ZTE R8860EGU198B Outdoor GSM/UMTS Dual Mode Remote Radio Unit User Manual

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Document Title	User Manual

ZXSDR R8860E GU198
Outdoor GSM&UMTS Dual Mode Macro RRU
User Manual
HV2.0
ZTE CORPORATION
NO. 55, Hi-tech Road South, ShenZhen, P.R.China
Postcode: 518057
Tel: +86-755-26771900
Fax: +86-755-26770801
URL: http://ensupport.zte.com.cn
E-mail: support@zte.com.cn
LEGAL INFORMATION
Copyright © 2011 ZTE CORPORATION.
The contents of this document are protected by copyright laws and international treaties. Any reproduction or
distribution of this document or any portion of this document, in any form by any means, without the prior written
consent of ZTE CORPORATION is prohibited.
Additionally, the contents of this document are protected by
contractual confidentiality obligations.
All company, brand and product names are trade or service marks, or registered trade or service marks, of ZTE
CORPORATION or of their respective owners.
This document is provided “as is”, and all express, implied, or statutory warranties, representations or conditions
are disclaimed, including without limitation any implied warranty of merchantability, fitness for a particular purpose,
title or non-infringement. ZTE CORPORATION and its licensors shall not be liable for damages resulting from the
use of or reliance on the information contained herein.
ZTE CORPORATION or its licensors may have current or pending intellectual property rights or applications
covering the subject matter of this document. Except as expressly provided in any written license between ZTE
CORPORATION and its licensee, the user of this document shall not acquire any license to the subject matter
herein.
ZTE CORPORATION reserves the right to upgrade or make technical change to this product without further notice.
Users may visit ZTE technical support website http://ensupport.zte.com.cn to inquire related information.
The ultimate right to interpret this product resides in ZTE CORPORATION.
Revision History
Revision No.
Revision Date
Revision Reason
R1.0
2011-05-31
First edition
Serial Number: SJ-20101210110401-002
Publishing Date: 2011-05-31
Contents
About This Manual ......................................................................................... I
Chapter 1 System Overview ...................................................................... 1-1
1.1 System Background ........................................................................................... 1-1
1.2 System Positions................................................................................................ 1-1
1.2.1 System Position in Network....................................................................... 1-1
1.2.2 BBU and RRU.......................................................................................... 1-2
1.3 System Running Environment ............................................................................. 1-3
1.4 RRU Appearance ............................................................................................... 1-5
1.5 System Features ................................................................................................ 1-5
1.6 Services and Functions ...................................................................................... 1-6
1.7 System Operation and Maintenance .................................................................... 1-8
Chapter 2 Technical Indices ...................................................................... 2-1
2.1 Physical Indices ................................................................................................. 2-1
2.2 Radio Performance Indices ................................................................................. 2-2
2.3 Interface and Transmission Indices...................................................................... 2-3
Chapter 3 Structure and Principles .......................................................... 3-1
3.1 Structure Layout................................................................................................. 3-1
3.1.1 External Interfaces ................................................................................... 3-1
3.1.2 Indicators and Buttons .............................................................................. 3-2
3.2 Hardware Principle ............................................................................................. 3-4
3.2.1 Hardware Architecture .............................................................................. 3-4
3.2.2 Board Functions ....................................................................................... 3-5
3.3 Software System ................................................................................................ 3-7
3.3.1 Software Architecture ............................................................................... 3-7
3.3.2 Software Functions................................................................................... 3-7
Chapter 4 Installation ................................................................................. 4-1
4.1 Saftey Description .............................................................................................. 4-1
4.1.1 Safety Specifications Guide ...................................................................... 4-1
4.1.2 Safety Symbols ........................................................................................ 4-2
4.1.3 Safety Instructions.................................................................................... 4-4
4.2 Preparation ........................................................................................................ 4-7
4.2.1 Engineering Condition Inspection .............................................................. 4-8
4.2.2 Requirements to Onsite Personnel ............................................................ 4-9
4.2.3 Technical Document Preparation ............................................................... 4-9
4.2.4 Tools and Instruments Preparation .......................................................... 4-10
4.3 Unpacking and Checking .................................................................................. 4-15
4.3.1 Container of R8860E GU198................................................................... 4-15
4.3.2 Flow of Unpacking and Checking ............................................................ 4-16
4.4 Installation Overview ........................................................................................ 4-17
4.4.1 Installation Flow ..................................................................................... 4-17
4.4.2 Hoisting Operation Instructions................................................................ 4-18
4.5 Cabinet Installation........................................................................................... 4-21
4.5.1 Installation Mode Instruction.................................................................... 4-21
4.5.2 Installation Methods and Accessories ...................................................... 4-21
4.5.3 R8860E GU198 Installation..................................................................... 4-27
4.6 External Cable Installation ................................................................................ 4-46
4.6.1 External Cable Layout ............................................................................ 4-46
4.6.2 External Cable Installation Flow .............................................................. 4-48
4.6.3 Installing Power Cable ............................................................................ 4-49
4.6.4 Installing Grounding Cable ...................................................................... 4-50
4.6.5 Installing Fiber between BBU and RRU.................................................... 4-51
4.6.6 Installing Fiber between RRU and RRU ................................................... 4-52
4.6.7 Installing Environment Monitoring Cable .................................................. 4-53
4.6.8 Installing AISG Control Cable.................................................................. 4-55
4.6.9 Installing Frequency Point Extension Cable.............................................. 4-56
4.6.10 Installing Jumper .................................................................................. 4-56
4.7 Hardware Installation Inspection........................................................................ 4-57
4.7.1 Checking Cabinet Installation .................................................................. 4-57
4.7.2 Checking Cable Installation..................................................................... 4-58
4.7.3 Checking Main Antenna System Installation............................................. 4-61
4.8 Power on and off .............................................................................................. 4-61
4.8.1 Power on Preparation ............................................................................. 4-61
4.8.2 Power ON.............................................................................................. 4-61
4.8.3 Power OFF ............................................................................................ 4-62
Chapter 5 RRU Connections with Antenna Feeder System ................... 5-1
5.1 Typical Single-RRU Antenna Feeder System Configurations ................................. 5-1
5.2 Configuring RRU with Common Antennas and Without ADTMA ............................ 5-1
5.3 Configuring RRU with Common Antennas and ADTMA......................................... 5-2
5.4 Configuring RRU with Electrical Antennas and Without ADTMA (I) ........................ 5-3
5.5 Configuring RRU with Electrical Antennas and Without ADTMA (II) ....................... 5-4
II
5.6 Configuring RRU with Electrical Antennas and ADTMA......................................... 5-5
Figures............................................................................................................. I
Tables ............................................................................................................ III
Glossary .........................................................................................................V
III
IV
About This Manual
Purpose
This manual introduce the working principle, structure features, networking scheme and
installation methods of ZXSDR R8860E GU198.
