ZTE RSU82C CDMA Remote Radio Unit User Manual users manual

ZTE Corporation CDMA Remote Radio Unit users manual

users manual

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ZXSDR RSU82C
Radio System Unit of CDMA with 2T4R
User Manual
Version: 1.00
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
25/10/2010
First Edion
R1.1
25/12/2010
Modify RF and Power Indices
R1.2
08/08/2011
Add the notes of the typical loss of the RF cable
Serial Number: SJ-20101019140047-001(R1.2)
Publishing Date: 08/08/2011
FCC & IC STATEMENT
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.
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.
II
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 4m
between the radiator & your body.
II
Declaration of RoHS
Compliance
To minimize the environmental impact and take more responsibility to the earth we live,
this document shall serve as formal declaration that ZXSDR RSU82C manufactured by
ZTE CORPORATION are in compliance with the Directive 2002/95/EC of the European
Parliament - RoHS (Restriction of Hazardous Substances) with respect to the following
substances:
Lead (Pb)
Mercury (Hg)
Cadmium (Cd)
Hexavalent Chromium (Cr (VI))
PolyBrominated Biphenyls (PBB’s)
PolyBrominated Diphenyl Ethers (PBDE’s)
…
The ZXSDR RSU82C manufactured by ZTE CORPORATION meet the requirements of EU
2002/95/EC; however, some assemblies are customized to client specifications. Addition of
specialized, customer-specified materials or processes which do not meet the requirements of
EU 2002/95/EC may negate RoHS compliance of the assembly. To guarantee compliance of the
assembly, the need for compliant product must be communicated to ZTE CORPORATION in written
form. This declaration is issued based on our current level of knowledge. Since conditions of use are
outside our control, ZTE CORPORATION makes no warranties, express or implied, and assumes no
liability in connection with the use of this information.
II
Chapter 1
Safety Description
Table of Contents
Safety Specifications Guide........................................................................................1-1
Safety Symbols ..........................................................................................................1-2
Safety Instructions......................................................................................................1-3
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:
This device may not cause harmful interference.
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.
The equipment is intended for installation in RESTRICTED ACCESS LOCATIONS.
All the operation and maintenance personnel must follow the safety precautions and
instructions provided by ZTE Corporation to avoid any accident.
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.
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1.2 Safety Symbols
Table 1-1 lists safety symbols. They are to prompt the user of the safety precautions to be
observed during ZXSDR RSU82C operation and maintenance.
Table 1-1 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.
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Chapter 1 Safety Description
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.
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
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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
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.
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Chapter 1 Safety Description
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.
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.
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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.
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.
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Chapter 1 Safety Description
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.
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Chapter 2
Product Descripition
Table of Contents
Overview ....................................................................................................................2-1
Position in a Network..................................................................................................2-1
Outer View .................................................................................................................2-2
Production Functions..................................................................................................2-3
Production Features ...................................................................................................2-4
2.1 Overview
ZTE Software Defined Radio (SDR) uses an architecture of separating the baseband
part from the Radio Frequency (RF) part. This architecture features high integration,
low consumption, flexible configuration and convenient installation & maintenance. The
new generation ZTE CDMA Base Station (BS) products based on the SDR is the first
SDR-based CDMA BS in the industry. It is able to help the operators have qualitative
leap. The form of this product can be distributed BBU + RRU or BBU + RSU. The product
form of ZTE SDR can be distributed BBU + RRU or BBU + RSU, macro BS or micro BS.
ZXSDR RSU82C is the RSU part of ZTE CDMA2000 distributed SDR Common BTS
Platform Solution. It provides functions including RF modulation/demodulation, forward
power amplification, reverse low noise amplification, RF performance measurement and
carrier power control etc.
With a smaller size and lighter weight, the ZXSDR RSU82C has significant advantages for
saving space, relocations, installation flexibility, and power savings. It designed for both
indoor and outdoor applications.
2.2 Position in a Network
In CDMA mobile communication network, the relationship between ZXSDR RSU82C and
other network entities is shown in Figure 2-1.
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Figure 2-1 ZXSDR RSU82C Position in a Network
The ZXSDR RSU82C is an independent RF subsystem. Together with BBU , it forms
the complete BTS.The BTS implements radio transmission with the MS through the
CDMA2000 air interface. In addition, the BTS implements control of radio channels and
communication with the BSC
2.3 Outer View
Figure 2-2 shows the outer view of ZXSDR RSU82C.
