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Globul NR Project Installation Guide

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Site layout ---Indoor Scenario (1/2)

Scenario1 Scenario2

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Site layout ---Indoor Scenario (2/2)

Scenario3 Scenario4

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Site layout ---Outdoor Scenario (1/2)

Scenario1

RTN 950

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Scenario2 Scenario3

Site layout ---Outdoor Scenario (2/2)

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Routing 0utdoor cabinet cabling layout overview

Before install BBU change the position of BBU holder.

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Routing 0utdoor cabinet cabling layout instruction(1/2) 2.BBU power cable fix on the cable holder

3.RRU power cable fix on the cable holder

Cable holder

4.Remove the outside black layer

1.Fixed the fibers with fiber tape on the cable holder

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4.PI power cable

5.POE PI

1.AC power routing from left side

2.Grounding cable routing from left side to grounding bar in cabinet.

3. If default transmission cables is longer than routing, round cable and fix on the side of cabinet.

Routing 0utdoor cabinet cabling layout instruction(2/2)

Remark: 1.If the default power cable is longer than the routing, cut it and make a new connector. 2.If there are more than one PI,PI install in 1U racket by the order from right to left

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Routing Indoor cabinet cabling layout overview

Before install BBU change the position of BBU holder.

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Routing Indoor cabinet cabling layout instruction(1/2) 3. Remove the Rodent-proof mesh on the top of cabinet ,routing power cables along the right side of the cabinet.

1. Remove the Rodent-proof mesh on the top of cabinet ,routing BBU power cables along the right side of the cabinet.

2.Fixed the fibers with fiber tape on the cable holder

4.Remove the outside black layer

5.Fixed RRU power cable on the cable holder with the cable ties.

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1.Routing the DCDU power cable from the left side

Routing Indoor cabinet cabling layout instruction(2/2)

4.Routing PI power cable and PoE cable from right side to the TOP of cabinet

3. If default transmission cables is longer than routing, round cable and fix on the side of cabinet.

Remark: 1.If the default power cable is longer than the routing, cut it and make a new connector. 2.If there are more than one PI,PI install in 1U racket by the order from right to left

2.BBU power cable fix on the cable holder

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1 2

3 4

Connection plate for Outdoor TP adapting Flexible base( From Varna cluster)

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Cable tray solution ( Install RRU on cable tray rack) (1/4)

4 RRU on pole and 2 on tray rack Overview 6 RRU on tray rack Overview

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1. Install the cable tray base on concrete foundation

Fix the tray base on the antenna pole

Cable tray solution ( Install RRU on cable tray rack) (2/4)

Cable tray base

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Cable tray solution ( Install RRU on cable tray rack) (3/4)

2. Assemble the RRU rack

Two nuts

3. Install the RRU rack on the tray base

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Cable tray solution ( Install RRU on cable tray rack) (4/4)

4. Install RRU on the rack Notes: Each rack only for two RRUs

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Rectifier output

cable connection

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DCDU DC Power cable layout

Power

requirement LOAD0 LOAD1 LOAD2 LOAD3 LOAD4 LOAD5 LOAD6 LOAD7 LOAD8 LOAD9

DCDU- 12B-1

80A*2 1 3 5 7 9 11 BBU Reservation Reservation Reservation

DCDU- 12B-2

80A*2 2 4 6 8 10 12 BBU Reservation Reservation Reservation

DCDU-12B-1 DCDU-12B-2

BBU

RRUs begin from 900M to 1800M then 2100M, from 1 to 12;

Sector 1: Port 1=> 900 M Port 2=> 1800 M Port 3=> 2100M

Example: Sector 2: Port 4=> 900 M Port 5=> 1800 M Port 6=> 2100M

Sector 3: Port 7=> 900 M Port 8=> 1800 M Port 9=> 2100M

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Indoor PI (MW)

UMPTb1 (BTS)

Outdoor PI

(MW)

UMPTb1 (BTS)

BTS IP Transmission Connection

LAN Cable

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Feeder rule: When distance from Radio Unit to antenna is less/equal than 15m (15m) - 1/2 feeder to be used (up to 5m

premade jumper, 5m15m) - 7/8 feeder with 2m jumpers to be used

TMA to be used: TMA 900 MHz when distance from Radio Unit to antenna is (>15m) TMA 1800 MHz when distance from Radio Unit to antenna is (> 10m) TMA 2100 MHz when distance from Radio Unit to antenna is (> 10m)

Feeder and TMA Solution

20

Fixed-Length Flexible jumper (up to

5m)