Intended Audience
System Engineer
Installation Engineer
Maintenance Engineer
What Is in This Manual
This manual contains the following chapters.
Chapter
Description
Chapter 1, Product Overview
Introduces the function, specification, features and technical
specifications of R8860E GU198.
Chapter 2, Technical Indices
Introduces the technical indices of R8860E GU198
Chapter 3, Structure and
Introduces the structure and principles of R8860E GU198
Principles
Chapter 4, Installation
Introduces the installation methods and steps of R8860E GU198 in
detail.
Chapter 5, RRU Connections
Introduces the RRU Connections with Antenna Feeder System.
with Antenna Feeder System
II
Chapter 1
System Overview
Table of Contents
System Background ...................................................................................................1-1
System Positions........................................................................................................1-1
System Running Environment ....................................................................................1-3
RRU Appearance .......................................................................................................1-5
System Features ........................................................................................................1-5
Services and Functions ..............................................................................................1-6
System Operation and Maintenance...........................................................................1-8
1.1 System Background
R8860E GU198 is the outdoor dual-mode RF remote unit in the ZTE ZXSDR series base
station products.
ZTE Corporation has launched a series of base station products to satisfy various
requirements of operators. One of the solutions is dividing the base station into two parts:
Base Band Unit (BBU) and Remote Radio Unit (RRU). R8860E GU198 is the outdoor
RRU, and it works with BBU to realize complete logical functions of a base station.
R8860E GU198 adopts the multi-carrier technology as its core technology. It supports two
radio systems: GSM and UMTS. R8860E GU198 can be used as an independent RRU
for GSM or an independent RRU for UMTS, and it works with BBU to form the dual-mode
base station.
1.2 System Positions
1.2.1 System Position in Network
The GSM/UMTS system consists of four parts:
Base station (BTS/Node B)
Radio network controller (BSC/RNC)
Core Network (CN) system
Mobile station (MS/UE)
Figure 1-1shows the position of R8860E GU198 in the GSM/UMTS network.
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Figure 1-1 R8860E GU198 POSITION IN GSM/UMTS NETWORK
BTS/Node B, which provides the radio coverage of GSM/UMTS network, performs the
following functions:
l Realizes MS/UE access and radio link transmission through Um/Uu interface.
l Connects with BSC/RNC through Abis/Iub interface, reports BTS/Node B
measurement information, broadcasts system information provided by BSC/RNC,
executes commands issued by BSC/RNC (such as access control, mobility
management, and radio resource management), and performs FP processing and
transmission management.
The distributed BTS/Node B system consists of BBU and RRU. R8860E GU198 realizes
the function of RRU, and works with the dual-mode BBU to form the BTS/Node B base
station.
1.2.2 BBU and RRU
Functions
Figure 1-2shows the base station structure which is divided into BBU and RRU. BBU
performs base band processing, transmission, and control, while RRU performs the RF
processing.
Figure 1-2 BASE STATION (BBU AND RRU)
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Chapter 1 System Overview
The base station is divided into BBU and RRU. One BBU provides the base band
resource for multiple RRUs
BBU performs digital base band signal processing and control management.
RRU performs conversion of the digital base band signal and the analog RF signal
between BBU and antenna.
BBU connects with RRU through the baseband-RF interface (optical interface), and
transmits I/Q digital base band signal and OAM signaling data.
BBU connects with BSC/Node B through Abis/Iub interface.
RRU realizes MS/UE access through Um/Uu interface.
Distributed Base Station Architecture
BBU and RRU constitute the distributed base station system. One central BBU manages
a group of RRUs, realizing rapid and flexible configuration and networking for the
base station system. The BBU+RRU solution is a more flexible mode for base station
establishment. It reduces requirements for the equipment room and the feeder cable loss.
BBU is arranged indoors and connected with RRU (usually arranged outdoors) through
optical fiber, as shown in Figure 1-3.
Figure 1-3 DISTRIBUTED BASE STATION SYSTEM STRUCTURE
1.3 System Running Environment
The running environment of R8860E GU198 is shown in Figure 1-4.
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Figure 1-4 RUNNING ENVIRONMENT OF R8860E GU198
Equipment functions and interfaces related to the running of R8860E GU198 are shown
in Table 1-1.
