cable through the cable entry. 3. Pull back the connector boot covering the transmission cable connector. 4. Connect the cable to the transmission unit. 5. Push the cable connector boot firmly into place


19


FSMF LED information.

LED EIF2/RF/6 RF/EXT link 6 status or transport interface 2 status RF/EXT1 RF link 1 status RF/EXT2 RF link 2 status

RF/EXT3 RF link 3 status EIF1 Transport interface 1 status Fan status System Module status

Color  Red: No connection.  Green: Connection OK.  Yellow: Not in use.  Red: No connection.  Green: Connection OK.  Yellow: Not in use.  Red: No connection.  Green: Connection OK.  Yellow: Not in use.   Red: No connection.  Green: Connection OK.  Yellow: Not in use.  Red: No connection.  Green: Connection OK.  Yellow: Not in use.  Red: Fan fault.  Green: Fan OK.  Red: Module self-test or reset (LED red for <5 seconds) or major alarm or critical alarm.  Red, blinking: Major alarm.  Yellow: Stand-by or blocked.  Yellow, blinking: SW download or configuration ongoing, module nonoperational.  Green: Module operational.  Green, blinking: Module is loading software or parameters or local maintenance access when modules are operational.


20


Installation of ELTEK CAB

ELTEK CAB DIM

overview of ELTEK CAB

The rectifier delivered with a plinth 20 cm height 

For Greenfield site, the rectifier will be located on the floor (Slab) plus the plinth content with



delivery For Rooftop site, the rectifier will be located on the I beam plus the plinth from content the delivery


21



22


Refer to the below highlighted CB for the BTS connectivity 16 A 1 pole for the System Module 25 A 3 pole for the FPFC by using circuit breaker bus bar


23


As shown you will see the CAB roxtec

6-The guided of the DC cales through the hole between the two shelf of CAB


6

24


The guided of the DC cales through the hole between the two shelf of CAB

7-systemization and connection with the Target CB


25


Symmetry cable

Battery Connection Kit is use for vandalism Alarm when one of the symmetry cable be disconnected for more than 3 seconds, the vandalism alarm appears on smart pack controller and relay output 5 be activated.

Note: for clearing the vandlism alarm, reconnect cables and then reset alarm manually by power suit software.


26


System Module EAC cable wiring Refer to the below table for the alarm connectivity

Pair: wire color

Description

Eltek

1: Black

EXT_AL0_H

X1:6

2: Brown

EXT_AL1_H

X1:9

1: White/Black

EXT_AL2_H

X2:10

2: White/ Brown

EXT_AL3_H

X2:13

3: Red EXT_AL4_H X2:16 4: Orange EXT_AL5_H X2:19 3: White/Red Digital thermostat, EXT_CTRL0_EXT_AL6_H White/Grey pin 4 and 5 4: EXT_CTRL1_EXT_AL7_H White/Orange 5: Yellow EXT_CTRL2_EXT_AL8_H 6: Green EXT_CTRL3_EXT_AL9_H 5: EXT_CTRL4_EXT_AL10_H White/Yellow 6: EXT_CTRL5_EXT_AL11_H White/Green 7: Blue P5V0_EAC 7: White/Blue P5V0_EAC 8: Violet PROT_CAN_H_P5V_EAC 9: Grey GND X1:5, 8 8: PROT_CAN_L_P5V_EAC White/Violet 10: Pink GND X2: 9, 12, 15, 18


Alarm text Door of power cabinet & Door of battery cabinet AC fail & AC low & AC high & OVP Battery low & battery high & battery fuse A/C power cab.& A/C battery cab.& Temperature batter cab.&smoke power cab. high & battery fuse (Vandalism) battery symmetry Rectifier alarm Hight temperature

27


2. Installation of the RF module (FZQE) In TDD solution will use three RRH (FZQE) and it will be one RRH for reach sector


28


1.

UNIT OVERVIEW, EXPLODED VIEW

Unit Overview, exploded view

Picture2 Exploded view, general view and front panel of FZQE

2.