15m+

900+1800+2100

TMA

>1015m+ UMTS/LTE

1800/2100

TMA

1015m+ NO TMA 900MHz

Feeder 900MHz +SMBT NO TMA

Remark: for the first scenario (

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5m

>5m 10m

AF part New Solution

900 RCU

1800 RCU

2100 RCU

RRU 900M

RRU 1800M

RRU 2100M

0.5M AISG

0.5M AISG

Feeder

S

B

T

0.5M AISG

900 RCU

1800 RCU

2100 RCU

RRU 900M

RRU 1800M

RRU 2100M

5M AISG

0.5M AISG

Jumper

0.5M AISG

Scenario_1 Scenario_2 + SBT

(Mainstream)

>5m 10m

5M AISG

900 RCU

1800 RCU

2100 RCU

RRU 900M

RRU 1800M

RRU 2100M

0.5M AISG

0.5M AISG

Feeder

AISG Extension

cable

Scenario_2 + AISG ext.

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900 RCU

1800 RCU

2100 RCU

>10m 15m

RRU 900M

RRU 1800M

RRU 2100M

0.5M AISG

2 M AISG

TMA

2100

TMA

1800

900 RCU

1800 RCU

2100 RCU

>15m

RRU 900M

RRU 1800M

RRU 2100M

0.5M AISG

2 M AISG

TMA

2100

TMA

1800

TMA

900

7/8 Feeder

AF part New Solution Scenario_3 Scenario_4

Jumper

Jumper

Jumper

Jumper

Feeder

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Antenna port 900_1800_2100 AFS

DXXX-790-960/1710-2180/1710-2180-65/65/65 Type: ATR451704v01

900M: Tx/RX A connect to RED + Tx/Rx B connect to RED ; 1800M: Tx connect to Blue B Rx connect to Blue B; 2100M: Tx connect to Blue T Rx connect to Blue T;

HISILICON SEMICONDUCTOR Page 24

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Tower RF Module Position/Installation

24

RRU close to antenna

RRU up to 10m to Antenna for 1800/2100Mhz and up to 15m (900Mhz) (No TMA) DC power cable (from BBU to RRU) Fiber (from BBU to RRU) RF jumper up to 5m (from RRU to Antenna) RF jumper >5m 15m (from RRU to Antenna)

(1/2 feeder could be used with connectors 7/16 male to RFF 1/2)

Pros No TMA and in most of the cases no feeder installation RF performance improvement (coverage & capacity)

Cons Might require tower reinforcement More difficult maintenance

RRU at the tower bottom RRU to antenna >10m for 1800/2100Mhz (TMA and feeder) RRU to antenna >15m for 900Mhz (TMA and feeder) DC power cable (from BBU to RRU) Fiber (from BBU to RRU) Distance from RRU to Antenna>15m Feeder 7/8 (from RRU to TMA) Distance from RRU to Antenna 15m Feeder 1/2 (from RRU to TMA) RF jumper (from TMA to Antenna)

RRU

RF Antenna

to BBU

DC power cable Fiber RF Jumper

TR Antenna

(1) RRU modules are always installed outdoor! (reduced heat dissipation inside = less electricity for A/C)

(2) RRU installation position is selected based on a simple BC considering cost of the required reinforcement vs. expected RF performance achievement/improvement

TMA

to RU

RF Antenna

RF Jumper RF Feeder 7/8

TR Antenna

HISILICON SEMICONDUCTOR Page 25

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Rooftop RF Module Position/Installation

25

TMA

RF Antenna

to RU

RF Jumper RF Feeder 7/8

TR Antenna

RRU to BBU

DC power cable Fiber RF Jumper

TR Antenna

(1) RRU modules are always installed outdoor (close or far from the antenna) (2) If RRU cannot be placed outdoor => Indoor cabinet

RRU close to antenna RRU up to 10m to Antenna for 1800/2100Mhz and up to 15m (900Mhz) (No TMA) RRU up to 15m to Antenna for 900Mhz (No TMA) DC power cable (from BBU to RRU) Fiber (from BBU to RRU) RF jumper up to 5m (from RRU to Antenna) RF jumper >5m 10m for 1800/2100Mhz (TMA and feeder) RRU to antenna >15m for 900Mhz (TMA and feeder) DC power cable (from BBU to RRU) Fiber (from BBU to RRU) Distance from RRU to Antenna>15m Feeder 7/8 (from RRU to TMA) Distance from RRU to Antenna 15m Feeder 1/2 (from RRU to TMA) RF jumper (from TMA to Antenna)

HISILICON SEMICONDUCTOR Page 26

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Cable/Feeder Installation Rules

26

BTS Outdoor or Indoor 7/8 or 1/2, copper or aluminum coax shall be used

Run-lengths over 75 meters shall be avoided

All feeder cables shall be fixed to masts, cable trays etc.