Table 1-1 EQUIPMENTS RELATED TO R8860E GU198 RUNNING
External System Function
External System
Interface
Description
Subscriber terminal equipment,
realizing voice and data service
transmission through the radio
MS/UE
Um/Uu interface
interface.
Base band resource pool,
realizing GPS synchronization,
main control, and baseband
BBU
Cascaded RRU
processing.
Baseband-RF interface (optical
Realizing RF processing
interface)
function
Environment monitoring
User device
External device interface
devices, etc.
Receiving and sending radio
Antenna
Antenna feeder interface
signals
LMT
LMT interface
Local O & Mterminal
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External System Function
External System
Interface
Description
Providing power for RRU
Power supply
Power supply interface
system
Protection ground
Protection ground interface
System grounding protection
Antennas with adjustable
Electrical antenna
Electrical antenna interface0
electrical antenna
1.4 RRU Appearance
Figure 1-5 shows the appearance of the R8860E GU198 chassis.
Figure 1-5 R8860E GU198 Appearance
1.5 System Features
R8860E GU198 has the following system features:
Dual-mode function
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R8860E GU198 supports two radio access modes: GSM and UMTS. it is a dual-mode
RRU.
Distributed architecture
BBU and RRU constitute the distributed base station system, providing a more flexible
mode for base station establishment.
Smooth evolution
à
Smooth evolution towards enhanced EDGE and HSPA+ can be realized through
software upgrade, which helps save investment for operators to the maximum
extent.
à
R8860E GU198 supports the 25 MHz bandwidth, which enables it to smoothly
evolve into LTE.
Flexible configuration and networking
à
With the multi-carrier technology, when R8860E GU198 works in the GSM mode,
it supports 1 ~ 6 carriers through modifying software configuration.
à
When R8860E GU198 works in the UMTS mode, R8860E GU198 supports 4
Carrier and Sector (CS).
à
Within the same frequency band, R8860E GU198 can work in GSM/UMTS dual
mode through modifying software configuration. For example, it can support the
capacity of 4 GSM carriers plus one UMTS CS.
à
Star network, chaining networking, and ring networking at baseband-RF interface
are supported.
Energy saving and environment protection
à
R8860E GU198 adopts the multi-carrier Power Amplification (PA) and advanced
Doherty and DPD linear PA technology.
à
The typical power consumption of R8860E GU198 is less than 215 W.
Easy installation
R8860E GU198 system has small size and light weight, which facilitates installation
and maintenance.
1.6 Services and Functions
R8860E GU198 works with BBU to form the distributed base station system. Signals
are transferred to BBU through R8860E GU198 for further processing. R8860E GU198
connects with the baseband processing unit and realizes the following services and
functions.
Services
R8860E GU198 provides the following services:
GSM/EDGE
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à
Full-rate voice service
à
Enhanced full-rate voice service
à
Half-rate voice service
à
Adaptive multi-rate voice service
à
9.6 Kbps CS-domain data service
à
GPRS/EDGE service
Location service
R8860E GU198 supports Cell ID, Cell ID+RTT, and AGPS location services.
R99 service
à
CS domain service: adaptive multi-rate voice service (8 coding schemes), CS 64
Kbps data service.
à
PS domain service: UL/DL 64 Kbps, UL/DL 128 Kbps, and UL/DL 384 Kbps data
services.
à
Concurrent service: CS domain (AMR 12.2 Kbps, CS 64 Kbps) + PS domain (64
Kbps, 128 Kbps, 384 Kbps).
HSDPA service
à
14.4 Mbps data rate
à
15 code channel
à
HSDPA and R99 can be configured at different carriers
à
Supporting co-frequency/hetero-frequency handover and HSDPA/R99 handover
à
Supporting concurrent service
à
Supporting stream media service
HSUPA service
5.76 Mbps data rate
MBMS service
à
Supporting broadcasting and multicasting functions, supporting PtP and Ptm
multicast mode
à
Supporting mobility management
à
Supporting stream-type and background-type MBMS service
HSPA+ service
à
Downlink 43.2 Mbps data rate
à
Uplink 11.5 Mbps data rate
Functions
R8860E GU198 performs the following functions:
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Performs terminal access and RF link transmission function through Um/Uu interface,
including RF signal processing, channel coding and decoding, channel multiplexing
and de-multiplexing, measurement and report, power control, transmission diversity,
reception diversity, calibration, and synchronization.
Connects with BBU through the optical interface. Functions performed by the optical
interface include IQ data transmission, reporting measurement information, RF
function configuration, and clock synchronization.
Provides system management functions through the O&M interface, including
configuration management, alarm management, and status check and monitoring.
Other basic functions
à
Supports GSM Phase I/Phase II/Phase II+
à
Supports UMTS R99, R4, R5, R6, R7
à
Supports EGSM/GSM 1900 MHz, UMTS 1900 MHz.
à
Supports GPRS CS1~CS4 and EDGE MCS1~MCS9 coding schemes
à
Supports various diversity modes, including space diversity, frequency diversity,
time diversity, and polarization diversity
à
Supports Viterbi demodulation algorithm at the receiving end to enhance system
receiving sensitivity and channel decoding capability
à
Supports frequency hopping technology
à
Supports inconsecutive transmission technology
à
Supports TA calculation and ultra-distance coverage, with the maximum coverage
distance of 120 km
à
Supports Co-BCCH technology
1.7 System Operation and Maintenance
There are two Operation and Maintenance (O & M) modes for R8860E GU198: local O &
M and remote O & M Local O & M uses the LMT software, and remote O & M uses the
ZTE NetNumen™ network management system, as shown in Figure 1-6.
