Post on 10-Nov-2015
ZXMBW R9100Remote Radio Unit(24)
Technical Manual
Version 3.21
ZTE CORPORATIONZTE Plaza, Keji Road South,Hi-Tech Industrial Park,Nanshan District, Shenzhen,P. R. China518057Tel: (86) 755 26771900Fax: (86) 755 26770801URL: http://ensupport.zte.com.cnE-mail: support@zte.com.cn
LEGAL INFORMATION
Copyright 2006 ZTE CORPORATION.
The contents of this document are protected by copyright laws and international treaties. Any reproduction or distribution ofthis document or any portion of this document, in any form by any means, without the prior written consent of ZTE CORPO-RATION 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 CORPORATIONor of their respective owners.
This document is provided as is, and all express, implied, or statutory warranties, representations or conditions are dis-claimed, including without limitation any implied warranty of merchantability, fitness for a particular purpose, title or non-in-fringement. ZTE CORPORATION and its licensors shall not be liable for damages resulting from the use of or reliance on theinformation contained herein.
ZTE CORPORATION or its licensors may have current or pending intellectual property rights or applications covering the subjectmatter 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 03/30/2009 First Edition
Serial Number: sjzl20090786
Contents
Preface............................................................... i
Product Overview..............................................1Position in ASN Network .................................................. 1
Product Appearance ........................................................ 2
Product Functions ........................................................... 3
Product Features ............................................................ 4
External Interfaces ......................................................... 5
Application Scenarios ...................................................... 6
Operation and Maintenance Modes...................................10
Baseband-RF Interface Networking ..................................11
Product Reliability..........................................................12
Technical Indices ...........................................................13
Engineering Indices ...................................................13
Performance Indices ..................................................14
RF Power Indices .......................................................14
Compliance Standards....................................................15
Work Principle.................................................19System Architecture.......................................................19
Power Distribution .........................................................20
Ventilation and Heat-dissipation Principles.........................20
Hardware Description......................................21Cabinet ........................................................................21
Cabinet Structure ......................................................21
Cabinet Technique Feature ..........................................22
Modules .......................................................................22
Module List ...............................................................22
WRFE.......................................................................22
WRFE Functions ................................................22
WRFE Performance Specifications ........................23
WRPM......................................................................23
WRPM Functions ...............................................23
WRPM Work Principle.........................................23
WDPA ......................................................................24
WDPA Functions................................................24
WDPA Work Principle .........................................25
WPTR.......................................................................25
WPTR Functions ................................................25
WPTR Work Principle .........................................26
External Cables .............................................................27
DC Power Cable.........................................................27
Grounding Cable........................................................27
DLC/PC-DLC/PC Two-Core Single-Mode Waterproof
Outdoor Fiber....................................................28
Two-core Field Operational Fiber ..................................28
RF Jumper ................................................................29
Main Antenna Feeder System ..........................................29
Main Antenna Feeder System Structure ........................29
Antenna ...................................................................31
Feeder .....................................................................32
Protocol Interface Description ........................33ASN Network Reference Model.........................................33
R1 Interface .................................................................34
Baseband-RF Interface ...................................................36
Figures ............................................................39
Tables .............................................................41
List of Glossary................................................43
Preface
Purpose ZXMBW R9100 is a WiMAX remote RF unit developed by ZTE Cor-poration for outdoor large-capacity coverage, and blind spot andhotspot coverages.
This manual provides network position, functions, features, proto-col interfaces, indices and applied standards of the ZXMBW R9100and describes functions and work principles of modules and struc-tures of cables and parts.
IntendedAudience
This document is intended for engineers and technicians who per-form operation activities ZXMBW R9100.
Prerequisite Skilland Knowledge
To use this document effectively, users should have a general un-derstanding of WiMAX system. Familiarity with the following ishelpful:
WiMAX technology
IEEE802.16e - Standard
ZXMBW R9100 and its various components
What is in ThisManual
This manual contains the following chapters:
Chapter Summary
Chapter 1 Product Overview Describes ZXMBW R9100 positionin ASN, appearance, functions,features, indices and standards.
Chapter 2 Work Principle Describes the system architecture,power distribution principles andventilation and heat-dissipationprinciples of ZXMBW R9100.
Chapter 3 Hardware Description Describes structures of ZXMBWR9100 cabinet, cables, modulesand main antenna feeder system.
Chapter 4 Protocol InterfaceDescription
Describes standard protocolinterfaces used by ZXMBW R9100:R1 interface and baseband-RFinterface.
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C h a p t e r 1
Product Overview
Table of ContentsPosition in ASN Network ...................................................... 1Product Appearance ............................................................ 2Product Functions ............................................................... 3Product Features ................................................................ 4External Interfaces ............................................................. 5Application Scenarios .......................................................... 6Operation and Maintenance Modes.......................................10Baseband-RF Interface Networking ......................................11Product Reliability..............................................................12Technical Indices ...............................................................13Compliance Standards........................................................15
Position in ASN NetworkOverview The Access Service Network (ASN) reference model is defined by
Worldwide Interoperability for Microwave Access (WiMAX) NetworkWorking Group (NWG).
Figure 1 illustrates ASN reference model.
FIGURE 1 ASN REFERENCE MODEL
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WiMAX ASNNetwork
ZXMBW R9100 belongs to RRU product of ZTE WiMAX BS product(BBU+RRU architecture). Figure 2 illustrates ZXMBW R9100 posi-tion in ASN network.
FIGURE 2 POSITION IN ASN NETWORK
Application The application of ZXMBW R9100 in the forward and reverse linkis described below.
Forward Link: The Connectivity Service Network (CSN) sendsforward signals to Baseband Unit (BBU) via ASN Access Gateway(AGW) for coding and modulation. The BBU sends the modulatedsignals to ZXMBW R9100 via an optical fiber for In-phase/Quadra-ture (IQ) modulation, up-conversion, and power amplification. Af-ter all these processes, ZXMBW R9100 sends the IQ modulatedsignal to Mobile Station (MS) via antenna.