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Chapter 2 Product Descripition
Figure 2-2 Outer View of ZXSDR RSU82C
2.4 Production Functions
ZXSDR RSU82C provides primary functions is shown as Table 2-1.
Table 2-1 The Primary Functions of ZXSDR RSU82C
Function
Description
Band: 800MHz/1.9GHz/2.1GHz
RF modulation/demodulation
RF transceiver duplexer
RF
Low noise amplification for received RF signal
Amplification for transmitted RF signal
RF transceiver
Baseband-RF interface: compliant with Common Public Radio Interface
Interface
(CPRI) protocol
Air interface: compliant with IS-2000 Release A and IS-856-A
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Function
Description
Electronic label
Remote upgrade of software version for FPGA/BOOT/DSP/CPU
Remote reset of service boards
Equipment
maintenance and test
RSSI query
Automatic calibration
Reverse spectrum query: querying the reverse received signal spectrum of
each carrier
Power amplification control and protection: over-power, over-temperature,
and standing wave alarm
Reliability
Reverse voltage protection
Scenario
Indoor and outdoor applications
2.5 Production Features
Here are the product features of ZXSDR RSU82C:
It adopts multiple new technologies in heat dissipation and connection mode; hence
it features high integration and compact structure.
It adopts the single-sided design in which dual duplexers carry the transceiver, power
module, and power amplification module.
It is the first RSU that supports the 2T4R application in the industry.
Easy transportation and installation will save labor and building costs
Suitable for complicated base station environments
Supports star and chain networks between baseband and RF to provide more
convenient solutions for complicated base station environments.
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Chapter 3
Technical Descripition
Table of Contents
System Architecture ...................................................................................................3-1
Signal Processing Flow ..............................................................................................3-2
Technical Specifications .............................................................................................3-2
3.1 System Architecture
The ZXSDR RSU82C comprises transceiver unit (TR), power amplifier unit (PA), duplexer
unit(FL), and power unit (PB).Figure 3-1 illustrates the ZXSDR RSU82C’s system
architecture.
Figure 3-1 Frame Structure of ZXSDR RSU82C
The functions of ZXSDR RSU82C’s subsystem is shown as Table 3-1.
Table 3-1 The functions of subsystem
Part
Description
TR, the unit that integrates the processor, clock, CPRI interface, DPD
digital predistortion, RF transmitting and receiving functions, is the core
TR
unit of the ZXSDR RSU82C.
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Part
Description
Amplifies downlink RF signal input via the TR and then sends the
signal to the FL
PA
Provides digital pre-distortion feedback signals for the TR
Provides a PA output enable/disable interface
Performs filtering and low noise amplification of the reverse CDMA
signal from the antenna
Filters the forward RF signal to be sent
Reports LNA alarms to the TR
In the case of main/diversity combined cabinets, the main receive
LNA output end of the FL has the power splitter function and reserves
FL
an external port (Rx out)
Converts -48V DC input power supply to DC power supply required by
PB
the PA, TR, or FL
3.2 Signal Processing Flow
The internal signal processing flow of ZXSDR RSU82C is as below:
Forwardlink processing
The business data from BBU enters the TR, and then for intermediate frequency
processing. After the power amplification sent to the antenna for transmission.
Reverselink processing
The reverse CDMA signals from the antenna are converted to baseband digital signal
by TR, then send to BBU.
3.3 Technical Specifications
3.3.1 Physical Indices
3.3.1.1 Dimension
The dimensions of ZXSDR RSU82C in mm are : 482.6(H) × 88 (W) × 360.0 (D).
3.3.1.2 Weight
Weight of a ZXSDR RSU82C : < 15 kg (33.1 pounds).
3.3.2 Power Indices
Power Supply
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Chapter 3 Technical Descripition
-48V DC Voltage range: -40V~-57V.
Power Consumption
In the case of 2S-2T, 4C/S, 15W/C, the total power consumption of the equipment is
600 W.
3.3.3 Capacity Indices
ZXSDR RSU82C Capacity Indices is shown as Table 3-2
Table 3-2 ZXSDR RSU82C Capacity Indices
Item
Carriers supported
4C 1X + 4C 1X
4C 1X + 4C DO
4C DO + 4C DO
the MAX 8C/2S-2T
3.3.4 Temperature and Humidity
Temperature: -40 ℃~+55 ℃. The change frequency must be less than 0.5 ℃/min.