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Chapter 1 System Overview
Figure 1-6 OPERATION AND MAINTENANCE OF R8860E GU198
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Chapter 2
Technical Indices
Table of Contents
Physical Indices .........................................................................................................2-1
Radio Performance Indices ........................................................................................2-2
Interface and Transmission Indices ............................................................................2-3
2.1 Physical Indices
The following lists physical indices of R8860E GU198.
Appearance
Item
Index
Size
370 mm × 320 mm × 197 mm (H × W × D)
Weight
≤ 20 kg
Color
Silver gray
Power Supply and Power Consumption
Item
Index
Peak power consumption
330 W
Rated input voltage
–48 V (-57 V DC ~ -37 V DC)
Environment Condition
Item
Index
Working environment temperature
-40 ℃ ~ 55 ℃
Relative working environment humidity
5% ~ 100%
Storage environment temperature
-45 ℃ ~ 70 ℃
Relative storage environment humidity
5 % ~ 98 %
With the condition of 4K2/4Z5/4Z7/4B1/4C2/4S3/4
M3, the transportation process lasts less than 180
Transportation condition
days.
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Reliability
Item
Index
Availability
99.999868%
MTBF
≥ 380,000 hours
MTTR
1 hour
The system's entire service interruption time ≤
System service interruption time
1.383 minute/year
Wind Load Indices of R8860E GU198
Wind Speed
Frontal
Lateral
Rearside
150 km/h
439 N
219 N
439 N
240 km/h
1137 N
567 N
1137 N
Wind Load Indices of R8860E GU198 Lightning Protection Box
Table 2-1 Wind Speed @ 150 km/h
Lightning Protection
Frontal
Lateral
Rearside
178 N
70 N
178 N
206 N
95 N
206 N
Frontal
Lateral
Rearside
462 N
180 N
462 N
534 N
245 N
534 N
Box (H × W × D)
OLP48-2A 295 mm ×
220 mm × 86 mm
ZXB08.002 300 mm ×
250 mm × 115 mm
Table 2-2 Wind Speed @ 240 km/h
Lightning Protection
Box (H × W × D)
OLP48-2A 295 mm ×
220 mm × 86 mm
ZXB08.002 300 mm ×
250 mm × 115 mm
2.2 Radio Performance Indices
The following lists radio performance indices.
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Chapter 2 Technical Indices
Capacity Indices
Item
Index
Single-mode configuration
GSM 6 TRX or UMTS 4 Carriers
4 GSM TRX and 1 UMTS carriers or 2 GSM
G/U dual-mode configuration
TRX and 2 UMTS carriers
RF Indices
Item
Index
GSM198/UMTS198 Type 1:
Uplink frequency range:
1850~1890 MHz
Downlink frequency range:
1930~1970 MHz
Working Frequency
GSM198/UMTS198 Type 2:
Uplink frequency range:
1870~1910 MHz
Downlink frequency range:
1950~1990 MHz
GSM: GMSK 80 W/8PSK 50 W
Maximum transmission power
UMTS: 80 W
GSM: -113 dBm@GSM single
antenna
Static receiving sensitivity
UMTS: -126.5 dBm@UMTS
single antenna/-129.2
dBm@UMTS double antennas
2.3 Interface and Transmission Indices
The following lists interface and transmission indices.
Item
Index
2, connecting with the baseband unit and cascad-
Baseband-RF interface
ing with other RRUs.
RS485 interface
1, connecting with external monitoring equipment.
FE interface
1, used for local maintenance.
Antenna port
2, connecting with antenna feeder.
AISG interface
1, used for electrical downtilt adjustable antenna
Dry contact input
4 ways, external alarm
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Chapter 3
Structure and Principles
Table of Contents
Structure Layout.........................................................................................................3-1
Hardware Principle .....................................................................................................3-4
Software System ........................................................................................................3-7
3.1 Structure Layout
3.1.1 External Interfaces
The external interfaces of R8860E GU198 are located at the bottom of the chassis, as
shown in Figure 3-1.
Figure 3-1 External Interfaces at Chassis Bottom
Table 3-1 describes the external interfaces.
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Table 3-1 External Interfaces
Serial Number
Label
Interface
Interface
Type/Connector
Interface between BBU
LC1
and RRU/RRU cascading interface
Interface between BBU
LC2
and RRU/RRU cascading interface
AISG equipment inter-
AISG
face
Mon
face (IEC 874)
LC-type optical interface (IEC 874)
8-core
aeronautical
socket (IEC 60130-9ED)
External equipment in4
LC-type optical inter-
terface
(monitoring,
LMT, etc.)
37-core
aeronautical
socket
DC interface:
Con-
nector XCG18T4K1P15
DC IN
Power supply interface
01+XC18FJJP1-10.5
The cable's cross-sectional area is 1.5 mm2
GND
RXin
RXout
The
equipment
is
tional area is 35 mm2
grounded
Frequency
point
ex-
tended interface
Frequency
point
ex-
tended interface
RX/TX
main diversity RF cable
interface
10
RX
N-KY (MIL-C-39012 or
IEC169-16)
Transmitting/Receiving
The cable's cross-sec-
N-KY (MIL-C-39012 or
IEC169-16)
50 Ω DIN-type connector
Receiving diversity RF
50 Ω DIN-type connec-
cable interface
tor
3.1.2 Indicators and Buttons
R8860E GU198 indicators and buttons are located in the bottom-left of the front panel of
the chassis, behind the cover plate, as shown in Figure 3-2.
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Figure 3-2 R8860E GU198 Indicators and Buttons
Table 3-2 describes the indicators and buttons.