Reverse Link: ZXMBW R9100 receives air-interface signals fromantenna for down-conversion and IQ demodulation. ZXMBWR9100 sends the IQ demodulated signals to BBU via optical fiberfor decoding and demodulation. After demodulation, the BBUsends the demodulated signals to CSN via AGW.
Product AppearanceZXMBW R9100 radio unit is made of cast aluminum metal. It isvery small and exquisite.
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Figure 3 shows the appearance of ZXMBW R9100. The cabinetsurface is coated by silver gray paint that is suitable for outdoorclimate.
FIGURE 3 ZXMBW R9100 APPEARANCE
Product FunctionsAs a remote RF unit, ZXMBW R9100 provides the following func-tions.
1. Forward transmission
Receives In-phase and Quadrature phase (I/Q) signals fromthe BBU optical interface (in the protocol format of OBSAI)for up-conversion, RF power amplification and transmissionfiltering, and then transmits these signals via the antenna.
Implements antenna feeder interface standing wave detec-tion.
Implements baseband signal power detection and antennafeeder interface power detection.
Implements automatic and manual calibration.
2. Reverse reception
Performs band pass filtering, low noise amplification, RFmixing and digitial down-conversion on received air inter-face signals and then sends them to the baseband. Af-ter undergoing electrical-to-optical conversion, these base-band are transmitted to BBU via optical fiber.
Provides Received Signal Strength Indicator (RSSI) func-tion.
Provides Automatic Gain Control (AGC).
3. Other Functions
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Implements power amplifier monitoring and management.
Implements power supply monitoring and management.
Provides Time Division Duplex (TDD) time sequence regen-eration.
Provides version monitoring and management.
Provides BSmaintenance status information for OMC to dis-tinguish between commercial and noncommercial systemalarms.
Restores and regenerates clocks at the fiber interface.
Provides transmission delay measurement.
Supports the AISG electrical tunable antenna that meetsthe AISG2.0 standard.
Provides dry contact monitoring.
Supports FFR.
Supports RRU power-off alarm.
Implements no output of RF output signals when the R6interface is disconnected.
Supports up to 10km remote fiber with BBU.
Product Features Small size, light weight, flexible installation
Small size and light weight of the ZXMBW R9100 cabinet pro-vides easy installation and maintenance. The equipment vol-ume is 19 liters, and the weight is 17kg, which provides easyinstallation and maintenance, including pole installation, wallinstallation and rack installation.
Environment adaptability
The system supports working temperature ranging from - 40C to + 55 C and IP65 shell protection level. It can satisfydifferent outdoor installation environments.
MIMO working mode
The system supports 2Tx2Rx MIMO and 2Tx4Rx MIMO.
Various bandwidths
The single-carrier bandwidth can be 5 MHz, 7MHz or 10 MHz.
Various WiMAX standard band classes
The system supports various WiMAX band classes such as 2300MHz ~ 2400 MHz, 2500 MHz ~ 2610 MHz, 2590 MHz ~ 2700MHz, 3400 MHz ~ 3500 MHz and 3500 MHz ~ 3600 MHz.
Output power
The output power is 2 10w for 2.3 GHz, 210W for 2.5 GHzand 24W for 3.5 GHz.
OBSAI standard interface
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The interface between the system and BBU meets the OBSAI-RP3 standard.
AC/DC power supply
The system supports 220 V / 110 V AC power supply or -48V DC power supply, which brings easier and more economicalsystem installation and maintenance.
Remote coverage
The coverage semidiameter reaches 20km.
Theft prevention design
The equipment should be opened by special tools. The ordinarytools, like screwdriver, forceps and hammer, cannot open thiscabinet in 3 minutes. The equipment meets RoHS.
The system meets FCC, CE and UL authentication require-ments.
The equipment meets part 15 of the FCC standard. Any op-erations on the equipment should follow the relevant rules toavoid dangerous interference.
Caution:
Any changes or modifications not expressly approved by the partyresponsible for compliance could void the users authority to op-erate the equipment.
External InterfacesShort Description The ZXMBW R9100 is highly integrated. Only four modules are
used and many external interfaces are available on the panel. Thepower interface connects with the WRPM module, RF antenna in-terface connects with the WRFE module and BDS-RFS Optical Fiberinterfaces connect with the WTRX module.
ZXMBW R9100External
Interfaces
External interfaces are located on the ZXMBW R9100 bottom plate.Figure 4 shows the position of the interfaces on the ZXMBW R9100panel.
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FIGURE 4 EXTERNAL INTERFACES
1. BDS-RFS Optical Fiber (LC1/2)2. Antenna Interface Standard Group
(AISG)3. Monitoring Interface (MON)
4. Power Interface (DC IN)5. RF Antenna Interface (Port2/3)6. RF Antenna Interface (Port0/1)
InterfaceDescription
Table 1 Lists the description of the external interfaces of ZXMBWR9100 cabinet.
TABLE 1 EXTERNAL INTERFACE DESCRIPTION
Interface Description
BDS-RFS Fiber Optical(LC1/2)
This interface connects the ODF.
Antenna InterfaceStandard Group (AISG)
This is the test interface. The Indoor AISGcontrol cable connects the WTRX board.The outdoor AISG control cable connectsthe antenna for adjusting the azimuth ofthe antenna.
Monitoring Interface(MON)
The monitoring cable connects betweenthe MON interface on the cabinet with thevarious monitoring devices.
Power Interface (DC IN) -48VDC power cable connects between DCIN and the power source.
RF Antenna Interface(Port2/3)
The RF cable connects the Antenna withthe port 2/3 of the cabinet.
RF Antenna Interface(Port0/1)
The RF cable connects the Antenna withthe port 0/1 of the cabinet.
Application ScenariosAccording to different situations, ZXMBW R9100 cabinet installa-tion supports the following modes:
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Wall Mount Mode
Pole Mount Mode
Gantry (Rack) Mount Mode
Wall MountInstallation Mode
During the wall-mounted installation the ZXMBW R9100 is installedand fixed to a supporting panel which is installed on a wall. Thecabinet is fixed to the supporting panel by a M6 bolt.
