zxur 9000 umts (v4.11.10) hardware description
TRANSCRIPT
ZXUR 9000 UMTSRadio Network ControllerHardware Description
Version: V4.11.10
ZTE CORPORATIONNO. 55, Hi-tech Road South, ShenZhen, P.R.ChinaPostcode: 518057Tel: +86-755-26771900Fax: +86-755-26770801URL: http://ensupport.zte.com.cnE-mail: [email protected]
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Users may visit ZTE technical support website http://ensupport.zte.com.cn to inquire related information.
The ultimate right to interpret this product resides in ZTE CORPORATION.
Revision History
Revision No. Revision Date Revision Reason
R1.0 2011-08-10 First edition
R2.0 2012-03-01 Second edition
Serial Number: SJ-20110704093556-004
Publishing Date: 2012-03-01(R2.0)
ContentsAbout This Manual ......................................................................................... I
Chapter 1 Hardware Overview................................................................... 1-11.1 Hardware Platform ............................................................................................. 1-1
1.1.1 Introduction of ATCA ................................................................................ 1-1
1.1.2 Introduction of ETCA ................................................................................ 1-1
1.1.3 Hardware Features................................................................................... 1-2
1.2 Hardware Composition ....................................................................................... 1-3
1.2.1 Appearance ............................................................................................. 1-3
1.2.2 Composition............................................................................................. 1-3
1.3 Interfaces and Indices......................................................................................... 1-4
1.3.1 Technical Parameters ............................................................................... 1-4
1.3.2 External Physical Interfaces ...................................................................... 1-5
Chapter 2 Cabinet....................................................................................... 2-12.1 Cabinet Structure ............................................................................................... 2-1
2.2 Cabinet Configuration ......................................................................................... 2-2
2.3 Cabinet Modules ................................................................................................ 2-2
2.3.1 Rack........................................................................................................ 2-2
2.3.2 Cabinet Top ............................................................................................. 2-2
2.3.3 Cabinet Door ........................................................................................... 2-3
Chapter 3 Subracks.................................................................................... 3-13.1 Subrack Types ................................................................................................... 3-1
3.2 Power Distribution Subrack ................................................................................. 3-1
3.2.1 Power Distribution Subrack Functions........................................................ 3-1
3.2.2 Power Distribution Subrack Structure ........................................................ 3-2
3.2.3 Power Distribution Subrack Indicators........................................................ 3-3
3.2.4 Power Distribution Subrack Switches......................................................... 3-3
3.2.5 Power Distribution Subrack Interfaces ....................................................... 3-5
3.3 Ventilation Subrack............................................................................................. 3-7
3.3.1 Ventilation Subrack Functions ................................................................... 3-7
3.3.2 Ventilation Subrack Structure .................................................................... 3-7
3.3.3 Ventilation Subrack Working Principles ...................................................... 3-8
3.4 Service Subrack................................................................................................. 3-9
3.4.1 Service Subrack Functions ....................................................................... 3-9
I
3.4.2 Service Surack Structure ........................................................................ 3-10
3.4.3 Service Subrack Technical Parameters .................................................... 3-12
3.4.4 Fan Subrack .......................................................................................... 3-12
3.4.5 Power Box ............................................................................................. 3-14
3.4.6 ECDM ................................................................................................... 3-15
Chapter 4 Boards........................................................................................ 4-14.1 Board Types ...................................................................................................... 4-1
4.2 Board Assembly Structure .................................................................................. 4-1
4.3 Board Size......................................................................................................... 4-2
4.4 Board Indicators................................................................................................. 4-4
4.4.1 Board Indicator Types............................................................................... 4-4
4.4.2 Board Indicator Status .............................................................................. 4-4
4.4.3 Common Indicator Description .................................................................. 4-5
4.5 Front Boards...................................................................................................... 4-8
4.5.1 Structure of Front Boards.......................................................................... 4-8
4.5.2 UMP........................................................................................................ 4-9
4.5.3 USP ...................................................................................................... 4-12
4.6 Rear Boards .................................................................................................... 4-14