Table 3-2 Indicators and Buttons
Color
Name
Meaning
Working Mode
Constantly
ON:
R8860E GU198 is being reset and started.
Flashing at 1 Hz: Normal status
Green
RUN
Running indicator
Flashing at 5 Hz: Indicates that version is being downloaded.
OFF: Indicates the selftest fails.
OFF:
Indicates
that
there is no fault or
R8860E GU198 is being reset, started, or
downloading version.
Red
ALM
Alarm indicator
Flashing at 5 Hz: Indicates critical alarm or
major alarm.
Flashing at 1 Hz: Indicates minor alarm or
warning.
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Color
Name
Meaning
Working Mode
Constantly ON: The optical fiber connection is
normal.
OFF: The optical fiber is
disconnected.
Flashing at 5 Hz: The
link is taken as the clock
reference source, and
Green
LNK
Optical link indicator
Phase-Locked
Loop
(PLL) is in the capture
status.
Flashing at 2.5 Hz: The
link is taken as the clock
reference source, and
Phase-Locked
Loop
(PLL) is in the tracing
status.
OFF: There is no RF
Green
RF working status indi-
RF
output.
cator
ON: There is RF output.
3.2 Hardware Principle
3.2.1 Hardware Architecture
For general hardware architecture block, see Figure 3-3
Figure 3-3 HARDWARE SYSTEM
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Chapter 3 Structure and Principles
R8860E GU198 is composed of ADTR, PA, DFL, RIE, PIB, and PRDC, as shown in Table
3-3.
Table 3-3 COMPOSITION OF M8206 CABINET HARDWARE
Name
Meaning
Main functions
Completes the function of transmitter by one path
Advanced Dual-mode transceiver
and receiver by two paths, providing interface and
ADTR
board
control
PA
RRU Power Amply Unit
for RF signal
Provides amplification function during transmission
Provides receiving & transmitting combination and
division function for RF signal, and provides low
noise amplification function for signal. It includes
duplexer by one path and receiving filter by one
DFL
Duplexer filter line
path.
Mainly completes the transition between PIB board
RIE
RRU interface exchange board
test and monitoring interface signal
Mainly completes electrically tuned antenna and
tower amplifier AISG interface protection and
PIB
Protective interface board
ADTR board interface signal transition
RPDC
RRU Power Module
Supplied by DC power conversion
3.2.2 Board Functions
1. ADTR
Process 2 paths receiving and 1 path transmitting signal;
Uplink & downlink transition for radio link signal;
Downlink IQ signal multiplexing, uplink IQ signal demultiplexing;
Signal amplification, filter, and digit/analog conversion;
Optical and electric signal conversion;
Extract clock reference signal from baseband unit, provide clock for different modules;
RTWP and TSSI measurement report;
Standing wave ratio (SWR) measurement report
Hardware failure self-test and alarm;
Environment Detection;
Provide 2 paths of baseband–RF interface and 4 paths of external alarm input, and a
serial port, a FE interface, a RS232 interface, and a AISG interface;
Provide reset function.
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2. PA
Amplify downlink RF signal input by ADTR, and output it to DFL;
Provide digital predistortion feedback signal for ADTR;
Provide power amplification output control;
Feedback forward power coupling signal to ADTR, and ADTR do forward power
inspection;
Feedback backward power coupling signal to ADTR, and ADTR do backward power
(SWR) inspection;
Provide PA internal temperature data to ADTR and ADTR will do temperature
inspection.
3. DFL
Combination and separation of receiving and transmitting signal;
Filter function of receiving & transmitting signal;
Low-noise amplification function;
Provide DFL alarm inspection function.
4. RIE
Access following these signals from PIB board: Ethernet signal, 485 dry contact, LED
indicator, single board reset signal, jumper, button signal, digital ground;
Transmit the access signal by the socket and finish the function of interface conversion.
5. PIB
Access following these signals from ADTR board: Ethernet signal, LED indicator,
single board reset signal, jumper, button signal, digital ground, power, ground and
458 signal of electrically tuned antenna;
Power, ground, and 458 signal of electrically tuned antenna, output to electrically tuned
antenna by socket; other signals are introduced to outside by test socket, to do debug
and use as indicative signal;
Finish AISG interface power filtering and 485 lightening protection;
Finish interference protection for indicators, reset signals, buttons, and jumpers.
6. RPDC
Finish power conversion from DC to DC, and provide power supply function;
Inspect input overvoltage or undervoltage, input power disconnection, output
overvoltage or undervoltage, output over-current alarm, and report it to ADTR board.
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3.3 Software System
3.3.1 Software Architecture
R8860E GU198 software can be classified into drivers, supporting software, and
application software, as shown in Figure 3-4.
Figure 3-4 R8860E GU198 SOFTWARE ARCHITECTURE
3.3.2 Software Functions
Application layer includes radio frequency subsystem (RFS) and operation and
maintenance (OAM) subsystem, mainly implementing software download, configuration,
management, system maintenance, and measurement.
Operation Support Sub-system (OSS) is the supporting layer of whole software framework,
which provides a hardware-unrelated platform to run system software and provides
basic software function, such as dispatching, timer, memory management, inter-module
communication, sequence control, monitoring, alarm, and log function.
Board Support Package (BSP) is responsible for routing relevant information and data to
application layer of GSM or UMTS.
VxWorks is the operating system of hardware platform.