Figure 5 illustrates a wall mounted ZXMBW R9100 cabinet.
FIGURE 5 WALL MOUNT INSTALLATION
Pole MountInstallation Mode
The pole-mounted installation facilitates single cabinet, doublecabinet and triple cabinet installation.
Single and Double Cabinet Installation mode
Figure 6 and Figure 7 illustrate a single and a double ZXMBWR9100 cabinets installed on the pole respectively. This scenariouses a pole anchor clamp component for fixing.
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FIGURE 6 POLEMOUNT INSTALLATION (ONE ZXMBW R9100 CABINET)
FIGURE 7 POLE MOUNT INSTALLATION (TWO ZXMBW R9100CABINETS)
Three ZXMBW R9100 Cabinet Installation on a Pole
Figure 8 illustrates three ZXMBW R9100 cabinets installed ona pole. This scenario uses a supporting panel for mounting thecabinets.
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FIGURE 8 POLE MOUNT INSTALLATION (THREE ZXMBW R9100CABINETS)
Gantry (Rack)Installation Mode
The rack-mounted installation facilitates single cabinet, doublecabinet and triple cabinet installation. The ZXMBW R9100 cabi-nets are mounted onto the supporting panels which are fixed tothe rack.
Figure 9 illustrates this installation scenario.
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FIGURE 9 GANTRY (RACK) INSTALLATION
Operation and MaintenanceModesZXMBW R9100 operation and maintenance are realized by BBU,as shown in Figure 10
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FIGURE 10 OPERATION AND MAINTENANCE MODES
The following functions are provided to ZXMBW R9100 through theOperation and Maintenance System.
Different bandwidth configuration
Power detection and control, auto-scale
Data collection, board status query and alarm monitoring
Version management and online upgrading
Diagnosis test
Baseband-RF InterfaceNetworkingZXMBW R9100 supports both star networking and chain network-ing with BBU.
Star Networking In star networking, each ZXMBW R9100 connects directly to BBUvia optical fiber, as is shown in Figure 11
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FIGURE 11 ZXMBW R9100 STAR NETWORKING
Chain Networking ZXMBW R9100 chain networking is applicable in sparsely popu-lated areas.
Figure 12 shows the ZXMBW R9100 chain networking.
FIGURE 12 ZXMBW R9100 CHAIN NETWORKING
Product ReliabilityTopple Protection The cabinet distribution retains the integrated symmetry. In nor-
mal condition, it will not topple on the 10 degree slope plane; theexternal shell of the cabinet can withstand the external force im-pact.
Fire Protection All the materials, like the shell, PCB boards, cables, componentsand racks, adopt flame retardant material and they satisfy therelated safety standard requirement. The circuit design includesovercurrent and overvoltage protection; it can avoid the overloadheat in normal and faulty condition. The power part has protectiontube and arc-suppression impedance protection.
Lightningprotection
The system adopts reliable lightning protection. The workingground impedance is < 10 ohm. The safety ground end hascorrosion resistance feature and the grounding cable dimension is8AWG. There is a toothed washer between the safety groundingand the external shell bolt to ensure the connection reliability.
Componentsselection
All the components satisfy UL (or CSA) and VDE (or TUV, NEMKO,SEMKO) authentication.
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Protection class IP protection class is IP65
Grounding Safety grounding symbol , is in the first connection point of theequipment safety grounding and it is very clear. The connectionend does not include switch or overcurrent protection component.The design can realize the safety grounding, and engages firstlyduring power-on and disconnects in the end during power-off.
Technical Indices
Engineering Indices
Physical indices Table 2 lists the ZXMBW R9100 physical indices.
TABLE 2 PHYSICAL INDICES
Index Name Index Value
Dimension 370mm(H) 320mm(W)160mm(D)
Internal Dimension 350mm(H) 300mm(W) 74mm(D)
Volume 19 L
Weight < 17 kg
Operating temperature -40 ~ +55
Operating Humidity 5% ~ 100% RH
Shell Protection Class IP65
Power SupplyIndices
Table 3 lists the power supply indices of ZXMBW R9100.
TABLE 3 POWER SUPPLY INDICES
Power SupplyInput Type
RecommendedValue
Operating Range
DC 48 V DC 57 V ~ 40 V
AC 220 V AC 165V ~ 300V AC;Frequency: 50Hz ~60Hz
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PowerConsumption
ZXMBW R9100 typical power consumption: 237W
Performance Indices
Table 4 lists the ZXMBW R9100 performance indices.
TABLE 4 PERFORMANCE INDICES
Performance Index Index Value
Frequency Band Supports the WiMAX standardband class as:2300 MHz ~ 2400MHz2500 MHz ~ 2610 MHz2590MHz ~ 2700 MHz3400 MHz ~ 3500MHz3500 MHz ~ 3600 MHz
Working Mode Supported by RFChannel
Supports 2T2R and 2T4R MIMOtechnology.
Bandwidth A single carrier supports 5MHz /7MHz / 10MHz.Multi carrier supports 25MHz /27MHz.
Baseband-RF interface The interface between RRU andBBU complies with the OBSAI-RP3standard.
RF Power Indices
Table 5 shows Radio Frequency (RF) power indices of ZXMBWR9100.
TABLE 5 RF POWER INDICES
WorkBand
OutputPower perCarrier
Dynamic PowerRange
Power Step
2.3 GHz
2.5 GHz
10 W 25 dB
3.5 GHz 4 W 21 dB
0.5 dB
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Compliance StandardsThe ZXMBW R9100 complies with universal telecommunicationstandards. The standards are categorized as below.
InternationalStandards
The ZXMBW R9100 complies with the following international stan-dards.
Institute of Electrical and Electronics Engineers (IEEE) Stan-dard 802.16-2004, IEEE Standard for Local and MetropolitanArea Networks - Part 16: Air Interface for Fixed Wireless Ac-cess Systems.
Institute of Electrical and Electronics Engineers (IEEE) Stan-dard 802.16-2005, Part 16: Air Interface for Fixed and MobileBroadband Wireless Access Systems.