UNIT DIMENSIONS, WEIGHT AND OTHER PROPERTIES

Unit dimensions, weights and other properties Property Value Height 149 mm (5.9 in) Height (with covers) Width 474 mm (18.7 in) Width (with covers) Depth 358 mm (14.1 in) Depth (with covers) Weight 23 kg (50.7 lb) Weight (with covers) Ingress Protection IP65 Nominal supply voltage ‐48 VDC Input voltage range ‐40.5 … ‐57 V DC Handle Yes Volume 0.0238 m3 (23.8 liter) Table 2 Properties of the unit


29


3.

UNIT POWER CONSUMPTION 10 % RF load

30 % RF load

FZQE (8X20W) 243 W 331W Table 3. Unit power consumption

50 % RF load

100 % RF load

419 W

639 W

Estimated maximum 639 W

*) Calculated estimate

4.

UNIT INTERFACES

Unit interfaces table

Connector

Connector type

Code

Purpose

Power supply, DC Input connector

3‐pole Screw terminal for 20 mm² (maximum) shielded cable tri‐color LED

086213A

Power delivery

4864296

Grounding (GND screws) Antenna connector 1 … 8

2pcs M5 x10 4.3/10 type, female

6150240 ‐

AISG Interface (RET) EAC (EAC Connector)

RET Cable assembly RJ45 Duplex LC connector (SFP) N type, female

995514 5439443 5491805

tri‐color(red, yellow, green) LED Operational state refer to document FZQE RRH HW SW Interface Specification Grounding RF signal interface to antenna(s) AISG control signal to the antenna External alarm and control interface

Operational state visual Indication (Optical interface & LED)

Optical interface (SFP) 2pcs BF connector

Offer routes for system module to process beamforming and calibration. LMP connector RJ45 5449340 Maintenance Table 4. Unit Interfaces, Connectors, connector types and purposes


P157014

Control and chaining interface

30


Picture 3 Front view of FZQE

5.

INSTALLATION SOLUTIONS

FZQE RRH unit can be assembled on pole with mounting kit solution FPKA (471649A.) and on wall with 4pcs M8 screws.

Installation solutions table Unit Stack/floor Pole Wall Enclosure Other FZQE No

Yes

Yes

No

N/A

Table 5. Unit Installation solutions table

6. 

SPECIFIC CABLING SOLUTIONS Power cabling

RRH have a screw terminal solution and a rubber boot to be used: Maximum size 2x25/16, overall diameter: 25.0 mm. Screw terminal fixing torque 2.2 Nm using TX25 screwdriver.


31


7.

INSTALLATION TOOLS

Torque screwdriver / Torx bit TX20 / 2.2Nm Torque screwdriver / Torx bit TX25 / 2.2Nm Torque wrench long reach socket 18mm / 1.7Nm Pneumatic Pulse Hand Torque Driver, drive Bit, M8 HEX / 20Nm.

8.

UNIT CLEARANCES

Unit clearance table Property Front space Back space Top space Space on both sides Space on both sides (if two base stations are installed side by side on floor or wall)

Value 900mm N/A 360mm 100mm N/A

Table 6. Unit Installation clearance Will be mounted using FPKA without FMFA and will connect the FZQE direct to the mount kit (FPKA), shown below the FPKA structure and the method of the installation by using FPKA Mounting kit Structure


32


NOTICE: The unit's airflow runs from the lower to the upper side of the unit. Make sure that the unit is installed in a room that allows proper ventilation.

NOTICE: Electrostatic discharge (ESD) might damage the equipment. Wear an ESD wrist strap or use a corresponding method when handling the equipment. Procedure The module presented in the pictures is FZHM RRH, but the instructions can be applied to each of the modules listed in Introduction to Flexi RRH modules. Installing and Cabling Flexi Multiradio BTS TD-LTE Remote Radio Head Units Installing TD-LTE RRH onto a pole with FPKA Issue:


33


1 Fix the upper FPKA mounting bracket onto the pole and tighten the mounting bracket screws (M10) to 30 Nm (22.12 ft-lb).