4.6.1 Structure of Rear Boards ........................................................................ 4-14
4.6.2 EGBS.................................................................................................... 4-15
4.6.3 EGFS .................................................................................................... 4-18
4.6.4 EAPB .................................................................................................... 4-23
4.6.5 EGPB.................................................................................................... 4-26
4.6.6 ESDTA .................................................................................................. 4-28
4.6.7 ESDTI ................................................................................................... 4-31
4.6.8 EDTA .................................................................................................... 4-33
4.6.9 EDTI...................................................................................................... 4-35
4.7 Backplane........................................................................................................ 4-37
4.7.1 Backplane Functions .............................................................................. 4-37
4.7.2 Backplane Structure ............................................................................... 4-37
Chapter 5 Cables ........................................................................................ 5-15.1 Internal Cables................................................................................................... 5-1
5.1.1 Interior -48 V Power Cable........................................................................ 5-1
5.1.2 Interior -48 V RTN Power Cable ................................................................ 5-1
5.1.3 Grounding Cable for Service Subrack ........................................................ 5-2
5.1.4 Cabinet Door Grounding Cable ................................................................. 5-2
5.1.5 Grounding Cable for PDU ......................................................................... 5-2
II
5.1.6 Media Plane Interconnection Fiber ............................................................ 5-2
5.1.7 Control Plane Interconnection Cable.......................................................... 5-3
5.1.8 Line Reference Clock Cable...................................................................... 5-3
5.1.9 Inter-Shelf Clock Cable............................................................................. 5-3
5.1.10 PD485 monitoring cable.......................................................................... 5-3
5.2 External Cables.................................................................................................. 5-4
5.2.1 Exterior -48 V Power Cable....................................................................... 5-4
5.2.2 Exterior -48 V RTN Power Cable ............................................................... 5-4
5.2.3 Exterior Grounding Cable.......................................................................... 5-5
5.2.4 BITS Reference Clock Cable..................................................................... 5-5
5.2.5 Interface Fiber.......................................................................................... 5-5
5.2.6 Interface Network Cable ........................................................................... 5-5
5.2.7 Interface E1/T1 Cable............................................................................... 5-6
5.2.8 OMC Network Cable................................................................................. 5-6
5.2.9 Monitoring Cable ...................................................................................... 5-6
Figures............................................................................................................. I
Tables ............................................................................................................ III
Glossary .......................................................................................................VII
III
IV
About This ManualPurpose
Thismanual describes the hardware structure and features of ZXUR 9000UMTS, includingthe cabinet, subracks, boards, and cables.
Intended Audience
l Planning engineersl Installation engineersl Debugging engineersl Maintenance engineers
What Is in This Manual
Chapter Summary
Chapter 1, Hardware
Overview
Describes the ZXUR 9000 UMTS hardware platform, hardware
composition, interfaces and specifications.
Chapter 2, Cabinet Describes the ZXUR 9000 UMTS cabinet and modules.
Chapter 3, Subracks Describes the subrack functions, structure, and interfaces of ZXUR
9000 UMTS.
Chapter 4, Boards Describes the ZXUR 9000 UMTS board functions, structure, and
interfaces.
Chapter 5, Cables Describes how to use the ZXUR 9000 UMTS cables.
I
II
Chapter 1Hardware OverviewTable of Contents
Hardware Platform .....................................................................................................1-1Hardware Composition ...............................................................................................1-3Interfaces and Indices ................................................................................................1-4
1.1 Hardware Platform
1.1.1 Introduction of ATCAWith the development of data services represented by the 3G communication service,the network devices and the computing devices are experiencing a rapid growth in termof the computing performance. The telecommunication operators have become moreconcerned about the openness and compatibility of the telecommunication products andtelecommunication platforms. Advanced Telecommunications Computing Architecture(ATCA), which is developed by PCI Industrial Computer Manufacturers Group (PICMG),has become a universal, reliable, and open hardware architecture platform. It is expandingfrom the radio access equipment market to the market requiring higher reliability such asIMS.
It enjoys the following features:
l Powerful computing capabilityl High reliability of telecommunication levelsl Large throughputl easy expansion of servicesl Strong manageability and interworkingl High level of openness and standardizationl Convenient operation and maintenancel Separate control stream and service stream
1.1.2 Introduction of ETCAEnhanced ATCA (ETCA) is developed on the basis of ATCA. It adds the access capabilityto ATCA.
ZTE ZXUR 9000 UMTS system, which is based on the ETCA hardware platform,possesses a comprehensive system competitive power.