Worldwide Interoperability for Microwave Access (WiMax) Fo-rumTM Mobile Radio Conformance Tests (MRCT).
Worldwide Interoperability for Microwave Access (WiMAX) Fo-rumTM Mobile Protocol Implementation Conformance State-ment (PICS) Proforma.
Worldwide Interoperability for Microwave Access (WiMAX) Fo-rumTM Mobile System Profile.
Open Base Station Architecture Initiative (OBSAI) ReferencePoint 3 Specification Version 3.0.
Lightning ProofStandards
The ZXMBW R9100 complies with the following lightning proofstandards.
International Electrotechnical Commission (IEC) 61312-1(1995) Protection against Lightning Electromagnetic ImpulsePart I: General Principles.
International Electrotechnical Commission (IEC) 61643-1(1998) Surge Protective devices connected to low-voltagepower distribution systems.
International Telecommunications Union (ITU) -T K.11 (1993)Principles of Protection against Overvoltage and Overcurrent.
International Telecommunications Union (ITU) -T K.27 (1996)Bonding Configurations and Earthing Inside a Telecommunica-tion Building.
European Telecommunication Standard (ETS) 300 253 (2004)Equipment Engineering; Earthing and bonding of telecommu-nication equipment in telecommunication centres.
Safety Standards The ZXMBW R9100 complies with the following safety standards.
International Electrotechnical Commission (IEC) 60950 Safetyof information technology equipment including Electrical Busi-ness Equipment.
International Electrotechnical Commission (IEC) 60215 Safetyrequirement for radio transmitting equipment.
Canadian Standards Association (CAN/CSA) - C22.2 No 1-M94Audio, Video and similar Electronic Equipment.
Canadian Standards Association (CAN/CSA) - C22.2 No 950-95Safety of Information Technology Equipment including Electri-cal Business Equipment.
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University of Limerick (UL) 1419 Standard for ProfessionalVideo and Audio Equipment.
73/23/ Electrical and Eletronics Commission (EEC) Low VoltageDirective.
University of Limerick (UL) 1950 Safety of information technol-ogy equipment including Electrical Business Equipment.
International Electrotechnical Commission (IEC) 60529 Clas-sification of degrees of protection provided by enclosure (IPCode).
GOST 30631-99. General Requirements to machines, instru-ments and other industrial articles on stability to external me-chanical impacts while operating.
GOST 12.2.007.0-75. Electro-technical devices. The generalsafety requirements.
EMC Standards The ZXMBW R9100 complies with the following EMC standards.
IEC Special International Committee on Radio Interference(CISPR) 22 (1997): Limits and methods of measurement ofradio disturbance characteristics of information technologyequipment.
EN 301 489-1 Part 1: Common technical requirements.
International Electrotechnical Commission (IEC) 61000-6-1:1997: Electromagnetic Compatibility (EMC) - Part 6: Genericstandards - Section 1: Immunity for residential, commercialand light-industrial environments.
International Electrotechnical Commission (IEC) 61000-6-3:1996: Electromagnetic Compatibility (EMC) - Part 6: Genericstandards - Section 3: mission standard for residential, com-mercial and light industrial environments.
International Electrotechnical Commission (IEC) 61000-4-2(2001): Electromagnetic Compatibility (EMC) - Part 4: Test-ing and measurement techniques - Section 2: Electrostaticdischarge immunity test.
International Electrotechnical Commission (IEC) 61000-4-3(2006): Electromagnetic Compatibility (EMC) - Part 4: Testingand measurement techniques - Section 3: Radiated, radio-fre-quency electromagnetic field immunity test
International Electrotechnical Commission (IEC) 61000-4-4(2004): Electromagnetic Compatibility (EMC) - Part 4: Testingand measurement techniques - Section 4: Electrical fasttransient/burst immunity test.
International Electrotechnical Commission (IEC) 61000-4-5(2006/2005): Electro- Magnetic Compatibility (EMC) - Part4: Testing and measurement techniques - Section 5: Surgeimmunity test.
International Electrotechnical Commission (IEC) 61000-4-6(2007/2006): Electro- Magnetic Compatibility (EMC) - Part 4:Testing and measurement techniques - Section 6: Immunityto contacted disturbances, induced by radio frequency fields.
International Telecommunications Union (ITU) -T Recommen-dation K.20: Resistibility of Telecommunication SwitchingEquipment to overvoltages and overcurrents.
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GOST R 51318.22-99: Electromagnetic compatibility of tech-nical equipment. Man-made noise from informational equip-ment. Limits and test methods.
GOST 30429-96: Electromagnetic compatibility of technicalequipment. Man-made noise from equipment and apparatusused together with service receiver systems of civil applica-tion. Limits and test methods.
EnvironmentStandards
The ZXMBW R9100 complies with the following environment stan-dards.
International Electrotechnical Commission (IEC) 60529 "De-grees of protection provided by enclosure (IP code)".
International Electrotechnical Commission (IEC) 60721-3-1:Classification of environmental conditions- Part3: Classifica-tion of groups of environmental parameters and their severi-ties- Section 1: Storage
International Electrotechnical Commission (IEC) 60721-3-2:Classification of environmental conditions- Part3: Classifica-tion of groups of environmental parameters and their severi-ties- Section 2: Transportation.
International Electrotechnical Commission (IEC) 60721-3-3(1994): Classification of environmental conditions - Part 3:Classification of groups of environmental parameters and theirseverities - Section 3: Stationary use at weather protectedlocations.
European Telecommunication Standard (ETS) 300 019-2-1:Equipment Engineering (EE); Environmental conditions andenvironmental tests for telecommunications equipment; Part2-1, Specification of environmental tests Storage.
European Telecommunication Standard (ETS) 300 019-2-2:Equipment Engineering (EE ); Environmental conditions andenvironmental tests for telecommunications equipment; Part2-2, Specification of environmental tests Transportation.