2 Release the strain relief plate by undoing the screw. Save the screw for later use.


34

LTE Installation MOP_MTNI 3 When installing FZQC/E, screw the mounting kit first. The mounting kit is not pre-assembled with FZQC/E. Install the mounting kit onto a module with M8x20 hexagon bolts by performing the following steps. Sub-steps a) Use the correct holes of the mounting kit as shown in the Figure above: Mounting kit dimensions. b) Undo four M8 screws from the new FZQC/E unit.

c) Fix the strain relief plate onto the lower bracket using two M5 screws and tighten them to 4 Nm (2.95 ft-lb.).

d) Attach the upper mounting bracket with two M5 bolts. e) Attach the lower mounting bracket with two M5 bolts.


35


f) Tighten four bolts to 20 Nm (14.8 ft-lb).

4 Fix the strain relief plate onto the lower bracket using two M5 screws and tighten them to 4 Nm (2.95 ft-lb.).

5 Screw two screws to the upper part of the FPKA bracket. Do not tighten the screws yet. Lift the module RRH with the pre-assembled bracket to the FPKA. NOTICE: Do not lift the RRH on the pole by the handle. Use the lifting point instead. NOTICE: Use a rope which is strong enough to support the module.


36


Gourd hole

3_A 1_A

2

1_B Assembly phase and Care points a. Tighten the screws(3_A) to fix RRH to the FPKA assembly. b. Hang up the RRH to FPKA assembly by the gourd hole. c. Adjust the position of FPKA assembly (1_B). d. Tighten the screws (3_B).

3_B

Pole mounting kits FPKA •

With poles 60-120 mm (2.4 - 4.7 in.) in diameter

•

Possible to install units both side and back (three sides)

•

Can use up to 4 Flexi modules or 3 RRHs or FMSA

•

Two FPKA kit per fixing are needed

The FPKA has room for a maximum of four 3U Flexi modules (12U total). Two modules (or casings) can be installed on opposite sides of the FPKA. Jan 2016 / [email protected]

37

LTE Installation MOP_MTNI Installation of FPKA steps •

Fix the upper mounting bracket on the pole and attach the mounting bracket screws on the bracket.

•

Fix one half (the one with threads) of the lower pole mounting bracket on then FZQE adapter mechanics with the mounting screws.

•

Lift the FZQE on the pole and fit it to the pole mounting bracket's mounting screws.

•

Tighten the mounting screws.

•

Place the counterpart of the lower pole mounting bracket in its place and tighten the screws.

•

Make sure that the pole mounting brackets are aligned and the FZQE is not twisted.

•

If a second FZQE or plinth is required, install it on the other side of the pole mounting bracket (if there is enough space).

•

Fix the adapter mechanics on the FZQE or plinth as described in Step 3 above.

•

Fix the mounting screws on the upper pole mounting bracket.

•

Lift the FZQE or plinth on the pole and fit it to the pole mounting bracket's mounting screws and tighten the screws.

•

Insert the lower fixing screws to fix the FZQE or plinth on the lower pole mounting bracket. Tighten the mounting screws.

•

Make sure that the FZQE or plinth is not twisted. When the plinth is in a correct position, tighten the two remaining screws in the lower bracket of the adapter mechanics.

•

Next, ground the FZQE or plinth to the site main ground.


38


3.

FPFC installationAssembly on casing Input Connector

Outline of FPFC


39

LTE Installation MOP_MTNI Steps 1.

2.

Connect the ESD wrist strap between the Ground and your wrist.

Insert FPFC to 2U casing.

Note: For safety, 2pcs M5 screw should be assembly on casing as picture shown. The lock screw can stop unit drop out when connect cable

3.

Pre-rounting cable based on field requirement Note:

Make sure all the cable is prepared, the big size cable (outer diameter >20mm) is too hard to routing with cable entry and front cover.