The ETCA hardware platform enjoys the following features:
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l Compatible with the ATCA platform
à Fewer types of physical boards are required because standard ATCA bladeboards are used as the front boards. The front boards process the services.
à Enhanced rear boards provide higher interface performance. All the interfacesare provided on the rear boards. The front boards no longer provide externalinterfaces.
à The minimum configuration is a single shelf configuration that can satisfy therequirements of most applications.
l Convenient maintenance
à Software versions can be downloaded online.
à Information of the rack, shelves, and slots can be stored in an independentmemory board, and maintenance is available through either software orhardware.
à The lower layer information of boards of each node is managed by anindependent shelf management module CMM.
l High reliability
à The system switch is implemented through a dual-star architecture, whichprovides the all-redundancy capability.
à All components support the backup function.
à Both inter-shelf connection ports and intra-shelf connection ports supportTRUNK.
1.1.3 Hardware FeaturesThe hardware system ZXUR 9000 UMTS is based on the ETCA hardware platform,providing the following features:
l Provides a new ETCA platform after making partial improvement on the basis of ATCAstandard.
l Provides various external interfaces, satisfying the all-IP requirement and beingcompatible with traditional network (such as E1 and STM-1) access.
l Adopts the structure of control stream and service stream being completely separated.l Supports 1+1 backup for the interface boards, supports load sharing for the switching
boards, supports 1+1 backup for the control-plane processing boards, and supportsload sharing for the user-plane processing boards.
l Standardizes internal interfaces and reduces the association between the lower layerand the applications.
l Supports the evolution towards IPv6.l Protects the operators' investment by supporting the future development of networks,
the multi-mode wireless system applications, and evolution towards LTE and HSPA+.l Provides a green system solution by reducing the number and types of boards and
shelves. Limits the maximum configuration into a single rack.
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Chapter 1 Hardware Overview
1.2 Hardware Composition
1.2.1 AppearanceFigure 1-1 shows the ZXUR 9000 UMTS cabinet appearance.
Figure 1-1 ZXUR 9000 UMTS Appearance
1.2.2 CompositionThe ZXUR 9000 UMTS hardware system consists of the following parts:
l Cabinet
Includes the rack, cabinet door, and subracks.
l Subracks
Include the power distribution subrack, ventilation subrack, and service subrack.
l Boards
Include the front board, rear board, and backplane.
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l Cables
Include internal cables and external cables.
1.3 Interfaces and Indices
1.3.1 Technical ParametersTable 1-1 lists the technical parameters of ZXUR 9000 UMTS.
Table 1-1 Technical Parameters
Parameter Description
Cabinet design standard The standard 19" rack is used for the entire cabinet
Cabinet dimension 2200 mm × 600 mm × 800 mm (H × W × D) 19" cabinet
Cabinet color Dark blue
Cabinet weight About 430 kg (including boards, shelves, and cabinet of a full
configuration)
Shelf dimension 19" wide, 11 U1 high (including the fan unit, power unit, and
service subrack)
Shelf capacity The service subrack has an 8 U front board space and a 9 U
rear board space. Each subrack provides 14 front slots for front
boards and 14 rear slots for rear boards. The spacing between
two slots is 6 HP2.
Shelf structure The backplane slots are located in the middle of the rear part of
a shelf. The front boards and rear boards are inserted into the
backplane slots vertically.
Shelf cable outlet All cables are led out of the cabinet from the rear boards.
Monitoring Infrared, smoke, temperature and humidity alarms
Power supply requirement
Power consumption
Working environment
Refer to the Product Description manual.
Clock precision Level-3 clock
EMC electromagnetic shielding When the frequency is between 30 MHz and 1 GHz, the minimum
shielding value is 40 dB.
1. 1 U = 44.45 mm
2. 1 HP=5.08 mm
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Parameter Description
Ventilation and heat dissipation In a three-shelf cabinet, the ventilation pipe is designed in
the form of horizontal ventilation (front to back) and vertical
ventilation (bottom to top). Heat dissipation is performed forcedly
to satisfy the ventilation requirement for the cabinet.
Air filter is installed at the air inlets.
1.3.2 External Physical Interfacesl Power interface
A pair of three inputs of -48 V power supply and -48 VRTN power supply are led intothe cabinet through the cabinet top.