European Telecommunication Standard (ETS) 300 019-2-3:Equipment Engineering (EE); Environmental conditions andenvironmental tests for telecommunications equipment; Part2-3, Specification of environmental tests Transportation Sta-tionary use at weather-protected locations.
International Electrotechnical Commission (IEC) 60068-2-1(1990): Environmental testing - Part 2: Tests. Tests A: Cold.
International Electrotechnical Commission (IEC) 60068-2-2(1974): Environmental testing - Part 2: Tests. Tests B: Dryheat.
International Electrotechnical Commission (IEC) 60068-2-6(1995): Environmental testing - Part 2: Tests - Test Fc:Vibration (sinusoidal).
GOST 15150-69: Machines, instruments and other industrialarticles. Applications for different climatic regions. Categories,operating, storage and transportation conditions in compliancewith the environmental factors.
GOST 23088-80: Electronic equipment. Requirements topacking and transportation and test methods.
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C h a p t e r 2
Work Principle
Table of ContentsSystem Architecture ..........................................................19Power Distribution .............................................................20Ventilation and Heat-dissipation Principles ............................20
System ArchitectureZXMBW R9100 is a remote Radio Frequency (RF) unit that imple-ments conversion between RF signals and baseband signals. It isconnected to a baseband data interface and a baseband I/Q inter-face via fibers and to an antenna interface via a RF cable.
Figure 13 illustrates the ZXMBW R9100 system architecture.
FIGURE 13 SYSTEM ARCHITECTURE
Note:
The real line indicates the system supports 2T2R Multiple-InputMultiple Output (MIMO), and the dotted line indicates the systemsupports 2T4R MIMO that is optional.
In forward direction, WPTR performs digital intermediate fre-quency processing and up-coversion on the forward signalssent by BBU via an optical interface. After being amplified by
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WDPA and filtered by WRFE, these signals are transmitted bythe antenna.
In reverse direction, WRFE receives reverse signals from theantenna and transmits them to WPTR for down-coversion anddigital intermediate frequency processing. Afterwards, thesesignals are transmitted to BBU via the optical interface.
Power DistributionAfter being led into ZXMBW R9100, external power is convertedby WRPM into +28VDC and +5VDC to supply for WDPA and WPTR.
Ventilation andHeat-dissipation PrinciplesThe ZXMBW R9100 cabinet is naturally cooled through air cooledfins design on the top and bottom enclosures. Due to the cabinetssmall volume, the heat dissipation facility is maximum.
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C h a p t e r 3
Hardware Description
Table of ContentsCabinet ............................................................................21Modules ...........................................................................22External Cables .................................................................27Main Antenna Feeder System ..............................................29
Cabinet
Cabinet Structure
Figure 14 shows the cabinet structure of ZXMBW R9100 .
FIGURE 14 CABINET STRUCTURE
1. Cabinet2. Bottom Panel3. Handle
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Cabinet Technique Feature
ZXMBW R9100 cabinet adopts Pb-free design and satisfies EUenvironmental protection requirement.
Cabinet structure design accords with the WEEE recycling re-quirement.
Cabinet adopts aluminum alloy die casting; surface conduc-tive oxidation process and outer surface spray-paint (ZTE sil-ver color). The cabinet wall thickness is well-proportioned, andstiffened to increase the strength intensity.
Cabinet adopts theft prevention bolt. The equipments areopened by special tools. The use of ordinary tools, likescrewdriver, forceps and hammer, can not open the cabinet in3 minutes.
Modules
Module List
ZXMBW R9100 contains four modules:
WRFE: WiMAX RF Front Filter Module
The dimensions of WRFE without connector are 200mm (W) 230mm (H) 25mm (D).
WRPM: WiMAX Power Conversion Module
The dimensions of WRPM without connector are 80mm (W) 250mm (H) 40 mm (D).
WDPA: WiMAX High Power Amplifier Module
The dimensions of WDPA without connector are 210mm (W) 270mm (H) 20 mm (D).
WPTR: WiMAX Transceiver Module
The dimensions of WPTR without connector are 210mm(W)330mm (H) 25 mm (D).
WRFE
WRFE Functions
Short Description The WRFE module is the WiMAX RF Front End Filter module ofZXMBW R9100.
The WRFE module performs the following functions:
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Provides RF interface to transfer RF signals to the antenna.
Filters RF signals.
Provides RF unit lightning proof function.
Isolates uplink and downlink as the receive and transmit poweris different.
WRFE Performance Specifications
Short Description The following describes the performance specifications of theWRFE module.
WRFE Perfor-mance Specifi-
cations
Table 6 lists the performance specifications of WRFE module.
TABLE 6 WRFE PERFORMANCE SPECIFICATIONS
Index Range
Frequency range
2300 MHz ~ 2400 MHz2500 MHz ~ 2610 MHz2590 MHz ~ 2700 MHz3400 MHz ~ 3500 MHz3500 MHz ~ 3600 MHz
WRPM
WRPM Functions
Short Description In ZXMBW R9100 , the WiMAX RRU Power Module (WRPM) is re-sponsible for power supply conversion. The WRPM module is op-tional in system configuration.
The WRPM module performs the following functions.
Power supply conversion
Lightning proof
EMI filtering
Power supply management and alarm.
WRPM Work Principle
Short Description The following describes the work principle of WRPM module.
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WRPM WorkPrinciple
Figure 15 shows the work principle block diagram of WRPM mod-ule.
FIGURE 15 WRPM WORK PRINCIPLE
Description The WRPM module consists of an EMI filtering unit, protection unit,DC-DC conversion unit and alarm monitoring unit. The function ofeach component is introduced below.
EMI filtering unit provides filtering function.
Protection unit provides over-voltage or under-voltage pro-tection.
DC-DC conversion unit provides power supply conversion.
Alarm monitoring unit reports the under-voltage, over-volt-age and over-current alarms.
WDPA
WDPA Functions
Short Description In ZXMBW R9100, the WiMAX Digital Power Amplifier (WDPA)module amplifies the RF power.
The WDPA module performs the following functions:
RF amplification
VSWR measurement
Alarm reporting
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Chapter 3 Hardware Description
WDPA Work Principle
Work PrincipleStructure
Figure 16 shows the work principle block diagram of WDPAmodule.