4.

Connect the EAC cable to FPFC. In order to connect EAC cable, input sealing can be uninstall.


40


Note: Make sure EAC cable sealing is properly installed to the EAC connector. In order to install EAC cable, please follow the step:

5.



Push EAC sealing away from EAC connector, it about 100mm



Insert EAC connector



Insert EAC sealing to chassis

Connect the grounding cable between the FPFC front panel and the Grounding fixing points. 1pcs M5 Torx screw is used to fix grounding cable.

GND fixing points screw

6.

Assembly sealing with input/output cable. Note: The reinforcement ring on sealing should be protected without any fracture 

Assembly cold shrinkable tube for big size cable. The step is only available for big size cable which outer jacket should be stripped:


41

LTE Installation MOP_MTNI  Stripped the outer jacket as picture shown. The inner jacket can be reservation for cable cross sealing.

Stripped cable outer jacket 

Assembly cold shrinking tubing follow cold shrinking tubing install instruction. The type of cold shrinking tubing (CS73327.26) Cold shrinking tubing

Assembly figure cold shrinking tubing 

Broken the centry of sealing ports as picture shown; cut out a 4mm hole in center of sealing, make sure reinforcement ring is OK,

Cable diameter 5‐15mm a) Cut Hole on sealing 

If the outer diameter of input cable big than 15mm, the biggest port should be cut away as picture shown

Cable diameter

Cable diameter Cut sealing port for big size cable


42

LTE Installation MOP_MTNI 

Route cable carefully, make sure the sealing wrap up cable without leak. Make sure the cable size should meet ports spec.

Assembly sealing 

The copper shielding wire should also be wrap up with single cold shrinking tubing as picture shown. The type of shrinking tubing CS930345 (CYG ELECTRONICS(SHANGHAI) CO.，LTD CBCSS35/11-188)

Single cold shrinking tubing

Assembly cold shrinkabe tube Note: Make sure the end of tubing wrap up sealing without any leakage. 7.

Strip the necessary conductor wires of the input and output cables. This step can also be finished before step 6.

a. Outer diameter <25mm


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b. Outer diameter <25mm

Stripping dimensions for cables

Note: Special tool (CS76199.08) should be used to strip cable jacket.

Make sure insulation undamaged. 8.

Connect the 48V DC input cable and 48V output cable as picture 10 shown. Fasten clamp in connector with Torx 20 screwdriver. Assembly sealing with input connector and output connector.

Connect input/output the cable

20mm2 50mm2

80mm2

Max size of connector support


44


Single unit input cable connector Note: The input cable can connect with input connector on Input 1 or Input 2. Make sure there is not gap between sealing and connector Make sure sealing is undamaged Make sure that all the cables are properly installed to the connectors. The torque for the connection fixing screw is 4Nm.

9.

Fix FPFC to casing utilizing the Torx25 screwdriver. FPFC assembly on 2U casing

10. Check the status of On/Off bar. All should be On

“ON” status for On/Off bar 11. Check the position of current knob based on module requirement.

Adjust current knob

Note: The knob can be adjust with flat screw driver. Only channel 3---6 output current can be adjusted,

Adjust it to 30 A for (FZQE)


45


12. Install front cover utilizing the fixing, Fasten the Torx screw on front cover.

Assembly front cover 13. Fix the cable clamps on cable entry if necessary. 14. Fix cable with cable clamp or cable tie

1.3. Stack assembly steps

1.

Connect the ESD wrist strap between the Ground and your wrist.

2.

Assembly FPFC unit into casing

3.

Place the second module

4.

Push back unit it stop and align with the first module

5.

Fix together both of casing with two screws as picture shown.


46


FPFC stack with RF module on pole

1.

Follow chapter01, connect the cable and assembly cable entry and other steps

Plinth assembly steps 1.

Connect the ESD wrist strap between the plinth and your wrist.

2.

Assemble casing on plinth after 1.1

3.