For vertical cable traces only cable hangers with clamps shall be used, strips and tapes are

not accepted

Jumpers are used for connecting: Feeder to antenna/TMA/BTS, RRU to antenna/TMA, TMA to antenna, connections with combiners/splitters/couples

Use premade 1/2'' Jumpers with 7/16 male connectors at both ends for lengths are 1/2/3/5m

For longer lengths (5

HISILICON SEMICONDUCTOR Page 27

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Cable/Feeder Installation Rules

27

RRU

RRU

TMA

RRU

Case 1:

Antenna-

RRU

HISILICON SEMICONDUCTOR Page 28

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Design of Antenna and installation rules

28

Base Station Antennas (BSA) Standard for rural areas (900 only): X-pol, 65 deg HBW, 7 deg VBW, 18 dBi; ports shall be shared by UMTS and

GSM system

Standard for triple band configurations in urban and suburban areas (900/1800/2100): XXX-pol.: 1x 790-960MHz + 2x 1710-2170MHz, 65 deg HBW, 7 deg VBW 18/18 dBi; 900 ports shall be shared by GSM and UMTS system, first 1710-2170 can be shared between GSM and LTE system, second 1710-2170 port can be shared between UMTS and LTE

Standard for dual band configurations in urban and suburban areas (1800/2100): X-pol 1710-2170MHz, 65 deg HBW, 7 deg VBW, 18dBi

In special cases 30 deg HBW, 8 deg VBW, 20 dBi high gain X-pol antennas shall be used for 790-960 and 1710-2170 ranges respectively

In situations where discrete installations are needed integrated 3-sector pole antennas shall be used

RET to be installed on all requested antenna ports as follow: Case with TMA one 2m AISG cable from TMA to the first RET. Cascade rest antenna RETs with 0.5m AISG

cables No TMA and distance from RRU to Antenna 5m 5m AISG cable from RRU to the first RET to be used.

Cascade rest antenna RETs with 0.5m AISG cables No TMA and distance from RRU to Antenna >5m Smart Bias Tee (SMBT) to be used for the first RET

and 0.5m AISG cables from SMBT to first RET. Cascade rest antenna RETs with 0.5m AISG cables

HISILICON SEMICONDUCTOR Page 29

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EAS Solution---TP Indoor with Generator Scenario

BTS BBU

Krone DDF Box

Door Temperature

&humidity

Smoke Air-condition

Low fuel DG.

Running

TP SMU

R-Phase down S-Phase down T-Phase down / AC Main failure (R+S+T phase down)

Rectifier failure

TP48200B

HISILICON SEMICONDUCTOR Page 30

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EAS Solution---TP Indoor with Generator Scenario ALM No. Globul ALM Requirement Existing Krone DDF to BBU New TP SMU to BBU

ALM1 High/Low Temperature High/Low Temperature

ALM2 Fire/Smoke Fire/Smoke

ALM3 Door open / Tamper Door open / Tamper

ALM4 Air conditioner failure Air conditioner failure

ALM5 R-phase down / Low fuel level Low fuel level R-phase down

ALM6 S-phase down / Backup generator running Backup generator running S-phase down

ALM7 T-phase down / AC Main failure (R+S+T phase down) Spare T-phase down / AC Main failure (R+S+T phase down)

ALM8 Rectifier failure Spare Rectifier failure

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EAS Solution---TP Indoor without Generator Scenario

BTS BBU

Krone DDF Box

Door Temperature

&humidity

Smoke Air-condition

TP SMU

R-Phase down S-Phase down T-Phase down / AC Main failure (R+S+T phase down)

Rectifier failure

TP48200B

HISILICON SEMICONDUCTOR Page 32

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EAS Solution---TP Indoor without Generator Scenario ALM No. Globul ALM Requirement Existing Krone DDF to BBU New TP SMU to BBU

ALM1 High/Low Temperature High/Low Temperature

ALM2 Fire/Smoke Fire/Smoke

ALM3 Door open / Tamper Door open / Tamper

ALM4 Air conditioner failure Air conditioner failure

ALM5 R-phase down / Low fuel level R-phase down

ALM6 S-phase down / Backup generator running S-phase down

ALM7 T-phase down / AC Main failure (R+S+T phase down) T-phase down / AC Main failure (R+S+T phase down)

ALM8 Rectifier failure Rectifier failure

HISILICON SEMICONDUCTOR Page 33

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EAS Solution---Reuse existing power system Indoor Scenario