FIGURE 16 WDPA WORK PRINCIPLE
Description The WDPA module consists of an Amplifier Circuit, Circulator, Cou-pler, Power Supply, Alarm Reporting Unit, and LNA . The functionof each unit is described below.
Amplifier circuit provides the main RF amplification channel.
Circulator separates the receiving and sending signals.
Coupler extracts the RF signal transmitted by base station. Itis responsible for monitoring and measuring RF signal.
Power supply unit provides power supply for each unit.
Alarm reporting unit reports the temperature, high/lowpower and standing wave alarms.
Low Noise Amplifier (LNA) amplifies the received signals.
WPTR
WPTR Functions
In ZXMBW R9100, the WPTR module implements RF down-con-version and up-conversion.
The WPTR module provides the following functions:
Up-conversion and down-conversion processing
Baseband RF clock extraction, restoration and distribution
Alarm detection
Downlink baseband power detection: It detects and processesabnormal baseband data.
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Antenna feeder interface power detection
Support of OBSAI-RP3 interface
Digital intermediate frequency processing.
WPTR Work Principle
Figure 17 illustrates the work principle of the WPTR module.
FIGURE 17 WPTR WORK PRINCIPLE
The WPTR module consists of fiber interface circuit, intermediatefrequency process circuit, RF process circuit, clock process circuit,power process circuit and centralized monitoring circuit, as de-scribed in the following:
The fiber interface circuit provides the interface with BBU andsupports fiber loopback and fiber cascade networking mode aswell as fiber framing and deframing.
In forward direction, the intermediate process circuit and theRF process circuit implement forward transmission includingforward baseband signal reception, up-conversion, amplifica-tion and transmission to the power amplifier, standing wave de-tection of antenna feeder interface, and forward automatic andmanual calibration. In reverse direction, they perform receiveband pass filtering, low noise amplification, RF mixing, digitaldown-conversion to baseband rate on received RF WiMAX sig-nals and then transmit them to BBU through the OBSAI pro-tocol after processing them through the optical interface. Inaddition, they implement reverse RSSI measurement and re-verse automatic gain control.
The clock process circuit implements clock restoration, conver-sion and distribution and provides alarms including over-tem-perature, overpower and over-standing wave alarms.
The power process circuit provides voltage for units.
The centralized monitoring circuit implements power monitor-ing and management, electrically tuned antenna monitoringand management and external equipment monitoring via drycontact and RS232/RS485 interface and provides TDD time
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sequence regeneration, and version monitoring and manage-ment.
External Cables
DC Power Cable
Currently ZXMBW R9100 supports -48 V DC power supply only.The power cable directly connects DC input power source with DCIN interface at ZXMBW R9100 cabinet bottom.
Figure 18 shows the structure of -48 V DC power cable.
FIGURE 18 DC POWER CABLE STRUCTURE
Grounding Cable
The grounding cable is not less than 10 mm2, (typically, 25 mm2)braided yellow/green, fire retardant cable. Both the ends (A andB) are circular unsheathed crimping connectors (lugs).
Figure 19 shows the structure of grounding cable.
FIGURE 19 GROUNDING CABLE
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DLC/PC-DLC/PC Two-CoreSingle-Mode Waterproof OutdoorFiber
The DLC/PC-DLC/PC two-core single-mode waterproof outdoor op-tical fiber cable is used for providing optical signal interface be-tween BBU and RRU.
Figure 20 shows the structure of the DLC/PC-DLC/PC two-core sin-gle-mode waterproof outdoor optical fiber cable.
FIGURE 20 DLC/PC-DLC/PC TWO-CORE SINGLE-MODE WATERPROOFOUTDOOR FIBER
Two-core Field Operational Fiber
The Two-core field operational fiber is used for the optical signalinterconnection between ZXMBW R9100 and RRU.
structure Figure 21 illustrates the structure of the Two-core field operationalfiber.
FIGURE 21 TWO-CORE FIELD OPERATIONAL FIBER STRUCTURE
1. Cable Divider (one to two)- Indoor
End "A" is an outdoor fiber connector, and End "B" is an LC-typefiber connector.
ConnectionDescription
Table 7 lists the connection description of the Two-core field oper-ational fiber.
TABLE 7 TWO-CORE FIELD OPERATIONAL FIBER CONNECTION DESCRIPTION
End A End B
A1(RX) B1(TX)
A2(TX) B2(RX)
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RF Jumper
RF jumper cable is used to transfer signals between ZXMBW R9100cabinet and antenna, between ZXMBW R9100 cabinet and mainfeeder cable, and between main feeder cable and antenna. Whenthe 5/4 feeder cable is adopted, The RF jumper has to be used tocarry on the signal transfer process.
Figure 22 shows the RF Jumper cable structure.
FIGURE 22 RF JUMPER STRUCTURE
End A is a DIN-type connector, and End B is a N-type connector.
Main Antenna FeederSystem
Main Antenna Feeder SystemStructure
Figure 23 illustrates the structure of the ZXMBW R9100 main an-tenna feeder system.
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FIGURE 23 MAIN ANTENNA FEEDER SYSTEM STRUCTURE
1. Lightning arrester2. Antenna3. Antenna jumper4. Lightning grounding kit5. Main feeder6. Tower7. Antenna feeder cabling rack or
feeder kit8. Case jumper9. Equipment case
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Chapter 3 Hardware Description
Note:1. A 1/2 feeder is used when the distance between the ZXMBW
R9100 cabinet and the antenna is equal to or shorter than 19m.
2. A 5/4 feeder is used when the distance between the ZXMBWR9100 cabinet and the antenna is longer than 19 m and shorterthan 25 m.
Antenna
The Antenna is an important radio equipment adopted to trans-mit and receive electromagnetic waves. An antenna is classifiedinto omni antenna and directional antenna according to radiationdirection; according to polarization mode, an antenna can be clas-sified into single-polarized antenna and bi-polarization antenna.Generally ZXMBW R9100 adopts the directional 65 bi-polarizationantenna, and the angle is approximately 45. The appearance isshown in Figure 24.
