3G Implementation Plan Telenor in Pakistan
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Transcript of 3G Implementation Plan Telenor in Pakistan
RAN Implementation Workshop
Contents
Swap Scenario Demo
Swap Scenario introduction
BTS Solution
Power Solution
CME Solution
Joint Discussion
Swap Scenario Demo
BTS Swap Scenario Summarization
Site alteration solution(Indoor to Outdoor)
Demo for Scenario 1
Demo for Scenario 2
Demo for Scenario 3
Demo for Scenario 4
Macro or Distributed BTS selection
Scenario No Site Type ZTE BTS Type Existing Scenario Existing Space Swap Description
1 Distribution BS8700 Macro Indoor Sufficient Install ZTE BTS in designed
location and then swap
2 Distribution BS8700 Macro Outdoor Sufficient Install ZTE BTS in designed
location and then swap
3 Distribution BS8700 Macro Outdoor Insufficient Dismantle existing BTS and then
install ZTE BTS and swap
4 Outdoor BS8900A Macro Outdoor Sufficient Install ZTE BTS in designed
location and then swap
5 Outdoor BS8900A Macro Outdoor Insufficient Dismantle existing BTS and then
install ZTE BTS and swap
8 Outdoor BS8900A Macro Indoor Sufficient Install ZTE BTS in designed
location and then swap
9 Outdoor BS8900A Macro Indoor Insufficient Dismantle existing BTS and then
install ZTE BTS and swap
10 VIP Sites -- -- -- By Mobile BTS Swap
BTS Swap Scenario Summarization
Site alteration solution(Indoor to Outdoor)
Basically all BTS sites will be changed to Outdoor Type (around 800 sites)
except for TP’s special requirement to keep it.
What we need to do for this kind of sites:
Work Equipment Model Remark
New
New BTS Outdoor/
Distribute
Based on TSS (including new jumper)
Power Cabinet W301
Battery Cabinet 12V / 2V Based on TSS, All battery will be reused
Gen set 13.5KVA
AC PDB Based on TSS
Move/
Reuse
Microwave
(IDU)
NEC Move from Indoor to Outdoor Power
Rack. New cable may require
Battery From indoor rack to outdoor rack
Antenna / feeder Antenna will be reused during 2G SWAP
Dismantle
Existing BTS
Existing Gen set 20KVA
Existing Power System
Shelter
Power
Existing GSM On Air
Transmission Existing BTS
To Existing BSC
Downtime ZTE GSM
On Air Demo for Scenario 1: BS8700 swap existing Indoor site with sufficient space
Feeder cable Power cable Optical Fiber Transmission
Feeders
Power Off
ZTE BBU
Power On
ZTE RRU Can be installed by tower,
pole, wall mounted
Battery Rack
MW IDU
Step 1 Before swap. First install ZTE power cabinet. Then install ZTE BS8700 BBU&RRU, layout power cable and optical fiber.
Step 2 Downtime. Power off existing BTS. Transfer original MW IDU and battery into ZTE power cabinet. Disconnect feeder cable to antenna.
Step 3 Reconnect transmission cable between ZTE BBU and MW IDU. Reconnect ½ jumper cable from ZTE RRU to antenna.
Step 4 Power on ZTE BS8700 and set it on air. Step 5 After ZTE BS8700 working normally, dismantle original equipments and cables.
Transmission AC Power
ZTE power cabinet
2. Swap start; 3. Power Off original BTS
5. Connect the ½ jumper from ZTE RRU and antenna.
T0+00:05 4. Transfer original MW IDU into ZTE power cabinet, transmission cutover both BTS and BSC side.
Time T0=agreed swap start time point
T0+00:30
Rollback deadline ( If necessary)
1. Before swap. Install ZTE power cabinet first, then install ZTE BS8700(BBU+RRU), layout power cable and optical fiber.
T0
One day
6. Power on ZTE BS8700 T0+00:45
T0+01:00 7. Drive Test and Call test
T0+01:15
Time consumption analysis for Scenario 1
Preparation
60 min
8.Test result submit and evaluation
T0+04:00
Down Time: around 60 Min
AC Power Availability
Transmission Availability
Antenna and feeder Availability C
onditio
ns
Battery can remove into ZTE power cabinet during or after swap. After ZTE BS8700 working normally, dismantle the existing equipments.
Notes
AC Power
Transmission
Existing BTS Existing Power
Cabinet
DC
ZTE BBU
Feeders ZTE RRU Can be installed by tower,
pole, wall mounted
Step 1 Before swap. First install ZTE power cabinet. Then install ZTE BS8700 BBU&RRU, layout power cable and optical fiber.