BTS BBU

Krone DDF Box

Door Temperature

&humidity Smoke Air-condition

R-Phase down

/Low fuel

DG.Runnig

/ S-Phase down

T-Phase down/

AC Main failure

Rectifier failure

HISILICON SEMICONDUCTOR Page 34

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EAS Solution---Reuse existing power system Indoor Scenario

ALM No. Globul ALM Requirement Existing Krone DDF to BBU

ALM1 High/Low Temperature High/Low Temperature

ALM2 Fire/Smoke Fire/Smoke

ALM3 Door open / Tamper Door open / Tamper

ALM4 Air conditioner failure Air conditioner failure

ALM5 R-phase down / Low fuel level R-phase down / Low fuel level

ALM6 S-phase down / Backup generator running S-phase down / Backup generator running

ALM7 T-phase down / AC Main failure (R+S+T phase down) T-phase down / AC Main failure (R+S+T phase down)

ALM8 Rectifier failure Rectifier failure

HISILICON SEMICONDUCTOR Page 35

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EAS Solution---TP Outdoor Scenario

BTS BBU

Door Temperature

&humidity

Smoke

TP SMU

R-Phase down S-Phase down T-Phase down / AC Main failure (R+S+T phase down)

Rectifier failure

TP48200A

HISILICON SEMICONDUCTOR Page 36

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EAS Solution--- TP Outdoor Scenario

ALM No. Globul ALM Requirement Existing Krone DDF to BBU

ALM1 High/Low Temperature High/Low Temperature

ALM2 Fire/Smoke Fire/Smoke

ALM3 Door open / Tamper Door open / Tamper

ALM4 Air conditioner failure Spare (No Air conditioner)

ALM5 R-phase down / Low fuel level R-phase down (No generator)

ALM6 S-phase down / Backup generator running S-phase down (No generator)

ALM7 T-phase down / AC Main failure (R+S+T phase down) T-phase down / AC Main failure (R+S+T phase down)

ALM8 Rectifier failure Rectifier failure

HISILICON SEMICONDUCTOR Page 37

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Setting monitoring parameters for TP cabinet

1.Setting the Display Language

2.Setting the Date and Time

3.Setting Battery Parameters

4. Check the communication parameters

5. Connect the Laptop to TP SMU and set the dry contact

alarm parameters according to the guide file

6. Check the working status of the power system and

switch on the DC load for commissioning.

7. Power off the TP48200B after the load commissioning is

completed and make sure all breakers are OFF

Set the Bat number and capacity

following:

1*150Ah for 1 string of 150Ah,

1*300Ah for 2 strings of 150Ah,

1*450Ah for 3 strings of 150Ah,

1*600Ah for 4 strings of 150Ah

HISILICON SEMICONDUCTOR Page 38

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Outdoor TP Smoke sensor installation

Install the smoke sensor on the top of the cabinet

HISILICON SEMICONDUCTOR Page 39

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Outdoor TP temperature and humidity sensor installation

Install the temperature sensor on the left rack in the cabinet

HISILICON SEMICONDUCTOR Page 40

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AC Mains failure alarm test procedure

1. Power on the system normally with battery back up;

2. Switch off the AC input breaker and wait several minutes, view the active alarm information on the LCD,

and view the alarm information on M2000 to check if the alarm is reported;

3. Switch on the AC input breaker, view the active alarm information on LCD, and view the alarm information

on M2000 to check if the alarm disappeared.

Indoor TP (TP48200B) Outdoor TP (TP48200A)

HISILICON SEMICONDUCTOR Page 41

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Rectifier failure alarm test procedure

1. Insert a plastic stick to stop the rectifier fan and wait several minutes to check the rectifier fault. View the

active alarm information on the LCD, and view the alarm information on M2000 to check if the alarm is reported.

2. Remove the stick. View the active alarm information on LCD, and view the alarm information on M2000 to

check if the alarm disappeared.

HISILICON SEMICONDUCTOR Page 42

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: R153 G0 B0

22pt

) :18pt

:

LT Regular

: Arial

20pt

):18pt

Temperature and Door open alarm test procedure

Door open alarm test

1. Open the door of Cabinet or shelter to check the active alarm information on M2000 with OMC.

2. Close the door of Cabinet or shelter to check if the alarm is disappeared on M2000 with OMC.

HISILICON SEMICONDUCTOR Page 43

35pt

: R153 G0 B0

:

LT Medium

: Arial

32pt

: R153 G0 B0

22pt

) :18pt

:

LT Regular

: Arial

20pt

):18pt

One Team, One Goal, One Plan!