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Chapter 4
Installation
Table of Contents
Saftey Description ......................................................................................................4-1
Preparation ................................................................................................................4-7
Unpacking and Checking..........................................................................................4-15
Installation Overview ................................................................................................4-17
Cabinet Installation...................................................................................................4-21
External Cable Installation........................................................................................4-46
Hardware Installation Inspection...............................................................................4-57
Power on and off ......................................................................................................4-61
4.1 Saftey Description
4.1.1 Safety Specifications Guide
These safety instructions must be considered as supplementary for local safety
regulations. The priority must be given to local safety regulations if there is any conflict
between the two.
The maintenance personnel must have the knowledge of safety operations and
maintenance with required qualification and technical background.
Warning!
This device complies with part 15 of the FCC Rules. Operation is subject to the following
two conditions: (1) This device may not cause harmful interference, and (2) this device
must accept any interference received, including interference that may cause undesired
operation. Changes or modifications not expressly approved by the party responsible for
compliance could void the user's authority to operate the equipment.
All the operation and maintenance personnel must follow the safety precautions and
instructions provided by ZTE Corporation to avoid any accident.
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Note:
ZTE Corporation does not bear any liabilities incurred because of violation of the
universal safety operation requirements, or violation of safety standards for designing,
manufacturing and using the equipment.
FCC Radiation Exposure Statement:
This equipment complies with FCC radiation exposure limits set forth for an uncontrolled
environment .This equipment should be installed and operated with minimum distance 4
m between the radiator& your body.
FCC & IC Statement
Warning!
Changes or modifications to this unit not expressly approved by the party responsible for
compliance could void the user’s authority to operate the equipment.
Note:
This equipment has been tested and found to comply with the limits for a Class A digital
device, pursuant to Part 15 of the FCC Rules. These limits are designed to provide
reasonable protection against harmful interference when the equipment is operated in
a commercial environment. This equipment generates, uses, and can radiate radio
frequency energy and, if not installed and used in accordance with the instruction manual,
may cause harmful interference to radio communications. Operation of this equipment
in a residential area is likely to cause harmful interference in which case the user will be
required to correct the interference at his own expense.
Operation of this equipment in a residential area is likely to cause harmful interference in
which case the user will be required to correct the interference at his own expense.
4.1.2 Safety Symbols
Table 4-1 lists safety symbols. They are to prompt the user of the safety precautions to be
observed during R8860E GU198 operation and maintenance.
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Table 4-1 Safety Symbols Description
Safety Symbols
Meaning
No smoking: Smoking is forbidden
No flammables: No flammables can be stored.
No touching: Do not touch.
Universal alerting symbol: General safety attentions.
Electric shock: Risk of electric shock.
Electrostatic: The device may be sensitive to static electricity.
Microwave: Beware of strong electromagnetic field.
Laser: Beware of strong laser beam.
Scald: Beware of scald.
Amongst these safety symbols, the universal alarm symbols are classified into three levels:
danger, warning, and caution. The formats and meanings of the three levels are described
as below:
Danger!
Indicates a potentially hazardous situation which, if not avoided, will result in death or
serious injury of people, or equipment damages and breakdown.
Warning!
Indicates a potentially hazardous situation which, if not avoided, could result in death or
serious injury.
Caution!
Indicates a potentially hazardous situation which, if not avoided, could result in serious
injuries, equipment damages or interruption of part services.
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4.1.3 Safety Instructions
This section describes the safety instructions related to electrical safety, antistatic, heavy
objects and modules.
Electrical Safety Instructions
The following are the electrical safety instructions about tools, high voltage, power cables,
holes and lightning:
Tools
Use special tools rather than common tools for high-voltage and AC operations.
High Voltage
Danger!
High voltage is hazardous. Direct or indirect contact with high voltage or main supply
using a wet object could result in death.
à
Strictly follow local safety rules to install AC power devices.
à
Installation staff must be qualified for performing high-voltage and AC operations.
à
Do not wear any watch, hand chain, bracelet, ring or any other conductive objects
during such operations.
à
Prevent moisture from accumulating on the equipment during operations in a
damp environment.
Power Cable
Warning!
Never install or uninstall power cables while they are live. Otherwise, the power cable,
when contacting a conductor, may result in sparks or electric arc causing a fire or even
damage to eyes.
à
Make sure of shutting off power supply before installing or disconnecting a power
cable.
à
Before connecting the power cable, make sure that the connecting cable and its
label are appropriate for the actual installation requirements.
Drilling Holes
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Warning!
It is not allowed to drill chassis holes without permission.
à
Unqualified drilling could damage wiring and cables inside the chassis.
Additionally, metal pieces inside the chassis created by the drilling could result
in a short circuit. Use insulation protection gloves and first move cables inside a
chassis away when drilling is necessary on a chassis.
à
Protect eyes during drilling as dust or flying debris may damage eyes.
à
Clean any debris in time after drilling.
Lightning
Danger!
Do not perform high-voltage, AC, iron tower or mast operations in a thunderstorm.
Thunderstorms would give rise to a strong electromagnetic field in the atmosphere.
Therefore, the equipment must be grounded and protected in time against lightning
strikes.
Antistatic Safety Instructions
Caution!
Static electricity produced by human body can damage static-sensitive components on
circuit board, such as large-scale integrated circuits.
Friction caused by human body activities is the root cause of electrostatic charge
accumulation. Static voltage carried by a human body in a dry environment can be
up to 30 kV, and can remain there for a long time. An operator with static electricity
may discharge electricity through a component when he/she touches the conductor
and causing damage.
Wear an antistatic wrist strap (the other end of wrist strap must be well grounded)
before touching the equipment or holding a plug-in board, circuit board, Integrated
Circuit (IC) chip or other devices, to prevent human static electricity from damaging
sensitive components.
The antistatic wrist strap used must be subject to regular check. Do not replace the
cable of an antistatic wrist strap with any other cables.