Step 2 Downtime. Power off existing BTS. Transfer original MW IDU and battery into ZTE power cabinet. Disconnect feeder cable to antenna.
Step 3 Reconnect transmission cable between ZTE BBU and MW IDU. Reconnect ½ jumper cable from ZTE RRU to antenna.
Step 4 Power on ZTE BS8700 and set it on air.
Power Off
Demo for Scenario 2: BS8700 swap existing outdoor site with sufficient space
Feeder cable Power cable Optical Fiber Transmission
Power On
Step 5 After ZTE BS8700 working normally, dismantle original equipments and cables.
ZTE Power Cabinet
Battery Rack
MW IDU
Existing GSM On Air
Downtime ZTE GSM On Air
2. Swap start; 3. Power Off original BTS
5. Connect the ½ jumper from ZTE RRU and antenna.
T0+00:05 4. Transfer original MW IDU into ZTE power cabinet, transmission cutover both BTS and BSC side.
Time T0=agreed swap start time point
T0+00:30
Rollback deadline ( If necessary)
1. Before swap. Install ZTE power cabinet first, then install ZTE BS8700(BBU+RRU), layout power cable and optical fiber.
T0
One day
6. Power on ZTE BS8700 T0+00:45
T0+01:00 7. Drive Test and Call test
T0+01:15
Time consumption analysis for Scenario 2
Preparation
60 min
8.Test result submit and evaluation
T0+04:00
Down Time: around 60 Min
AC Power Availability
Transmission Availability
Antenna and feeder Availability C
onditio
ns
Battery can remove to ZTE power cabinet during or after swap. After ZTE BS8700 working normally, dismantle the existing equipments.
Notes
AC Power
Transmission
Existing BTS Existing Power
Cabinet
DC
Feeders
Step 1 Before swap. Install ZTE RRU, layout power cable and optical fiber to designed place. Step 2 Downtime. Power off existing BTS. Then disconnect cables ,dismantle existing equipments. Step 3 Install ZTE power cabinet first, then install ZTE BBU in ZTE power cabinet. Connect RRU power cable and optical fiber. Transfer original MW IDU and battery into ZTE power cabinet.
Step 5 Power on ZTE BS8700 and set it on air.
Power Off
Demo for scenario 3: BS8700 swap existing outdoor site with insufficient space
Feeder cable Power cable Optical Fiber Transmission
Step 6 After ZTE BS8700 working normally, dismantle original feeder cables.
Battery Rack
ZTE BBU
AC Power
ZTE Power Cabinet
Transmission
Step 4 Reconnect transmission cable between ZTE BBU and MW IDU. Reconnect ½ jumper cable from ZTE RRU to antenna.
MW IDU
ZTE RRU Can be installed by tower, pole, wall mounted
Power On
Downtime ZTE GSM
On Air Existing GSM
On Air
2. Swap start, power Off original BTS and power rack.
T0+00:05
1. Install ZTE RRU before swap. Layout power cable and optical fiber to designed place before swap.
T0
Time T0=agreed swap start time point
T0+02:00 4. Install ZTE power cabinet first, then install ZTE BBU in the power cabinet. Connect power cable and optical fiber. Transfer MW IDU into ZTE power cabinet.
Preparation
T0+04:00
T0+05:00
T0+05:15
T0+04:45 7. Power on ZTE BS8700 and set it on air.
8. Drive Test and Call test
300 min
9.Test result submit and evaluation
Down Time: around 300 Min
3. Disconnect original BTS power, jumper and transmission cable. Then dismantle original BTS and power cabinet.
Time consumption analysis for Scenario 3
5. Transmission cable layout. Reconnect ½ jumper cables to original feeder cables.
AC Power Availability
Transmission Availability
Antenna and feeder Availability C
onditio
ns
AC Power
Power Distribution
To existing BSC
Transmission Rack
Existing BTS
Feeders
Transmission
ZTE power cabinet
BS8900A
Power Off
MW IDU
Battery
ZTE GSM On Air
Existing GSM On Air
Power On
Step 1 Before swap. Install ZTE BS8900A and power cabinet. Layout power and ½ jumper cable.
Step 4 Power on ZTEBS8900A and set it on air. Step 3 Transmission cutover. Layout transmission cable. Reconnect ½ jumper cable s to original feeder cables.