Relative humidity: 5% ~95%
3.3.5 Environmental Classes
Grade Of Protection: IP55
Grounding Requirements: Joint grounding resistance less 1W; BTS grounding
resistance less 5 W.
Noise: Noise of working environment: less 65 dBA
3.3.6 Reliability Indices
Mean Time Between Failures (MTBF) : > 100,000 hours
MTTR (Mean Time To Repair): < 0.5 hour
Availability: > 99.999%
3.3.7 RF Indices
RF indices of the ZXSDR RSU82C comply with 3GPP2 C.S0010-C, Recommended
Minimum Performance Standards for cdma2000 Spread Spectrum Base Station and
3GPP2 C.S0032-A, Recommended Minimum Performance Standards for CDMA2000
High Rate Packet Data Access Network.
Table 3-3 illustrates the 1.9 GHz transmitter indices.
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Table 3-3 1.9 GHz Transmitter Indices
Name
Index
Operating band
1.9 GHz (1930MHz~1950MHz)
Transmitter output frequency
± 0.01 ppm
tolerance
Occupied channel bandwidth
1.25 MHz
Output power at the Top of
60W
Cabinet (TOC)
Total transmit power
Modulation mode
The total transmit power is within +2 dB and -2 dB of the
manufacturer’s rated power.
Quadrature amplitude modulation
< -45dBc @±885 kHz offset Center Freq (RBW 30kHz)
< -55 dBc @±1.98 MHz offset Center Freq (RBW 30kHz)
> 4 MHz OFFSET:
< -36 dBm (RBW 1kHz) @ 9KHz < f < 150 kHz
< -36 dBm (RBW 10kHz) @ 150 kHz < f < 30 MHz
Conducted spurious emission
< -36 dBm (RBW 100kHz) @ 30 MHz < f < 1 GHz
and radiated spurious
4-16 MHz OFFSET:
emission suppression
< -30 dBm (RBW 30kHz) @ 1 GHz < f < 12.5 GHz
16M-19.2M OFFSET:
<-30dBm(RBW 300kHz) @ 1GHz < f < 12.5GHz
>19.2MHz OFFSET:
<-30dBm(RBW 1MHz) @ 1GHz < f < 12.5GHz
If one BTS transmits at the rated power but another BTS’ output
power is 30 dB less than the former’s rated power. When the powers
Transmitter intermodulation
of two BTSs are combined on the antenna port, the generated
performance
intermodulation spurious emission meets the conducted spurious
emission requirement. The IF difference of the transmit signals of
two BTSs is 1.25 M.
Pilot time tolerance
Time Tolerance/phase
tolerance of pilot channel to
The PN time tolerance falls within 3 us and the inter-carrier tolerance
falls within 1 us.
Time difference: < ±50 ns
Phase difference: < 0.05 rad
other channels
Waveform quality
Pilot code domain power
Rho is greater than 0.990 dBm under the configuration of a single
pilot.
With the standard 9CH configuration, the pilot code domain power is
in the range of -7.0±0.5 dB.
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Name
Index
Inactive channel code domain
With the standard 9CH configuration, the inactive channel code
power
domain power is less than -27 dB.
DO MAC inactive channel
With configuration of 13 FLUSs, the MAC inactive channel code
code domain power
domain power is less than -29.5 dB (type 2).
DO DATA channel code
domain power
With configuration of 13 FLUSs at the rate of 614.44 kbs (test 1),
the DATA channel code domain power is in the range of -15.5 dB
to -14.5 dB.
Pilot channel: Rho > 0.97
Wave quality of DO channels
MAC channel: Rho > 0.912
DATA channel: Rho > 0.97
Radio frequency Front End
< 2.0
SWR
Table 3-4 illustrates the 1.9 GHz receiver indices.
Table 3-4 1.9 GHz Receiver Indices
Name
Index
Operating band
1.9G Hz (1850MHz~1870MHz)
Receiver sensitivity
< -115 dBm
When the lower limit is the receiver sensitivity and the upper limit
Receiver dynamic range
(noise level) equals - 55 dBm/1.23 MHz (Eb/N0 = 10dB±1dB), the
Frame Error Rate (FER) is lower than 1%.