-48 VRTN and GND are combined at the rack. PE is grounded through a nearbygrounding point.
l Network management interface
Standard 10/100/1000 BASE-TX interface
l Service interface
E1/T1 (balanced, unbalanced)
STM-1 (channelized, unchannelized)
FE (electrical interface)
GE (optical interface, electrical interface)
l Clock reference interface
2 M bits (2 MHz, 2 M bps), GPS, line reference clock (E1/T1, CSTM-1)
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Chapter 2CabinetTable of Contents
Cabinet Structure .......................................................................................................2-1Cabinet Configuration.................................................................................................2-2Cabinet Modules ........................................................................................................2-2
2.1 Cabinet StructureFigure 2-1 shows the ZXUR 9000 UMTS cabinet structure.
Figure 2-1 Cabinet Structure
1. Rear Door2. Side Door3. Front Door
4. Power Distribution Subrack5. Ventilation Panel6. Fan Subrack
7. Service Subrack8. Ventilation Subrack
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2.2 Cabinet ConfigurationTable 2-1 shows the ZXUR 9000 UMTS cabinet configuration.
Table 2-1 Cabinet Configuration
Name Layer Layer Height
Power distribution subrack Layer 1 3 U
Ventilation panel Layer 2 1 U
Service subrack Layer 3, 5, 7 11 U
Ventilation subrack Layer 4, 6 4 U
Ventilation panel Layer 8 2 U
2.3 Cabinet Modules
2.3.1 RackThe ZXUR 9000 UMTS rack consists of the top frame, base frame, posts, rails, and sidedoor.
2.3.2 Cabinet TopFigure 2-2 shows the cabinet top structure.
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Figure 2-2 Cabinet Top Structure
2.3.3 Cabinet DoorThe ZXUR 9000 UMTS cabinet is equipped with a front door and a rear door that canbe opened and closed, and two removable side doors. The front door and the rear doorhave the same structure. They both have fine ventilation holes, which ensure good heatdissipation.
Front Door and Rear Door
Figure 2-3 shows the structure of the cabinet's front door and rear door.
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Figure 2-3 Front/Rear Door Structure
1. Cabinet row number label2. Product nameplate
3. Handle4. Upper fixing pin
5. Lower fixing pin6. Fixing pin
Side Door
Figure 2-4 shows the structure of the cabinet's side door.
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Figure 2-4 Side Door
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Chapter 3SubracksTable of Contents
Subrack Types ...........................................................................................................3-1Power Distribution Subrack ........................................................................................3-1Ventilation Subrack.....................................................................................................3-7Service Subrack .........................................................................................................3-9
3.1 Subrack TypesA subrack combines various boards and units into an independent functional unit. Thesubrack provides a good running environment for all units.
The ZXUR 9000 UMTS subracks fall into the following types:
l Power distribution subrackl Ventilation subrackl Service subrack
3.2 Power Distribution Subrack
3.2.1 Power Distribution Subrack FunctionsThe power distribution subrack is also called Power Distribution Unit (PDU). It is installedat the cabinet top, providing power supply for the entire cabinet.
PDU implements functions including power distribution, short-circuit protection, lightningprotection, and power supply and environment monitoring.
l Power distribution: Both input and out of PDU support dual redundancy. PDU providesa pair of three inputs and a pair of ten outputs.
l Short-circuit protection: Each output is equipped with a circuit breaker for outputcontrol and short-circuit protection.
l Lightning protection: The lightning protection module inside PDU provides a rack-levellightning protection. It works with the lightning protection units of rack and boards toform a multi-level lightning protection system.
l Power supply and environment monitoring: The monitoring involves the voltage,circuit-breaker status, rack and equipment room access control, temperature,humidity, smoke, infrared, and lightning protection.
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3.2.2 Power Distribution Subrack StructureThe structure of power distribution subrack is shown in Figure 3-1.
Figure 3-1 Power Distribution Subrack Structure
Figure 3-2 and Figure 3-3 shows the front panel and rear panel structure of the powerdistribution subrack.
Figure 3-2 Power Distribution Subrack Structure (Front Panel)
1. Circuit breaker A2. Circuit breaker B
3. Running/Alarm indicator(RUN/ALM), RS485
communication indicator(COM)
Figure 3-3 Power Distribution Subrack Structure (Rear Panel)
1. Monitoring cable2. Power supply input terminal
3. Power supply outputterminal
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3.2.3 Power Distribution Subrack IndicatorsTable 3-1 describes the indicators of power distribution subrack.