FIGURE 24 DIRECTIONAL BI-POLARIZATION ANTENNA
Table 8 lists the technical indices of the directional bi-polarizationantenna.
TABLE 8 DIRECTIONAL BI-POLARIZATION ANTENNA TECHNICAL INDICES
Index Name Index Value
Working Frequency Range 2300 MHz ~ 2400 MHz2500 MHz ~2600 MHz2600 MHz ~2700 MHz3400 MHz ~3500 MHz3500 MHz ~3600 MHz
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Index Name Index Value
VSWR 250 W
Waterproof standards Satisfies standards above IP65
Average: 110 km/hworking wind speed
Maximum: 200 km/h
Connector N-F
Impedance 50
Working Temperature 40 ~ +70
Note:
The above indices refer to the specific antenna; the local site an-tenna should refer to the indices supplied by the manufacturer.
Feeder
The feeder is used to receive and transmit radio RF signals betweenthe antenna and the ZXMBW R9100.
When the distance between the ZXMBW R9100 cabinet andantenna is less, then the 1/2 inch feeder cable is used. In thiscase, the ZXMBW R9100 cabinet is directly connected to the1/2 inch feeder and 1/2 inch feeder cable is in turn connectedto the antenna.
When the distance between the ZXMBW R9100 cabinet andantenna is more, then the 5/4 inch feeder cable is used. Inthis case, the RF jumper is necessary for the conversion.
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C h a p t e r 4
Protocol InterfaceDescription
Table of ContentsASN Network Reference Model.............................................33R1 Interface .....................................................................34Baseband-RF Interface .......................................................36
ASN Network ReferenceModelThe following describes the Access Service Network (ASN) networkreference model. The ASN network reference model developedby the WiMAX (Worldwide Inter-operability for Microwave Access)NWG (Net Work Group) is shown in Figure 25.
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FIGURE 25 ASN NETWORK REFERENCE MODEL
The interface of Figure 25 are described in Table 9.
TABLE 9 INTERFACES DESCRIPTION
InterfaceName
Description
R1 Air interface between the terminal and the RRU.
R3 The interface between the AGW (ASN-GW, AccessService Network Gate Way) and the CN.
R4 Interface between ASNs, i.e. the interface betweenAGWs. It implements some switching-relatedsignaling and established data channel to maintaindata integrity during switching.
R6 The interface between the AGW and the BS.
R7 Internal interface of the AGW. It is selective. Itdivides the AGW into strategy judgment functionand implementing function.
R8 Interface between BSs.
R1 InterfaceThe R1 interface is the connection interface between the AccessService Network (ASN) and the mobile subscriber devices. The R1
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interface conforms to the IEEE 802.16e-2005 standards agree-ment.
The functions of R1 interface includes providing Media Access Con-trol (MAC) Layer, Physical Layer, and some related managementfunctions
Message Format Figure 26 illustrates management message format of the R1 inter-face of Media Access Control (MAC) Layer.
FIGURE 26 R1 MESSAGE FORMAT
The management messages of MAC Layer are presented in MACProtocol Data Unit (PDU) payload. All management messages ofMAC Layer are composed of an initial fieldManagement MessageType and Management Message Payload. The length of the"Management Message Type" is 8 bit; the type of the managementmessage depends on the requirements of an air interface protocolin IEEE 802.16.
The MAC management messages in basic connection, broadcastconnection, and initial distance-testing connection are not dividedinto chips or bound into packets. But the MAC management mes-sages in the primary management connection can be divided intochips or bound into packets.
Protocol Stack Figure 27 illustrates a schematic diagram of R1 Interface ProtocolStack.
FIGURE 27 R1 PROTOCOL STACK
The R1 interface protocol stack includes MAC Layer and PHY Layer.
Mac Layer
MAC layer of R1 protocol stack contains three sub-layers (fromtop to bottom); Service-Specific Convergence Sub-layer (CS),
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MAC Common Part Sub-layer (MAC CPS) and Security Sub-layer.
Service-Specific Convergence Sub-layer (CS)
Different protocol interfaces provide different CS specifica-tions.
The function of Service-Specific Convergence Sub-layer(CS) is to convert/map the external data received by theConvergence Sub-layer Service Access Point (CS SAP) intoMAC Service Data Unit (MAC SDU) and send it to the MACCPS through the MAC Service Access Point (MAC SAP).The other function of this layer is to sort external SDUsassociated with suitable Service Flow Identifier (SFID),Connection Identifier (CID) and Payload Header Suppres-sion (PHS).
MAC Common Part Sub-layer (MAC CPS)
MAC CPS does not need to analyze the load information ofthe CS.
MAC CPS realizes the core function of the MAC layer includ-ing bandwidth distribution, connection establishment andconnection maintenance. It receives data of different CSlayers through MAC SAP and sort them based on differentMAC connection. Quality of Service (QoS) is applied in datatransmission and scheduling of physical layer.
Data, PHY control information and statistical informationbetween the MAC CPS and PHY is transmitted through PHYSAP.
Security Sub-layer
MAC contains an independent security sub-layer to provideauthentication, security key exchange and realize encryp-tion.
PHY Layer
The PHY layer of R1 protocol stack contains multiple regu-lations. Each regulation corresponds to a specific frequencyrange and application.
The PHY layer of R1 protocol stack is based on the modulatingmode of Orthogonal Frequency Division Multiplexing (OFDM).
Baseband-RF InterfaceBaseband-RF interface connects BBU and RRU with compliancewith OBSAI RP3 protocol. BBU and RRU accordingly designed caninterconnect with generality, reliability and flexibility.
OBSAI FrameStructure
Message
Message is the basic unit of OBSAI with 19 bytes of address,type, time stamp and payload. Figure 28 shows its frame struc-ture.
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FIGURE 28 MESSAGE FRAME FORMAT
Table 10 lists the length of each field in Message frame.