Noise figure
<3
Adjacent channel selection
Band Class 6:> - 53dBm (± 2.5M)
(ACS)
In the presence of a single tone that is 50 dB above the CDMA signal
level, and is at offset of ± 750 kHz from the center frequency, the
output power of the MS increases by no more than 3 dB ,and the
Single tone desensitization
FER is less than 1.5%.
In the presence of a single tone that is 75 dB above the CDMA signal
level, and is at offset of ± 900 kHz from the center frequency, the
output power of the MS increases by no more than 3 dB, and the
FER is less than 1.5%.
In the presence of two interfering tones that are 60 dB above the
Intermodulation spurious
response attenuation
CDMA signal level, and are at offsets of 1.25 MHz and 2.05 MHz,
and -1.25 MHz and -2.05 MHz from the center frequency, the output
power of the MS increases by no more than 3 dB, and the FER
is less than 1.5%.
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Name
Index
Conducted spurious
< -80 dBm, measured within the BTS receive band
emissions and radiated
< -60 dBm, measured within the BTS transmit band
spurious emissions
Radio frequency Front End
< 2.0
SWR
3.3.8 Interface Indices
The interface indices of ZXSDR RSU82C is shown as Table 3-5.
Table 3-5 Description of ZXSDR RSU82C’s interfaces
Type
Description
Index
CPRI
Fiber/Cable
2 CPRI interfaces: 1 CPRI for BBU or
upper-level RSU,1 CPRI for lower-level RSU
UE
Um interface
2 Tx/Rx,2 diversity receivers
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Chapter 4
Hardware Decsripition
Table of Contents
Function .....................................................................................................................4-1
Panel..........................................................................................................................4-1
Button ........................................................................................................................4-2
Indicators ...................................................................................................................4-3
Panel Interfaces .........................................................................................................4-4
4.1 Function
RSU provides the following functions:
Communication with the baseband subrack
Conversion between air interface RF signals and digital signals
RF signal amplification, transmission, and reception
Clock synchronization.
4.2 Panel
Figure 4-1 illustrates the ZXSDR RSU82C panel.
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Figure 4-1 ZXSDR RSU82C Panel
4.3 Button
There is only one button (RST) on the ZXSDR RSU82C panel.Table 4-1 describes the
button.
Table 4-1 ZXSDR RSU82C Panel Button Description
Button
Description
RST
Reset button
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4.4 Indicators
Table 4-2 describes ZXSDR RSU82C panel indicators.
Table 4-2 ZXSDR RSU82C Panel Indicator Description
Indicator
Color
Meaning
Description
RUN
Green
RSU running
On when RSU is being reset or started.
indicator
Blinks in 1Hz when RSU runs normally.
Blinks in 5 Hz when the version is being
downloaded.
Off when Self test fails.
ALM
Red
RSU alarm indicator
Off when RSU runs normally or is being
reset or started, or RSU version is being
downloaded.
Blinks in 5 Hz when a critical alarm is
generated.
Blinks in 1 Hz when a minor alarm is
generated.
LNK1
Green
Indicator of the first
A: Constantly on. The optical fiber connection
optical port/electrical
is normal.
port connection
B: Flashes quickly (1 Hz). It indicates that the
optical port communication is abnormal.
C: Off. It indicates that there is no optical
module or there is no optical signal. (During
the power-on process, the indicator is in this
state by default.)
This indicator is used mainly to check whether
the optical fiber link is connected on the field.
If the indicator flashes or the indicator is on, it
indicates that the physical connection of the
optical fiber is normal.
LNK2
Green
Indicator of the
A: Constantly on. The optical fiber connection
second optical
is normal.
port/electrical port
B: Flashes quickly (1 Hz). It indicates that the
connection
optical port communication is abnormal.
C: Off. It indicates that there is no optical
module or there is no optical signal. (During
the power-on process, the indicator is in this
state by default.)
This indicator is used mainly to check whether
the optical fiber link is connected on the field.
If the indicator flashes or the indicator is on, it
indicates that the physical connection of the
optical fiber is normal.
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Indicator
Color
Meaning
Description
RF1
Red/Green
RF signal abnormal
A: The green indicator is constantly on. It
indicator of the first
indicates that the RF output is normal.
antenna port
B: The red indicator is constantly on. It
indicates the antenna standing wave alarm.