Install the FPFC module Follow the installation steps according to chapter 1.1 assembly in casing

4.

Connect FPFC grounding cable to plinth

5.

Based on plinth, the FPFC can be assembled on wall & pole follow NOKIA guideline.

Figure 21 Fixing FPFC on plinth


47


Antenna to be used The antenna that will be used in our project for TDD is BroadRadio DS S-VPX0410R

AISG Control Cable

TECHNICAL SPECIFICATIONS Connectors:

2 x 8pin AISG female/male

Cable Cores:

2 x AWG24 (twisted pair) 4 x AWG18

Rate Current: 5A Protection Class:

IP67


48


Temperature Range:

-40-+80°

Jacket Material/Color: PVC/Black Diameter:

8 mm

Flammability class:

UL94 V-0

Cable Length (connectors included) Product Number 1m

AFM-P8C6-1M

2m

AFM-P8C6-2M

3m

AFM-P8C6-3M

5m

AFM-P8C6-5M

10m

AFM-P8C6-10M

15m

AFM-P8C6-15M

20m

AFM-P8C6-20M


49


For Wiimax sites, the connection after replacing the antenna is as shown below

Port 8

Port 1

For non Wiimax sites, the connection after replacing the antenna is as shown below


50



51


Chapter 4 Flexi Multiradio 10 BTS Capacity Extension Sub‐Module (FBBA) Contents of the Capacity Extension sub-module (FBBA) delivery Item name

Item code

Quantity

FBBA Capacity Extension sub-module

472182A

1

QSFP cable

995298

1

Power cable

995297

1


52


Connecting Flexi Multiradio 10 BTS Capacity Extension Sub‐Module (FBBA) cabling Before you start NOTICE: Incorrect cables and seals may not provide appropriate ingress protection. Use only tested IP65 class outdoor cables with

seals provided by Nokia. This is required for both indoor and outdoor installations, including the outdoor cabinet.

Procedure

1

Remove IP seals from the FBBA ports that you are going to use. Store the seals for later use.

2

Connect the power cable (995297) from the DC out port on the FSMx core to the DC in port on the FBBA front panel. Make sure it clicks into place.

Figure:

Connecting power cable


53

LTE Installation MOP_MTNI 3

Push the connector seals firmly in place.

4

If using two FBBA sub‐modules, chain the power cable from the DC out port of the first FBBA to the DC in port of the second FBBA.

Figure:

Chaining power cable

5


6

Connect a QSFP cable (995298) from the BB EXT1 port on the FSMx core to the BB EXT port on the FBBA front panel.

NOTICE: Make sure the power cable is connected before connecting the QSFP cable. Make sure it clicks into place.

Figure:

Connecting QSFP cable


54



8

If using two FBBA sub‐modules, connect a QSFP cable (995298) from the BB EXT2 port on the FSMx core to the BB EXT port of the second FBBA. Figure:

Connecting second QSPF cable

9


10

Make sure that all the connector seals are properly installed.

11

If applicable, install a front cover on the FSMx. NOTICE: Do not break the maximum bending radius of 40 mm (1.57 in.) for the QSFP cables. Bend the cables upwards as shown in Figure: Bending the QSFP cables (1) and Figure: Bending the QSFP cables (2), ensuring that the outer edges of the cables are within the front cover inner dimensions.


55


Figure:

Bending the QSFP cables (1)

Figure:

Bending the QSFP cables (2)


Id: DN09107822

© 2015 Nokia Solutions and Networks. All rights reserved.

56


Chapter 5 Connecting Flexi Multiradio 10 BTS RRH (FZQE) cabling Two FBBAs are required for this configuration.