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Do not contact static-sensitive modules with any object that easily generates static
electricity. For example, friction of package bag, transfer box and transfer belt made
from insulation plastic may cause static electricity on components. Discharge of static
electricity may damage components when they contact a human body or the ground.
Modules should only contact materials such as an antistatic bag. Keep modules in
antistatic bags during storage and transportation.
Discharge static electricity of the test device before use, that is, ground the test device
first.
Do not place the module near a strong DC magnetic field, such as the cathode-ray
tube of a monitor. Keep the module at least 10 cm away.
Hoisting Heavy Objects
Warning!
When hoisting heavy objects, ensure that nobody is standing or walking under the hoisted
object.
Ensure the hoister can meet hoisting requirements when disassembling heavy
equipment, or moving and replacing equipment.
The installation personnel must be duly trained and qualified for hoisting operations.
Hoisting tools must be inspected and complete before service.
Make sure that hoisting tools are fixed firmly on a sufficiently secured object or wall
before the hoisting operation.
Give brief oral instructions during hoisting operations to prevent any mishap.
Unplugging/Plugging a Module
Never plug a module with excessive force, to ensure that the pins on the backplane
do not get deformed.
Plug the module right into the slot and make sure module circuit faces do not contact
each other lest any short circuit may occur.
Keep hands off the module circuit, components, connectors and cable trough when
holding a module.
Rack Mount Safety Instructions
Rack Mount Instructions - The following or similar rack-mount instructions are included
with the installation instructions:
Elevated Operating Ambient - If installed in a closed or multi-unit rack assembly, the
operating ambient temperature of the rack environment may be greater than room
ambient. Therefore, consideration should be given to installing the equipment in an
environment compatible with the maximum ambient temperature (Tma) specified by
the manufacturer.
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Reduced Air Flow - Installation of the equipment in a rack should be such that the
amount of air flow required for safe operation of the equipment is not compromised.
Mechanical Loading - Mounting of the equipment in the rack should be such that a
hazardous condition is not achieved due to uneven mechanical loading.
Circuit Overloading - Consideration should be given to the connection of the
equipment to the supply circuit and the effect that overloading of the circuits might
have on overcurrent protection and supply wiring. Appropriate consideration of
equipment nameplate ratings should be used when addressing this concern.
Reliable Earthing - Reliable earthing of rack-mounted equipment should be
maintained. Particular attention should be given to supply connections other than
direct connections to the branch circuit (e.g. use of power strips).
Other Safety Instructions
Note:
Do not perform maintenance or debugging independently, unless a qualified person is
present.
Perform an airtight test before RRU delivery, and prohibit disassembling the RRU on
site.
Replacing any parts or making any changes to the equipment might result in an
unexpected danger. Therefore, be sure not to replace any parts or perform any
changes to the equipment unless authorized otherwise.
Due to that RRU is in high temperature during running, the RRU should be installed
in some regions out of operators' reach or strictly restricted.
Contact ZTE office if you have any question, to ensure your safety.
4.2 Preparation
R8860E GU198 is the outdoor dual-mode RF remote unit in the ZTE ZXSDR series base
station products.
ZTE Corporation has launched a series of base station products to satisfy various
requirements of operators. One of the solutions is dividing the base station into two parts:
Base Band Unit (BBU) and Remote Radio Unit (RRU). R8860E GU198 is the outdoor
RRU, and it works with BBU to realize complete logical functions of a base station.
R8860E GU198 adopts the multi-carrier technology as its core technology. It supports two
radio systems: GSM and UMTS. R8860E GU198 can be used as an independent RRU
for GSM or an independent RRU for UMTS, and it works with BBU to form the dual-mode
base station.
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4.2.1 Engineering Condition Inspection
Before installing devices, follow the requirements of Environment Acceptance Report and
check installation environment. The following content is just as a reference.
Installation Position Inspection
R8860E GU198 installation position should accord with the requirements of engineering
design, the specified requirements as follows:
Avoid dusty, harmful-gas or explosive-goods environment;
Avoid the places with big shock or strong noise;
Far away substation;
Far away pollution source;
Avoid an industrial boiler and heating boiler;
Far away high-power wireless interference source.
Temperature and Humidity Inspection
R8860E GU198 temperature and humidity in work environment should meet the
requirements, as shown in
Power Supply Inspection
The requirements of R8860E GU198 power supply are described as follows.
1. DC power supply: R8860E GU198 is –48 V DC power supply and the voltage of power
supply is –40 V DC~–57 V DC.
2. Indirect AC power supply: adopt an outdoor AC unit (OAU); the OAU can provide 220V
AC power supply for one ZXSDR B8200 C100 and one R8860E GU198 at the same
time.
Lightning Inspection
The R8860E GU198 lightning requirements are described as follows.
Outdoor Installation
1. For DC power supply, configure an outdoor DC lightning box OLP48-2. If the
DC power is exported from the equipment room, the length of power cable is
more than 10 m (less than 50 m) and the output end of indoor DC power is not
configured with B-level or above lightning devices, it is required to configure an
indoor DC lightning box ILP48–3 in the equipment room.
2. For indirect AC power supply, it is required to configure an AC lightning box
(ZXPCS combined arrester).
For indoor installation, if the power cable is distributed outdoors, configure the power
lightning box according to the conditions of outdoor installation.
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Grounding Inspection
R8860E GU198 adopts an associated grounding mode. The value of grounding resistance
is not more than 5 ohm.
Other Inspections
1. The corollary devices or components should accord with the requirements of R8860E
GU198 engineering design drawing.