C: The green indicator is off. It indicates that
there is no RF output (or the power amplifier
is shut off.) (During the power-on process, the
two indicators are off by default.)
RF2
Red/Green
RF signal abnormal
A: The green indicator is constantly on. It
indicator of the
indicates that the RF output is normal.
second antenna port
B: The red indicator is constantly on. It
indicates the antenna standing wave alarm.
C: The green indicator is off. It indicates that
there is no RF output (or the power amplifier
is shut off.) (During the power-on process, the
two indicators are off by default.)
4.5 Panel Interfaces
Table 4-3 describes ZXSDR RSU82C panel interfaces.
Table 4-3 ZXSDR RSU82C Panel Interface Description
Interface
Entity at end A
Entity at end B
Description
ANT1
RSU
The first Tx antenna
The first Tx/Rx antenna feeder interface
RSU
The first Rx antenna
The first receive diversity antenna feeder
(TX1/RX1A)
ANT2(RX1B)
interface
ANT3(TX2/
RSU
RX2A)
ANT4(RX2B)
TX1 RX1
TX2 RX2
DBG
RSU
RSU
RSU
RSU
The second Tx
The second Tx/Rx antenna feeder
antenna
interface
The second Rx
The second receive diversity antenna
antenna
feeder interface
BBU or the upper level
Connected to the CPRI interface of BBU
cascaded RSU
or upper level cascaded RSU
Lower level cascaded
Connected to the CPRI interface of the
RSU
lower level cascaded RSU
PC and test device
Debug interface and test interface
(test board)
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Interface
Entity at end A
Entity at end B
Description
MON
RSU
Peripheral
Provides input interface for four channels
of dry contact signals and RS 485
environment monitoring interface
AISG
RSU
Antenna feeder
Connected to antenna feeder AISG
interface
POWER
RSU front panel
RF power supply in
-48 V DC power input interface
the power distribution
subrack
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Chapter 5
Hardware Installation
Table of Contents
Installing the RSU Module ..........................................................................................5-1
Connecting RSU Monitoring Cable .............................................................................5-9
Installing Optical Fibers Between BBU and RSU ......................................................5-10
Installing the Interconnected Cable Between BBU and RSU.....................................5-12
Installing the RF Jumper...........................................................................................5-15
5.1 Installing the RSU Module
Prerequisites
Before installing the RF module, wear the ESD wrist strap to avoid damaging the RF
module.
The RF cabinet has already been installed.
Context
Figure 5-1 shows the front panel of a ZXSDR RSU82C.
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Figure 5-1 ZXSDR RSU82C Panel
Note:
When a ZXSDR RSU82C is used in a single-sector and high-carrier scenario, the RF
jumper connects only to the ANT1 and ANT3 interfaces.
Steps
1. Determine the target slot, hold the handle of the module with one hand, support the
lower back of the module with the other hand, and try to make parallel the module and
the guiding plane, as shown in Figure 5-2.
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Figure 5-2 Step 1
2. Push the module slightly into the slot to more than half the depth of the slot, as shown
in Figure 5-3.
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Figure 5-3 Step 2
3. Change the place where exercise force and then push further the module with even
force, as shown in Figure 5-4.
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Figure 5-4 Step 3
4. Push the module until the inner side of the front panel closely touch the vertical shaft,
as shown in Figure 5-5.
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Figure 5-5 Step 4
5. Secure the module using five M5 x 20 screws, as shown in Figure 5-6.
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Figure 5-6 Step 5
1. Fixing the cabinet with
5 M5x20 screws
2. Fixing the grounding
lug
6. Secure the ground lug.
As shown in Figure 5-6, the M5 x 20 screws secures the ground lug of the RSU module
to the ground points.
– End of Steps –
Result
Figure 5-7 shows the completion of installing the RF module.
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Figure 5-7 RSU Module Installed Completely
Follow-Up Action
After installing RSU modules, connect the RSU power cables to the RSU power
interfaces.RSU power cables have been routed to proper slots, as shown in Figure 5-8.
Figure 5-8 Power Cable Connecting the RSU
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5.2 Connecting RSU Monitoring Cable
Prerequisites
ZXSDR RSU82C RF cabinet has already been installed.