Note: The picture show only the first sector connection, the other sectors are done in the same way as the one in the picture Jan 2016 / [email protected]

57


Chapter 6 GPS GLONASS Receiver Antenna (FYGB)

• FYGB is an external GNSS (supports GPS + Glonass) RF antenna & receiver used for providing 1PPS + ToD synchronization to the BTS • Power supply +15V from the Sync In (HDMI) port of the System Module • BTS operation and control over existing GPS Receiver BTSSM, including alarm reporting (plug‐and‐play) • Outdoor & Indoor*, IP67, ‐40 ~85°C • 95 x 72.5 mm (D x H), 0.154 kg • 472748A : FYGB GPS GLONASS Receiver Antenna • Optional:

• • • • • • •

471605A FYMA GPS Mounting Kit 471606A FYHA GPS Cable Set 30m, or 471653A FYHB GPS Cable Set 100m 472510A FTSE GPS Cable Assembly, 30m, or 472577A FTSH GPS Cable Assembly, 100m, or 472870A FTSM Flexi MR10 GPS cable 300m 471812A FYEA GPS Surge Protector Kit (optional)


58


INSTALLING FLEXI GPS SURGE PROTECTION KIT (FYEA) V. 103 These instructions show how to install Flexi GPS Surge Protection Kit (FYEA) 471812A.103. The assembly protects the Flexi System Module against transient voltage and current spikes in the GPS antenna line. The FYEA enclosure is connected between the System Module and the GPS antenna.

The FYEA can be installed on the system module casing as shown in the below photo.

1

Open the lid of the FYEA enclosure. Figure: Opening the FYEA lid


59


Connect the grounding cable.

Route the grounding cable from the bottom right corner of the FYEA enclosure to the grounding point on the plinth.

Figure: Connecting the grounding cable

3

Cut the GPS cable.

Cut the GPS cable and remove around 70 mm (2.76 in) of the cable jacket and 8 mm (0.31 in) of the wire covering.

Figure:

Exposing the wires


60


Remove the gland nuts and IP plugs.

5

Thread the cable through the gland nuts.

6

Connect the cables to the FYEA enclosure.

Connect the wires to the FYEA enclosure in the following way:

Table:

FYEA connections Pair Color number Brown 4 White 3 2 1

Position OUT (to GPS antenna) 1

Position IN (to System Module) 2

3

4

Green

7

8

White

9

10

Orange

11

12

White

13

14

Blue

17

18

White

19

20

Figure:Connecting cables


61


Tighten the gland nuts to 2.5 Nm (1.84 ft.lb.).

8

Route the GPS cables to the System Module and to the GPS antenna respectively.

9

Check the FYEA connections and close the lid. Figure:

Closing the FYEA lid

10 Connect the GPS cable ends to the System Module and GPS antenna respectively.


62


Labeling

To be sure that all the items will be labeled with the right way and with the agreed format.

Clean the site

Be sure that you leave the site proper and clean as it should be.


Cable Label Set for FDD/TDD - LTE NUMBER OF BAG

SPECIFIC USE TDD Jumper cable of Sec1 from Antenna to RRH port 1 TDD Jumper cable of Sec1 from Antenna to RRH port 2 TDD Jumper cable of Sec1 from Antenna to RRH port 3 TDD Jumper cable of Sec1 from Antenna to RRH port 4 TDD Jumper cable of Sec1 from Antenna to RRH port 5 TDD Jumper cable of Sec1 from Antenna to RRH port 6 TDD Jumper cable of Sec1 from Antenna to RRH port 7 TDD Jumper cable of Sec1 from Antenna to RRH port 8 TDD Jumper cable of Sec1 from Antenna to RRH BF TDD Jumper cable of Sec2 from Antenna to RRH port 1 TDD Jumper cable of Sec2 from Antenna to RRH port 2 TDD Jumper cable of Sec2 from Antenna to RRH port 3 TDD Jumper cable of Sec2 from Antenna to RRH port 4