Step 2 Downtime. Power off existing BTS and then transfer MW IDU and battery to ZTE power cabinet. Step 5 After ZTE BTS working normally. dismantle original equipments.
Feeder cable Power cable Optical Fiber Transmission
Demo for Scenario 8: ZTE BS8900A swap existing indoor site with sufficient space
Downtime
2. Swap start, power Off original BTS and power rack.
T0+00:02
1. Installation ZTE BS8900A rack and power cabinet, layout power and ½ jumper cable before swap.
T0
Time T0=agreed swap start time point
T0+00:15
Rollback deadline ( If necessary) T0+05:00
4. Transfer original MW IDU to ZTE power cabinet, transmission cutover both BTS and BSC side.
Preparation
T0+01:00
T0+03:00
T0+04:15
T0+02:45 6. Power on ZTE BS8900A and set on air.
8. Drive Test and Call test
180 min
9.Test result submit and evaluation
Down Time: around 180 Min
3. Disconnect original BTS jumper and transmission cable
After ZTE BS8900A working normally, transfer battery to ZTE power cabinet. Dismantle original BTS and power cabinet (If required).
Time consumption analysis for Outdoor swap Indoor
5. After transmission is ok ,feeder cable modification (if necessary)and remake the connectors (if necessary). Test VSWR and then reconnect ½ jumper cables to feeder cables.
AC Power Availability
Transmission Availability
Antenna and feeder Availability C
onditio
ns
Notes
Macro or Distributed BTS selection
Condition Addition Work Site Type
Available tower load and space No Distributed BTS
and RRU on
Tower (close to
the Antenna)
Space available, not enough load Tower Strengthen
No enough space but enough load Structure Design
No space or no load for the tower
No Macro BTS Hub sites
Share sites
Distributed solution is preferred to save cable loss and achieve better
performance.
Swap Scenario introduction
Indoor to Outdoor
Outdoor to Outdoor
Indoor to Indoor
Swap scenario Overview
Material Proposal Cable type Cable Name From To Sceneria New Reused Dismantle Remark
Power cable P0 Genset ATS/ACDB Indoor to Outdoor √ √
Power cable P1 ATS/ACDB DC Indoor to Outdoor √ √
Power cable P2 DC BTS Indoor to Outdoor √ √
Power cable P3 DC Battary Indoor to Outdoor √ √
Grounding cable G0 Grounding System Grounding Bar Indoor to Outdoor √ √
Grounding cable G1 DC Grounding Bar Indoor to Outdoor √ √
Grounding cable G2 BTS Grounding Bar Indoor to Outdoor √ √
Grounding cable G3 Battery Grounding Bar Indoor to Outdoor √ √
Grounding cable G4 ATS/ACDB Grounding Bar Indoor to Outdoor √ √
Grounding cable G5 Genset Grounding Bar Indoor to Outdoor √ √
Feeder Feeder BTS Antanna Indoor to Outdoor √
Fiber Fiber BBU RRU Indoor to Outdoor √
Jumper Jumper RRU Antanna Indoor to Outdoor √
Signal cable E1 cable
/Utp5 cable BTS/BBU IDU Indoor to Outdoor √ √
MW cable MW cable IDU ODU Indoor to Outdoor
Swap scenario Overview
Material Proposal Cable type Cable Name From To Sceneria New Reused Dismantle Remark
Power cable P0 Genset ATS/ACDB Indoor to Outdoor
Power cable P1 ATS/ACDB DC Indoor to Outdoor √ √ √
Power cable P2 DC BTS Indoor to Outdoor √ √
Power cable P3 DC Battary Indoor to Outdoor √ √ √
Grounding cable G0 Grounding System Grounding Bar Indoor to Outdoor
Grounding cable G1 DC Grounding Bar Indoor to Outdoor √ √ √
Grounding cable G2 BTS Grounding Bar Indoor to Outdoor √ √ √
Grounding cable G3 Battery Grounding Bar Indoor to Outdoor √ √ √
Grounding cable G4 ATS/ACDB Grounding Bar Indoor to Outdoor
Grounding cable G5 Genset Grounding Bar Indoor to Outdoor