TABLE 10 FIELD LENGTH IN MESSAGE FRAME
Name Length (bits)
Address 13
Type 5
Time stampT-Stamp 6
Payload 128
Total length 152= 19 bytes
Message Group (MG)
Each MG message group contains M_MG messagebodies and K_MG IDLE codes with its total bytes asM_MG*19+K_MG=21*19+1=400.
Figure 29 shows the structure of MG message group.
FIGURE 29 MESSAGE GROUP STRUCTURE
Each RP3 frame contains N_MG MG message groups with itslength as I*N_MG* (M_MG *19byte+K_MG*1). I denotes therate 1, 2 or 4 and the recommended values are M_MG=21,K_MG1 and N_MG1920.
Master Frame
One Master Frame (10ms) contains total bytes of I*1920*400I*768000 with I=1, 2 or 4.
OBSAI supports 3 rates: 1x, 2x and 4x. Figure 30 shows theframe structure at each rate.
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FIGURE 30 MASTER FRAME FORMAT
The Master Frame at 3 rates are all of 10ms with the line rate as(I*768000/10ms) *8*10/8=I*768Mbps. 1x rate is 768Mbps,2x is 1536Mbps and 4x is 3072Mbps.
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Figures
Figure 1 ASN Reference Model.............................................. 1
Figure 2 Position in ASN Network.......................................... 2
Figure 3 ZXMBW R9100 Appearance...................................... 3
Figure 4 External Interfaces ................................................. 6
Figure 5 Wall Mount Installation............................................ 7
Figure 6 Pole Mount Installation (One ZXMBW R9100 Cabinet).. 8
Figure 7 Pole Mount Installation (Two ZXMBW R9100 Cabinets).. 8
Figure 8 Pole Mount Installation (Three ZXMBW R9100
Cabinets) .......................................................... 9
Figure 9 Gantry (Rack) Installation ......................................10
Figure 10 Operation and Maintenance Modes.........................11
Figure 11 ZXMBW R9100 Star Networking.............................12
Figure 12 ZXMBW R9100 Chain Networking...........................12
Figure 13 System Architecture ............................................19
Figure 14 Cabinet Structure ................................................21
Figure 15 WRPM Work Principle ...........................................24
Figure 16 WDPA Work Principle............................................25
Figure 17 WPTR Work Principle ............................................26
Figure 18 DC Power Cable Structure.....................................27
Figure 19 Grounding Cable .................................................27
Figure 20 DLC/PC-DLC/PC Two-Core Single-Mode Waterproof
Outdoor Fiber....................................................28
Figure 21 Two-core field operational fiber Structure................28
Figure 22 RF Jumper Structure ............................................29
Figure 23 Main Antenna Feeder System Structure ..................30
Figure 24 Directional Bi-Polarization Antenna.........................31
Figure 25 ASN Network Reference Model ..............................34
Figure 26 R1 Message Format .............................................35
Figure 27 R1 Protocol Stack ................................................35
Figure 28 Message Frame Format ........................................37
Figure 29 Message Group Structure .....................................37
Figure 30 Master Frame Format...........................................38
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Tables
Table 1 External Interface Description ................................... 6
Table 2 Physical Indices......................................................13
Table 3 Power Supply Indices ..............................................13
Table 4 Performance Indices................................................14
Table 5 RF Power Indices ....................................................14
Table 6 WRFE Performance Specifications..............................23
Table 7 Two-core field operational fiber Connection
Description .......................................................28
Table 8 Directional Bi-Polarization Antenna Technical Indices ...31
Table 9 Interfaces Description .............................................34
Table 10 Field Length in Message Frame ...............................37
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List of Glossary
AGW - Access Service Network GateWay
AISG - Antenna Interface Standards Group
ASN - Access Service Network
BBU - BaseBand Unit
BS - Base Station
CN - Core Network
CSN - Connectivity Service Network
EMI - Electromagnetic Interference
LNA - Low Noise Amplifier
MIMO - Multiple-Input Multiple-Output
MS - Mobile Station
OBSAI - Open Base Station Architecture Initiative
RF - Radio Frequency
RRU - Remote Radio Unit
RSSI - Received Signal Strength Indicator
The measured power of a received signal.
TDD - Time Division Duplex
A transmission method that uses only one channel for transmittingand receiving, separating them by different time slots. No guardband is used. This increases spectral efficiency by eliminating thebuffer band, but also increases flexibility in asynchronous applica-tions. For example, if less traffic travels upstream, the time slicefor that direction can be reduced, and reallocated to downstreamtraffic.
VSWR - Voltage Standing Wave Ratio
WDPA - WiMAX Digital Power AmplifierWiMAX
WiMAX - Worldwide Interoperability for Microwave Access
WRFE - WiMAX RF Front End FilterWiMAX
WRPM - WiMAX RRU Power ModuleWiMAX
WTRX - WiMAX Transmitter & ReceiverWiMAX
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Preface1 Product OverviewPosition in ASN NetworkProduct AppearanceProduct FunctionsProduct FeaturesExternal InterfacesApplication ScenariosOperation and Maintenance ModesBaseband-RF Interface NetworkingProduct ReliabilityTechnical IndicesEngineering IndicesPerformance IndicesRF Power Indices
Compliance Standards
2 Work PrincipleSystem ArchitecturePower DistributionVentilation and Heat-dissipation Principles
3 Hardware DescriptionCabinetCabinet StructureCabinet Technique Feature
ModulesModule ListWRFEWRFE FunctionsWRFE Performance Specifications
WRPMWRPM FunctionsWRPM Work Principle
WDPAWDPA FunctionsWDPA Work Principle
WPTRWPTR FunctionsWPTR Work Principle
External CablesDC Power CableGrounding CableDLC/PC-DLC/PC Two-Core Single-Mode Waterproof Outdoor FiberTwo-core Field Operational FiberRF Jumper
Main Antenna Feeder SystemMain Antenna Feeder System StructureAntennaFeeder
4 Protocol Interface DescriptionASN Network Reference ModelR1 InterfaceBaseband-RF Interface
FiguresTablesList of Glossary