TDD JUMPER CABLES

TDD Jumper cable of Sec2 from Antenna to RRH port 5 TDD Jumper cable of Sec2 from Antenna to RRH port 6 TDD Jumper cable of Sec2 from Antenna to RRH port 7 TDD Jumper cable of Sec2 from Antenna to RRH port 8 TDD Jumper cable of Sec2 from Antenna to RRH BF TDD Jumper cable of Sec3 from Antenna to RRH port 1 TDD Jumper cable of Sec3 from Antenna to RRH port 2 TDD Jumper cable of Sec3 from Antenna to RRH port 3 TDD Jumper cable of Sec3 from Antenna to RRH port 4 TDD Jumper cable of Sec3 from Antenna to RRH port 5 TDD Jumper cable of Sec3 from Antenna to RRH port 6 TDD Jumper cable of Sec3 from Antenna to RRH port 7 TDD Jumper cable of Sec3 from Antenna to RRH port 8 TDD Jumper cable of Sec3 from Antenna to RRH BF FDD Jumper cable of Sec1 from Antenna to RFM1 port 1 FDD Jumper cable of Sec1 from Antenna to RFM1 port 2

FDD JUMPER FOR 2T2R

FDD Jumper cable of Sec1 from Antenna to RFM1 port 3 FDD Jumper cable of Sec1 from Antenna to RFM1 port 4 FDD Jumper cable of Sec1 from Antenna to RFM1 port 5 FDD Jumper cable of Sec1 from Antenna to RFM1 port 6 FDD Jumper cable of Sec1 from Antenna to RFM2 port 1 FDD Jumper cable of Sec1 from Antenna to RFM2 port 2

FDD JUMPER FOR 4T4R

FDD Jumper cable of Sec1 from Antenna to RFM2 port 3 FDD Jumper cable of Sec1 from Antenna to RFM2 port 4 FDD Jumper cable of Sec1 from Antenna to RFM2 port 5 FDD Jumper cable of Sec1 from Antenna to RFM2 port 6 TDD DC Cable from RRH Sector1 to FPFC slot3 TDD DC Cable from RRH Sector2 to FPFC slot4 TDD DC Cable from RRH Sector3 to FPFC slot5

DC SUPPLY CABLES

FDD DC Cable from RFM1 to FPFC slot1 FDD DC Cable from RFM2 to FPFC slot2 FPFC DC cable from FPFC input to Rectifier CB FSMF-TDD DC cable from FSMF input to Rectifier CB FSMF-FDD DC cable from FSMF input to Rectifier CB

AC SUPPLY CABLES Alarm Cables

Rectifier AC Cable from PDB CB to Rectifier CB FSMF-TDD EAC from Rectifier to FSMF EAC port FSMF TDD

Circuit Breaker

FSMF FDD FPFC AC Rectifier from PDB CB to Rectifier CB TDD-RRH FO cable Sec1 TDD-RRH FO cable Sec1 TDD-RRH FO cable Sec2 TDD-RRH FO cable Sec2 TDD-RRH FO cable Sec3

Fiber Cable

TDD-RRH FO cable Sec3 FDD-RFM1 FO cable FDD-RFM1 FO cable FDD-RFM2 FO cable FDD-RFM2 FO cable