Feeder Feeder BTS Antanna Indoor to Outdoor √
Fiber Fiber BBU RRU Indoor to Outdoor √
Jumper Jumper RRU Antanna Indoor to Outdoor √
Signal cable E1 cable
/Utp5 cable BTS/BBU IDU Indoor to Outdoor √ √
MW cable MW cable IDU ODU Indoor to Outdoor
Swap scenario Overview
Material Proposal Cable type Cable Name From To Sceneria New Reused Dismantle Remark
Power cable P0 Genset ATS/ACDB Indoor to Outdoor
Power cable P1 ATS/ACDB DC Indoor to Outdoor √ √ √
Power cable P2 DC BTS Indoor to Outdoor √ √ √
Power cable P3 DC Battary Indoor to Outdoor √ √ √
Grounding cable G0 Grounding System Grounding Bar Indoor to Outdoor
Grounding cable G1 DC Grounding Bar Indoor to Outdoor √ √ √
Grounding cable G2 BTS Grounding Bar Indoor to Outdoor √ √ √
Grounding cable G3 Battery Grounding Bar Indoor to Outdoor √ √ √
Grounding cable G4 ATS/ACDB Grounding Bar Indoor to Outdoor
Grounding cable G5 Genset Grounding Bar Indoor to Outdoor
Jumper Jumper BTS Antanna Indoor to Outdoor √
Feeder Feeder BTS Antanna Indoor to Outdoor √
Fiber Fiber BBU RRU Indoor to Outdoor
Jumper Jumper RRU Antanna Indoor to Outdoor
Signal cable E1 cable
/Utp5 cable BTS/BBU IDU Indoor to Outdoor √ √
MW cable MW cable IDU ODU Indoor to Outdoor
Swap scenario Overview
Material Proposal Cable type Cable Name From To Sceneria New Reused Dismantle Remark
Power cable P0 Genset ATS/ACDB Indoor to Outdoor
Power cable P1 ATS/ACDB DC Indoor to Outdoor √ √ √
Power cable P2 DC BTS Indoor to Outdoor √ √
Power cable P3 DC Battary Indoor to Outdoor √ √ √
Grounding cable G0 Grounding System Grounding Bar Indoor to Outdoor
Grounding cable G1 DC Grounding Bar Indoor to Outdoor √ √ √
Grounding cable G2 BTS Grounding Bar Indoor to Outdoor √ √ √
Grounding cable G3 Battery Grounding Bar Indoor to Outdoor √ √ √
Grounding cable G4 ATS/ACDB Grounding Bar Indoor to Outdoor
Grounding cable G5 Genset Grounding Bar Indoor to Outdoor
Feeder Feeder BTS Antanna Indoor to Outdoor √
Fiber Fiber BBU RRU Indoor to Outdoor √
Jumper Jumper RRU Antanna Indoor to Outdoor √
Signal cable E1 cable
/Utp5 cable BTS/BBU IDU Indoor to Outdoor √ √
MW cable MW cable IDU ODU Indoor to Outdoor
Swap scenario Overview
Material Proposal Cable type Cable Name From To Sceneria New Reused Dismantle Remark
Power cable P0 Genset ATS/ACDB Indoor to Outdoor
Power cable P1 ATS/ACDB DC Indoor to Outdoor √ √ √
Power cable P2 DC BTS Indoor to Outdoor √ √ √
Power cable P3 DC Battary Indoor to Outdoor √ √ √
Grounding cable G0 Grounding System Grounding Bar Indoor to Outdoor
Grounding cable G1 DC Grounding Bar Indoor to Outdoor √ √ √
Grounding cable G2 BTS Grounding Bar Indoor to Outdoor √ √ √
Grounding cable G3 Battery Grounding Bar Indoor to Outdoor √ √ √
Grounding cable G4 ATS/ACDB Grounding Bar Indoor to Outdoor
Grounding cable G5 Genset Grounding Bar Indoor to Outdoor
Jumper Jumper BTS Antanna Indoor to Outdoor √
Feeder Feeder BTS Antanna Indoor to Outdoor √
Fiber Fiber BBU RRU Indoor to Outdoor
Jumper Jumper RRU Antanna Indoor to Outdoor
Signal cable E1 cable
/Utp5 cable BTS/BBU IDU Indoor to Outdoor √ √
MW cable MW cable IDU ODU Indoor to Outdoor
BTS Solution
BTS Swap Scenario Summarization
RRU Configuration Principle
Antenna Usage / Swap
Alarm
8700
8900
8908
Material list
BTS Swap Scenario Summarization
No Classification Scenario Strategy
1
Indoor Site
1、Space and load of Tower were enough for RRU 2、Tower owner was TP
Swap to Distribute 8700