The RSU module has already been installed.
Context
The RSU monitoring cable of the RF cabinet is routed to the right side of the RF cabinet
in delivery, as shown in Figure 5-9. After the RSU module is installed, insert the terminal
of the RSU monitoring cable to the MON (monitoring) interface of the RSU module.
Figure 5-9 RSU Monitoring Cable
Note:
If multiple RSU modules need to be monitored, only one RSU module needs to be
connected to the RSU monitoring cable.
Steps
1. Connect one end of the RSU monitoring cable to the MON (monitoring) interface of
the RSU module and fasten the screw.
2. Bundle the RSU monitoring cable.
Figure 5-10 shows the connected RSU monitoring cable.
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Figure 5-10 Installing the RSU Monitoring Cable
– End of Steps –
5.3 Installing Optical Fibers Between BBU and RSU
Prerequisites
The ESD wrist strap must be worn.
The baseband power cabinet and the RF cabinet have been independently installed.
Context
When the baseband power cabinet and the RF cabinet are installed side by side or they
are far away from each other, you need to connect BBU and RSU using optical fibers.
Pay attention to the following points when installing optical fibers:
Do not damage the optical fiber cladding during operations.
Protect optical fiber connectors and avoid contaminating them.
Do not forcibly bundle optical fibers.
Curve optical fibers at the turning.
Steps
1. Affix a temporary label.
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Affix temporary labels to both ends of the new optical fiber to set up a mapping. If
more than one optical fiber needs to be installed, use different labels to differentiate
optical fibers.
2. Route optical fibers.
a. Optical fibers go out from the side waterproof module of the baseband module and
go through the routing apertures on the base.
b. Then, optical fibers go through the routing apertures on the base of the RF cabinet,
traverse the waterproof modules, and connect to the six optical interfaces for RF
modules.
Figure 5-11 shows how optical fibers traverse the waterproof modules.
Figure 5-11 Waterproof Module through Which Optical Fibers Pass
3. Insert optical fiber connectors.
Insert optical fiber connectors according to the mapping on temporary labels.
Caution!
Insert optical fiber connectors tightly.
4. Bundle optical fibers.
Bundle and secure optical fibers along the routing troughs, which complies with
relevant regulations.
5. Affix an engineering label to an optical fiber.
Remove the temporary label for the optical fiber and affix an engineering label.
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Caution!
Protect an optical fiber with the winding tube when routing the optical fiber inside the
cabinet. Protect an optical fiber with the corrugated pipe when routing the optical fiber
outside the cabinet.
– End of Steps –
5.4 Installing the Interconnected Cable Between BBU
and RSU
Prerequisites
The ZXSDR RSU82C cabinet has already been installed.
The BBU module and RSU module have already been installed.
Context
ZXSDR RSU82CIn the system, optical fibers or SFP cables can be used to connect BBU
and RSU. During the stacked installation of the ZXSDR RSU82C, a 2 m SFP high-speed
cable is recommended for interconnecting BBU and RSU. Figure 5-12 shows an SFP
cable.
Figure 5-12 High-Speed Cable
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Steps
1. Affix temporary labels to both ends of the SFR cable, with markings 0-5 to set up
one-to-one mapping with interfaces TX0RX0 to TX5RX5 of BBU and six TX/RX
interfaces of RSU.
2. Insert one end of the SFP cable to a TX/RX interface of RSU.
3. Route the SFP cable along the routing trough and cabinet sides to the FS module of
BBU. The SFP cables connecting to the RSUs in slots 1 to 3 on the RF cabinet go
through the left routing apertures and those SFP cables go through the right apertures
if connecting to slots 4 to 6 on the RF cabinet, as shown in Figure 5-13 and Figure
5-14.
Figure 5-13 Layout of the SFP Cables in the RF Cabinet
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Figure 5-14 SFP Cable Layout
4. Insert SFP cables into the interfaces TX0RX0 to TX5RX5 of the BBU FS board
according to the markings 0-5, as shown in Figure 5-15.
Figure 5-15 FS Board Connecting to the BBU
5. Bundle SFP cables.
6. Remove temporary labels and affix engineering labels.
– End of Steps –
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5.5 Installing the RF Jumper
Prerequisites
The ZXSDR RSU82C RF cabinet and other modules have already been installed.