GPS

GPS Cable Antenna Ground Cable of RECTIFIER

GROUNDING

FSMF plinth TDD RRH Sec1 TDD RRH Sec2 TDD RRH Sec3 FDD RFM1 FDD RFM2 FPFC plinth

Label Name TDD ‐ A1.R1 TDD ‐ A1.R2 TDD ‐ A1.R3 TDD ‐ A1.R4 TDD ‐ A1.R5 TDD ‐ A1.R6 TDD ‐ A1.R7 TDD ‐ A1.R8 TDD ‐ A1.R9 TDD ‐A2.R1 TDD ‐A2.R2 TDD ‐A2.R3 TDD ‐A2.R4 TDD ‐A2.R5 TDD ‐A2.R6 TDD ‐A2.R7 TDD ‐A2.R8 TDD ‐A2.R9 TDD ‐ A3.R1 TDD ‐ A3.R2 TDD ‐ A3.R3 TDD ‐ A3.R4 TDD ‐ A3.R5 TDD ‐ A3.R6 TDD ‐ A3.R7 TDD ‐ A3.R8 TDD ‐ A3.R9 FDD ‐ A1.R1 FDD ‐ A1.R2 FDD ‐ A1.R3 FDD ‐ A1.R4 FDD ‐ A1.R5 FDD ‐ A1.R6 FDD ‐ A2.R1 FDD ‐ A2.R2 FDD ‐ A2.R3 FDD ‐ A2.R4 FDD ‐ A2.R5 FDD ‐ A2.R6 TDD ‐ DC PWR Sec 1 TDD ‐ DC PWR Sec 2 TDD ‐ DC PWR Sec 3 FDD ‐ DC PWR RFM 1 FDD ‐ DC PWR RFM 2 FPFC IN‐REC FSMF TDD ‐ REC FSMF FDD ‐ REC AC power EXT Alarm FSMF ‐ TDD FSMF ‐ FDD FPFC PDB ‐ Rectifier TDD/FDD CPRI TDD Sec 1 CPRI TDD Sec 1 CPRI TDD Sec 2 CPRI TDD Sec 2 CPRI TDD Sec 3 CPRI TDD Sec 3 CPRI FDD RFM1.1 CPRI FDD RFM1.2 CPRI FDD RFM2.1 CPRI FDD RFM2.2 GPS Sync IN GND TDD RECTIFIER GND FSMF GND RRH Sec1 GND RRH Sec2 GND RRH Sec3 GND ‐ RFM 1 GND ‐ RFM 2 GND FPFC

Text size (mm) 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3

Label size (mm) 35x10 35x10 35x10 35x10 35x10 35x10 35x10 35x10 35x10 35x10 35x10 35x10 35x10 35x10 35x10 35x10 35x10 35x10

3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3

35x10 35x10 35x10 35x10 35x10 35x10 35x10 35x10 35x10 35x10 35x10 35x10 35x10 35x10 35x10 35x10 35x10 35x10 35x10 35x10 35x10 35x10 35x10 35x10 35x10 35x10 35x10 35x10 35x10 35x10 35x10 35x10 35x10 35x10 35x10 35x10 35x10 35x10 35x10 35x10 35x10 35x10 35x10 35x10 35x10 35x10 35x10 35x10 35x10 35x10 35x10 35x10 35x10 35x10

Quantity

Remarks

2

Acrilyc

2

Acrilyc

2

Acrilyc

2

Acrilyc

2

Acrilyc

2

Acrilyc

2

Acrilyc

2

Acrilyc

2

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2

Acrilyc

2

Acrilyc

2

Acrilyc

2

Acrilyc

2

Acrilyc

2

Acrilyc

2

Acrilyc

2

Acrilyc

2

Acrilyc

2

Acrilyc

2

Acrilyc

2

Acrilyc

2

Acrilyc

2

Acrilyc

2

Acrilyc

2

Acrilyc

2

Acrilyc

2

Acrilyc

2

Acrilyc

2

Acrilyc

2

Acrilyc

2

Acrilyc

2

Acrilyc

2

Acrilyc

2

Acrilyc

2

Acrilyc

2

Acrilyc

2

Acrilyc

2

Acrilyc

2

Acrilyc

2

Acrilyc

2

Acrilyc

2

Acrilyc

2

Acrilyc

2

Acrilyc

2

Acrilyc

2

Acrilyc

2

Acrilyc

2

Acrilyc

2

Acrilyc

1

Sticker

1

Sticker

1

Sticker

2

Sticker

2

Acrilyc

2

Acrilyc

2

Acrilyc

2

Acrilyc

2

Acrilyc

2

Acrilyc

2

Acrilyc

2

Acrilyc

2

Acrilyc

2

Acrilyc

2

Acrilyc

2

Acrilyc

2

Acrilyc

2

Acrilyc

2

Acrilyc

2

Acrilyc

2

Acrilyc

2

Acrilyc

2

Acrilyc

LTE TDD Installation MOP V2.1 29032016-1

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