2 1、Space or load of tower were not enough. 2、sharing sites: sharing location was rejected by operator
Swap to Outdoor 8900
1
Outdoor Site
1、Space and load of Tower were enough for RRU 2、Tower owner was TP
Swap to Distribute 8700
2 1、Space or load of tower were not enough. 2、sharing sites: sharing location was rejected by operator
Swap to Outdoor 8900
1 Special case Due to location、Power supply Swap to Outdoor 8908
RRU Configuration Principle
Single Band
900M S1~S3 MBR
S4 R8860E
1800M
S1~S4 R8860E
S5~S6 R8882
S7~S8 R8860E+R8860E
S9~S12 R8882+R8882
Dual Band
900M 1800M Configuration
S1~3 S1~S3 MBR
S4 S1~S4 R8860E(900M)+R8860E(1800M)
S1~4 S5~S6 R8860E(900M)+R8882(1800M)
S1~4 S7~S10 R8860E(900M)+R8882(1800M)+R8860E(1800M)
Antenna Solution for 3G All Antenna will be reused in 2G SWAP. Only 3G comes, the antenna will be
SWAP or added
For 3G, single band 2.1GHz antenna is preferred
Site Type Frequency Space available for
new 2.1G Antenna Solution
Share Sites
Dual Band
Yes Add new 2.1G Antenna
No Change to Tri- band
antenna
Single Band
Yes Add new 2.1G Antenna
No Change to Dual-band
Antenna
Non-Share Sites
Dual Band
Yes Add new 2.1G Antenna
No Change to Tri- band
antenna
Single Band
Yes Add new 2.1G Antenna
No Change to Dual-band
Antenna
For Single Band site (900 or1800) upgrade to Dual band, dual band/Tri band antenna
swap is proposed. (Using the 900 Antenna Position and Pole)
Alarm Handling Outdoor Alarms existing mentioned
Block # Pair # Alarm description Alarm description with ZTE System Alarm description with non-ZTE System
Powerone Rectifier (Outdoor)
01 High Voltage
02 Door Open
03 AC Main Fail
04 Low Voltage
05 Distribution Fuse
06 Temp
07 Generator Running
08 OB Light
09 Low Fuel
10 GEM Active
ELTEK Rectifier
(Outdoor)
01 Rectifier Fail
02 Door Open
03 AC Main Fail
04 Low Voltage
05 HEX/LOAD
06 High Voltage
07 Generator Running
08 OB Light
09 Low Fuel
10 GEM Active
11 NIL
12 GEM Fail
Alarm Handling Indoor Alarms existing mentioned
Block # Pair # Alarm description Alarm description handling with ZTE System
Alarm description handling with non-ZTE System
Indoor
BTS
Alarms
01 NIL
02 NIL
03 NIL
04 NIL
05 NIL
06 NIL
07 Generator Running
08 OB Light
09 Low Fuel
10 Door Open
11 Hi Temp
12 Air Conditioner
13 Smoke Detector
14 AVR
15 GEM Active
16 GEM Fail
17 High Voltage
18 High Load
19 AC Main Fail
20 Low Voltage
Base Band Unit The ZXSDR B8200 GU360 is used as base band unit for GSM and UMTS.
The following cards are used within the BBU
PM Module
CC Control and Clock Module
UBPG Universal Baseband Processing for GSM
BPC Baseband Processing Board Type C
BPK Baseband Processing Board Type K
FS Fabric Switch Module
SA Site Alarm
FAN Fan Module
Dimensions: 88.4 (h) x 482.6 (w) x 197 (d)
Weight: 8.75kg
Power Consumption: 240W
Product Description:
Remote Radio Unit 3 RRU types are used:
Type Frequency
Band Weight Dimensions
Max Power consumption
Breaker requirement
Product Description
R8840 2100Mhz 16.5kg 370x320x160 288W 16A
R8860E 900Mhz 20.0kg 370x320x160 335W 16A
R8882 1800Mhz 23.0kg 472x320x152 455W 16A
R8882 B8200 R8860 R8840
Radio Unit — ZXSDR R8860E/RSU60E
1T2R
Capacity:
6TRXs/4Cs/4TRXs+1C/2TRXs+2Cs
Max TOC:
80W
Receiving Sensitivity:
GSM : -113.5dBm@single antenna
UMTS: -129.1dBm@dual antennas
Frequency band:
850M/900M/1800M/1900M
Power Supply: -48V DC, 220V/110V AC
Temperature Range: -40℃ to +55℃
Protection Class: IP65
Environment Indices(R8860E) Interface Indices
2*1.25Gbps CPRI optical interfaces
2*Antenna interfaces