2. The transmission devices interconnected with BBU should have been prepared.
4.2.2 Requirements to Onsite Personnel
The onsite engineering supervisor is in charge of the training and management of
installation personnel, to make sure the installation is performed correctly and control
installation quality. The installation personnel perform the installation. Refer to Safety
Instruction.
Requirements to Engineering Supervisor
The engineering supervisor should have quality control ability.
The engineering supervisor should have received corresponding ZTE training and
obtained certification.
The engineering supervisor should be familiar with the materials, tools and operation
methods used in the installation.
The engineering supervisor should be familiar with the installation flow and installation
methods of each component.
The engineering supervisor should follow the “Safety First” principle, to ensure the
smooth completion of installation.
Requirements to Installation Personnel
The installation personnel should have received corresponding ZTE training and
obtained certification.
The installation personnel should be healthy, have not drunk alcohol.
The installation personnel should follow the safety instructions of tools, and use safety
belts.
The installation personnel should fasten the tools, to prevent them from falling.
The installation personnel should not wear loose clothes and slippery shoes.
4.2.3 Technical Document Preparation
Before installing R8860E GU198, make sure that the following technical document is at
hand:
ZXSDR R8860E GU198 GU858 Outdoor GSM&UMTS Dual Mode Macro RRU User
Manual
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4.2.4 Tools and Instruments Preparation
Table 4-2 shows tools and meters list required during installation.
Table 4-2 Tool and Meter List
Cate-
Name
gory
Example
One feeder connector knife
One 75 Ω coaxial cable stripper
One multi-functional crimping pliers
Specialpurpose
tools
One multimeter
One standing wave ratio tester
One earth resistance tester
One electric percussion drill
Punching tools
Several auxiliary percussion drill bits
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Cate-
Name
gory
Example
One vacuum cleaner
Power connector board (providing at least 3
two-phase sockets and 3 three-phase sockets, with the current capacity larger than 15
A)
Cross screwdrivers (4”, 6” and 8” each)
Flathead screwdrivers (4”, 6” and 8” each)
Adjustable wrenches (6”, 8”, 10” and 12”
each)
Dual-purpose wrenches (17” and 19” each)
One set of socket wrenches
Generalpurpose
tools
One paper knife
5 kg nail hammer
One 300 W iron and one 40 W iron
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Cate-
Name
gory
Example
One set of inner-hexagon wrench
Solder wires
One 50 m (164 feet) tape measure
One 5 m (16 feet) steel tape
Measurement
tools
One angle instrument
One compass
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Cate-
Name
gory
Example
One level bar
One plumb
Antistatic wrist strap
slip-proof gloves
Protection tools
Safety helmet
One hacksaw (with several saw blades)
One pair of sharp-nose pliers (8″)
One pair of diagonal pliers (8″)
Clamp
tools
One pair of round-nose pliers (8″)
One pair of vices (8″)
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Cate-
Name
gory
Example
One set of needle files (medium-sized)
Nippers
One paint brush
One pair of scissors
One hot air blower
One solder removal tool
One hydraulic crimper
One crowbar
Pulley set
Auxiliary
tools
Rope
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Cate-
Name
gory
Example
Ladder
Spectrum analyzer (required in certain special cases)
BTS tester
Meters
Field strength tester (required in certain special cases)
4.3 Unpacking and Checking
4.3.1 Container of R8860E GU198
R8860E GU198 uses cartons for packing. The R8860E GU198 cabinet is wrapped by EPE
polyfoam and then put into the carton, as shown in Figure 4-1.
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Figure 4-1 PACKING OF R8860E GU198
4.3.2 Flow of Unpacking and Checking
The flow of unpacking and checking is shown in Figure 4-2. Refer to the Unpacking and
Checking Manual in the R8860E GU198 engineering materials for detailed steps.
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Figure 4-2 FLOW OF UNPACKING AND CHECKING
4.4 Installation Overview
4.4.1 Installation Flow
The installation of R8860E GU198 includes two parts, that is, main part installation and
cable installation. The installation flow is shown in Figure 4-3
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Figure 4-3 R8860E GU198 Installation Flow
4.4.2 Hoisting Operation Instructions
If it is required to hoist RRU to the tower, refer to the following instructions.
Prerequisites
Natural conditions for hoisting operation are satisfied, such as no fog and high visibility.
The hoisting operation is prohibited in windy, snowy, or rainy days.
Tools for hoisting operation are available, such as the hoisting rope (with a bearing
capacity of 100 kg) and the crown block, and the crown block is firmly installed in
appropriate position on the tower.
Open the package to check whether the cabinet is in good condition. Hoist the cabinet
to the tower after the inspection.
Procedure
Perform the following steps for hoisting operation.
1. Take out the cabinet, make its fixing board upwards, and lay it on the floor, as shown
in Figure 4-4.
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Figure 4-4 Taking out Cabinet
2. Bind the fixing board with rope, as shown in Figure 4-5. Make sure that the rope is
bound on the two fixing boards, and the binding is firm.
Figure 4-5 Binding Cabinet with Rope
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3. When performing the hoisting operation, two persons stand at the foot of the tower.
One pulls the rope slowly, the other one releases the rope slowly and prevents the
cabinet from touching the tower, protecting the heat sink device and the cabinet, as
shown in Figure 4-6.
Figure 4-6 Hoisting Operation Schematic Diagram
Warning!
The RRU handle can not be used for binding the hoisting rope.
It is strictly prohibited to use steel wire rope as the hoisting rope.
During the hoisting procedure, irrelevant person is prohibited to stand surrounding the
tower, especially under the RRU, to avoid unexpected injury.
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