Context
The RF jumpers for the three ZXSDR RSU82C go through the waterproof module on the
right.
Remove the front baffle of the base before installing the RF jumpers and reseat the front
baffle after all jumpers are completely installed.
The typical loss of the RF cable (with the frequency 1.9 GHz and cable length 30 m) is 3.4
dB.
Steps
1. Connect the RF jumpers to ANT1 to ANT4 interfaces of RSU from left to right.
2. Wear the waterproof rubber plug after every two RF jumpers are installed.
3. Insert the horizontal and longitudinal slide blocks and use the hexagon ring wrench to
fasten them.
Caution!
Clamp the waterproof rubber plug tightly and make sure that the unused cabling
aperture wears the plug.
4. Repeat the preceding steps to install other RSU-related jumpers.
– End of Steps –
Result
Figure 5-16 shows the completion of installing the RF jumpers.
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Figure 5-16 Antenna Feeder Jumper Installed Completely
The RF jumpers go out from the base, as shown in Figure 5-17. The cables between
cabinets must be protected with protective tubes, without any exposed part of the cables
and the openings at two ends of these cables must be sealed, as shown in Figure 5-18.
Figure 5-17 Lead-Out of the Antenna Feeder Jumper
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Figure 5-18 Cables in Tubes
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Figures
Figure 2-1 ZXSDR RSU82C Position in a Network.................................................... 2-2
Figure 2-2 Outer View of ZXSDR RSU82C ............................................................... 2-3
Figure 3-1 Frame Structure of ZXSDR RSU82C ....................................................... 3-1
Figure 4-1 ZXSDR RSU82C Panel ........................................................................... 4-2
Figure 5-1 ZXSDR RSU82C Panel ........................................................................... 5-2
Figure 5-2 Step 1 ...................................................................................................... 5-3
Figure 5-3 Step 2 ...................................................................................................... 5-4
Figure 5-4 Step 3 ...................................................................................................... 5-5
Figure 5-5 Step 4 ...................................................................................................... 5-6
Figure 5-6 Step 5 ...................................................................................................... 5-7
Figure 5-7 RSU Module Installed Completely............................................................ 5-8
Figure 5-8 Power Cable Connecting the RSU ........................................................... 5-8
Figure 5-9 RSU Monitoring Cable ............................................................................. 5-9
Figure 5-10 Installing the RSU Monitoring Cable..................................................... 5-10
Figure 5-11 Waterproof Module through Which Optical Fibers Pass ........................ 5-11
Figure 5-12 High-Speed Cable................................................................................ 5-12
Figure 5-13 Layout of the SFP Cables in the RF Cabinet ........................................ 5-13
Figure 5-14 SFP Cable Layout................................................................................ 5-14
Figure 5-15 FS Board Connecting to the BBU......................................................... 5-14
Figure 5-16 Antenna Feeder Jumper Installed Completely ...................................... 5-16
Figure 5-17 Lead-Out of the Antenna Feeder Jumper ............................................. 5-16
Figure 5-18 Cables in Tubes ................................................................................... 5-17
Figures
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Tables
Table 1-1 Safety Symbols Description....................................................................... 1-2
Table 2-1 The Primary Functions of ZXSDR RSU82C ............................................... 2-3
Table 3-1 The functions of subsystem ....................................................................... 3-1
Table 3-2 ZXSDR RSU82C Capacity Indices ............................................................ 3-3
Table 3-3 1.9 GHz Transmitter Indices ...................................................................... 3-4
Table 3-4 1.9 GHz Receiver Indices .......................................................................... 3-5
Table 3-5 Description of ZXSDR RSU82C’s interfaces .............................................. 3-6
Table 4-1 ZXSDR RSU82C Panel Button Description ............................................... 4-2
Table 4-2 ZXSDR RSU82C Panel Indicator Description ............................................ 4-3
Table 4-3 ZXSDR RSU82C Panel Interface Description ............................................ 4-4
III
Tables
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Glossary
AISG
- Antenna Interface Standards Group
BBU
- BaseBand Unit
BSC
- Base Station Controller
BTS
- Base Transceiver Station
CPRI
- Common Public Radio Interface
MS
- Mobile Station
RF
- Radio Frequency
RSSI
- Received Signal Strength Indicator
RSU
- RF System Unit
SDR
- Software Defined Radio

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