1 AISG interface
1 Frequency extension interface
Performance Indices
MCPA based, high PA efficiency
Supporting GU dual mode
High output power
37
0 m
m
320 mm
Remote Radio Unit — ZXSDR R8882
320 mm
48
0 m
m
Capacity:
G/U: 2*4 TRXs or 2*2Cs
GU : 2*(4TRXs+1C)/2*(2TRXs+2Cs)@900M
GL : 4 TRXs+1*20M cell/8 TRXs+1*10M cell@1800M
UL : 2 Carriers + 1*10M cell in MIMO 2*2@2100M
Output Power: 2*60W
Receiving Sensitivity:
GSM : - 113.5dBm@single antenna
UMTS: -129.1dBm@dual antennas
LTE : -103.5dBm@5/10/15/20M
Frequency: 850/900/1800/1900M /2100M
TPC:
GU900M: 300W@2*4G1U|GL1800M: 300W@8TRXs+10M
Power Supply: -48V DC
Temperature Range: -40℃ to +55℃
Protection Class: IP65
Interface: 2 CPRI optical interfaces
Physical Index
Volume: 480 mm*320 mm*150 mm (H*W*D)
Weight: 20 Kg
20Kg
MCPA based , high PA efficiency
Supporting GU or GL dual mode
2T4R, supporting 2 sectors or MIMO 2*2
Large capacity and easy expansion
High speed CPRI optical interface
PA PA
Tx/Rx Tx/Rx Rx Rx
Performance Index
PA PA PA PA PA PA
Radio Unit — ZXSDR RSU82
Volume: 482 mm*72 mm*360 mm (H*W*D)
Weight: 15 kg
Physical Index
MCPA based, high PA efficiency
Supporting GU,GL or UL dual mode
Large capacity and easy expansion
One module supports 2 sectors or
MIMO
Performance Index 2T4R
Capacity:
GU: 2*(4TRXs+1C)/2*(2TRXs+2Cs)@900M
GL : 2*2TRXs+10M@900M
2*2TRXs+20M/2*4TRXs+10M@1800M
UL : 2*1C+10M @2100M
Max TOC:
900M/1800M: 2*80W|2100M: 2*60W
Receiving Sensitivity:
GSM : -113.5dBm@single antenna
UMTS: -129.2dBm@dual antennas
UMTS: -131.9dBm@UMTS four antennas
LTE: -103.5dBm@LTE 2*2MIMO, 5/10/15/20M
Frequency Band:
700/DD/850/900/1800/AWS/1900/2100MHz
2 CPRI optical interfaces
4*Antenna interfaces
1 AISG interface
Interface Index
Radio Unit — ZXSDR R8840/RSU40
1T2R
Capacity:
4 carriers
Max TOC:
60W
Receiving Sensitivity:
UMTS: -129.2dBm@dual antennas
Frequency band:
2100M/AWS
Performance Index
Interface Index
2*1.25Gbps CPRI optical interfaces
2*Antenna interfaces
1 AISG interface
1 Frequency extension interface
MCPA based, high PA efficiency
Supporting 4 UMTS carriers
Mature commercial application
37
0 m
m
Power Supply: -48V DC, 220V/110V AC
Temperature Range: -40℃ to +55℃
Protection Class: IP65
Environment Indices(R8860E)
Integrated Outdoor Macro BTS — ZXSDR BS8900A
Radio Unit: RSU40/ RSU60E/RSU82
Physical Index Volume : 1600 mm *600 mm *600 mm (Standard style)
Weight: 190 kg (BC8910A+RC8911A, without battery)
Performance Index
Capacity:
GU : GSM 36 TRXs + UMTS 12 CSs
GUL: GSM 24 TRXs + UMTS 12 CSs + LTE 3*20M Cells
Output Power:
900M/1800M: 80W/2*80W| 2100M: 60W/2*60W
Receiving Sensitivity:
GSM : -113.5dBm@single antenna
UMTS: -129.2dBm@dual antennas
UMTS: -131.9dBm@UMTS four antennas
LTE: -103.5dBm@LTE 2*2MIMO, 5/10/15/20M
TPC :
G S444+ US111: 655W
G S666+ U S222+ L S111: 1475W
Power Supply: -48V DC, 220V AC, 380V AC
Protection class: IP55
Base Band Unit: B8200
Supporting GUL multi-mode
All in one outdoor site solution
2–8 hours battery backup
Complete Style
Large capacity
Rich interfaces
Smooth evolution
Interface Index
Abis/Iub/S1/X2 interface:
8 E1/T1 (Expandable to 16)
1 GE optical or 1*GE/FE electrical
2 STM-1 (not for S1/X2)
CPRI interface:
Max. 12 CPRI optical or GE/FE interfaces
ZXSDR BS8900A Cabinets Introduction
BC8910A RC8910A RC8911A PC8910A
Baseband
cabinet
Radio
cabinet
Battery
cabinet
ZXSDR BS8900A Component Module
Dimension of each cabinet (H*W*D) :
800 mm*600 mm*600 mm
Weight:
BC8910A: 94 kg
RC8910A: 127 kg (RSU40/RSU60E)
139 kg (RSU82)
RC8911A: 93 kg (RSU40/RSU60E)*
99 kg (RSU82)*
PC8910A: 47 kg*
* Without battery
Temperature Range:
-40 °C to +55°C
Protection: IP55
800 mm
600 mm
600 mm
Outdoor Mini BTS — ZXSDR BS8908
42
0 m
m
Interface Index
Abis Interface:
4*E1/T1
1*GE/FE optical or 1*GE/FE electrical
Performance Index
Capacity: O6 or S444 (three units in cascading)
Output Power: 40W (GMSK) / 25W (8PSK)
Receive Sensitivity: -112dBm@single antenna
Frequency: 900M/1800M
Typical Power Consumption (DC): 160W (900M)
Power Supply: -48V DC, 220V/110V AC
Temperature Range: -40°C to +55°C
Protection Class: IP65
Transmission: SDH, IP, microwaves & satellite
Physical Index
Volume: 420 mm*315 mm*100 mm (H*W*D)
Weight: 13 kg
13 kg
Low power consumption
Flexible networking
Optimized design
Natural cooling
Roof top Tower top
DC Power Distributor 4 The DCPD4 is used when the existing DC power system is re-used, either for indoor or outdoor sites
and has the following functions:
1) Provides one channel of -48V DC power input and supports a current of not more than 80A 2) Provides eight channels of DC power output, each of which is controlled by an independent 20A air switch to support a current of not more than 16A 3) Provides lightning protection and surge protection for the power output through a built-in lightning protection board 4) Provides dry contact alarm output on the lightning protection board Dimensions: 465X44.45X200 (19inch / 1U) Weight: 5.0kg Breaker size of existing power system 80A
PE grounding
poleLightning protection
alarm port
DC power
input port (×1)
Output circuit
breaker (×8)DC power
output port (×8)
Outdoor Lightning Protection The PIMDC module will be used for all RRU types as outdoor lightning protection. The PIMDC
module can be mounted directly onto the each individual RRU.
R8840 – Example R8860E – Example R8882 – Example
Product Description
Material List Cable type From To Name Discription Special requirement Resource
Power cable Genset ATS/ACDB
Power cable ATS/ACDB DC W301(T601) AC power cable 4*16mm2 Local purchase
Power cable DC BTS 8900 DC Power cable 4*16mm2 product supply
Power cable DC BBU BBU DC Power calbe 4mm2、6mm2、10mm2 product supply
Power cable DC Battery Battary power cable ??? Local purchase
Grounding
cable
Grounding
System Grounding Bar Grounding Main cable Local purchase
Grounding
cable DC Grounding Bar DC Grounding cable 1*16mm2 product supply
Grounding
cable BTS Grounding Bar 8900 Grounding cable 1*16mm2 product supply
Grounding
cable Battery Rack Grounding Bar Battary Rack Grounding cable 1*16mm2 product supply
Grounding
cable ATS/ACDB Grounding Bar
Grounding
cable Genset Grounding Bar
Jumper BBU Antanna 1/2 jumper 1/2 jumper cable less
than 10 meter product supply
Fiber BBU RRU Fiber
2m – 3m – 5m – 10m – 20m
– 25m – 30m – 35m – 40m
– 45m – 50m – 60m – 70m
product supply
Jumper RRU Antanna 1/2 jumper product supply
Signal cable BTS/BBU IDU E1/UTP5 E1 cable and UTP5 cable product supply
Material (DC Cable、Fiber Cable、RF Cable)
DC Cable:The following cross sections shall be used
Cross-Section
Max. Cable run for R8840
Max. Cable run for R8860E
Max. cable run for R8882
4mm2 >0m <110m >0m <90m >0m <60m
6mm2 >110m =<170m >90m =<140m >60m =<100m
10mm2 >170m =<290m >140m =<240m >100m =<170m
16mm2 - - >170m =<250m
2m – 3m – 5m – 10m – 20m – 25m – 30m – 35m – 40m – 45m – 50m – 60m – 70m
Jumper:
Typically new RF jumper cables will be installed.
1/2 jumper cable should be less than 15 meter. DIN connectors will be typically used.
Power solution
DC Swap Scenario Summarization
DC System Swap solution
Product description
Scenario No Site Type Equipment Voltage Swap Description Swap Description
1 Outdoor DC TP SWAP LIST W301
2 Outdoor DC DC Re-used
8700 used BC 8910
3 Outdoor Battery 12V Battery Re-used
New Cabinet ZTE Rack
4 Outdoor Battery 2V Battery Re-used
Cabinet Re-used
5 Indoor DC TP SWAP LIST T601
6 Indoor DC DC Re-used
8700 used BC 8910
7 Indoor Battery 12V Battery Re-used
New Cabinet ZTE Rack
8 Indoor Battery 2V Battery Re-used
Cabinet Re-used
DC Swap Scenario Summarization
No Site type Scenario Solution Swap Description Remark
1 indoor to outdoor ATS(indoor)
ACDB(indoor) ATS&ACDB SWAP Swap to IPS Class A
2 indoor to outdoor ATS(outdoor)
ACDB(indoor)
ATS SWAP
ACDB reused New ACDB Class A
3 outdoor to outdoor ACDB ACDB Reused
(CW Or no CW) ACDB Reused
Pay attention to
ACDB location
ATS/ACDB Swap Scenario
Power Solution
1、TP decide the Existing Power System will be reused or not
Example:
2、 For New rectifier site,ZTE will provide BC8910 for
8700 installation.
For EOL sites, ZTE will provide the Outdoor
Power Cabinet W301
Totally 18U space available
5U reserved for BBU (for distributed BTS)
Rest space for MW IDU
More than 5 IDU sites, the MW vendor should
Provide a separate Outdoor Cabinet.
18U
Zone Site ID Site Type Configuration Rectifier Status
Zone1 IPSO02 Outdoor Metro 2/0/0/0-0/0/0/0 EOL
Zone1 IIB237 out door Macro 0/0/0/0-2/0/0/0 EOL
Zone1 IIB252 Distributed 222/222 EOL
Zone1 IRP768 Distributed 222/222 New rectifier
Zone1 IRP771 Distributed 222/222 New rectifier
Battery Swap Solution
All battery will be reused.
1、If the power will not be swapped, the
battery will not be swapped either.
2、If the existing battery is 12V,
ZTE will provide outdoor battery
cabinet. The existing battery will be
moved to ZTE battery cabinet
3、If the existing battery is 2V, ZTE
only provide rectifier cabinet. Existing
battery and battery cabinet will be
reused.
12V battery cabinet
T601
CME Solution
PAD Foundation
Rack Foundation(New base frame)
RRU Bracket
Sunshade Structure
Antenna Bracket
Other CME
PAD Foundation Scenario No Site Type Swap Solution Height PDF
Model 1 2 Cabinet Water floor area 600mm high
Model 2 3 Cabinet Water floor area 600mm high
Model 3 2 Cabinet 200mm high
Model 4 3 Cabinet 200mm hight
Rack Foundation(New base frame)
Scenario No Site Type Existing Swap Solution Remark
Model 1 Rooftop
Greenfield Base frame New base frame Each rank two base frame
Model 2 Rooftop
Greenfield Base frame
Dismantle Channel steel
New base frame Each rank two base frame
Model 3 Rooftop
Greenfield Base frame
Dismantle existing structure
Installation on existing foundation
Dismantle
New base frame
M
o
d
e
l
1
M
o
d
e
l
2
M
o
d
e
l
3
New
base
frame
Dismantle
Put on concrete
RRU Bracket
No Tower type PDF Format remark
1 Generic tower
2 Monopole
3 Guy-mast (single RRU)
4 Guy-mast (double RRU)
5 Angle tower
6 Pipe leg
7 Pipe leg with long bolts
7 RRU Brackets was designed for tower type for TP project
Sunshade Foundation No Sunshade Type Description Remark
Model 1 2 Cabinet
Model 2 3 Cabinet
Antenna Bracket No Pole length Description Remark
Model 1 antenna 2 m
Model 2 antenna 3 m
2m 3m
Other CME No CME Type Description Design Remark
1 Cable Bridge
2
Cable Bridge