Table 3-1 Power Distribution Subrack Indicators
Name Color Meaning Description
Green
Running indicator Flashing at 1 Hz: The board is working normally without
alarms.
OFF: No power input or the board is working normally
with alarms.
RUN-
/ALM
Red Alarm indicator Flashing at 1 Hz: No power input or the board is
working normally but it has alarms. When alarms
(including the alarms of voltage, access control status,
rack temperature, equipment room temperature, smog,
lightning arrester, and circuit breaker) , the red indicator
flashes at 1 Hz.
ON: The board is working normally (without alarm).
COM
(RS485
commu-
nication
indica-
tor)
Green RS485
communication
indicator
Flashing at 1 Hz: The RS485 communication link between
PDU and OMP is working normally with data exchanging.
OFF: There is no power supply input or no data
exchanging.
3.2.4 Power Distribution Subrack SwitchesThere are 20 switches on the front panel of the power distribution subrack. They are dividedinto two groups: group A and group B. Each group has 10 switches. Each service subrackhas two power boxes. Each power box has two power supplies, and each power supply isconnected with two output power cables of PDU. Table 3-2 describes the switches of thepower distribution subrack.
Table 3-2 Power Distribution Subrack Switches
Group Name Description
1 The switch is pulled down: The single -48 V input of the service
subrack of layer 1 is switched off
The switch is pulled up: The single -48 V input of the service
subrack of layer 1 is switched on
2 The switch is pulled down: The single -48 V input of the service
subrack of layer 1 is switched off
The switch is pulled up: The single -48 V input of the service
subrack of layer 1 is switched on
A
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Group Name Description
3 The switch is pulled down: The single -48 V input of the service
subrack of layer 2 is switched off
The switch is pulled up: The single -48 V input of the service
subrack of layer 2 is switched on
4 The switch is pulled down: The single -48 V input of the service
subrack of layer 2 is switched off
The switch is pulled up: The single -48 V input of the service
subrack of layer 2 is switched on
5 The switch is pulled down: The single -48 V input of the service
subrack of layer 3 is switched off
The switch is pulled up: The single -48 V input of the service
subrack of layer 3 is switched on
6 The switch is pulled down: The single -48 V input of the service
subrack of layer 3 is switched off
The switch is pulled up: The single -48 V input of the service
subrack of layer 3 is switched on
7
8
9
10
Not used
1 The switch is pulled down: The single -48 V input of the service
subrack of layer 1 is switched off
The switch is pulled up: The single -48 V input of the service
subrack of layer 1 is switched on
2 The switch is pulled down: The single -48 V input of the service
subrack of layer 1 is switched off
The switch is pulled up: The single -48 V input of the service
subrack of layer 1 is switched on
3 The switch is pulled down: The single -48 V input of the service
subrack of layer 2 is switched off
The switch is pulled up: The single -48 V input of the service
subrack of layer 2 is switched on
4 The switch is pulled down: The single -48 V input of the service
subrack of layer 2 is switched off
The switch is pulled up: The single -48 V input of the service
subrack of layer 2 is switched on
5 The switch is pulled down: The single -48 V input of the service
subrack of layer 3 is switched off
B
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Group Name Description
The switch is pulled up: The single -48 V input of the service
subrack of layer 3 is switched on
6 The switch is pulled down: The single -48 V input of the service
subrack of layer 3 is switched off
The switch is pulled up: The single -48 V input of the service
subrack of layer 3 is switched on
7
8
9
10
Not used
3.2.5 Power Distribution Subrack InterfacesThe interfaces on the rear panel of power distribution subrack are shown in Table 3-3.
Table 3-3 Power Distribution Subrack Interfaces
Group Interface Functions
- FAN Not used
- DOOR Connected with the access control sensor
- SENSOR Connected with the environment monitoring
transit cable
- RS485(IN) Cascaded with the RS485(OUT) interface at the
power distribution subrack of other cabinets. In
this way, the PDU status of all cabinets can be
monitored simultaneously.
- RS485(OUT) Connected with the RS485 interface of the EGBS
board, providing the interface for monitoring PDU
status.
-48V(1)
-48VRTN(1)
-48V(2)
-48VRTN(2)
-48V(3)
INPUT A
-48VRTN(3)
-48V(1)
-48VRTN(1)
INPUT B
Connected with the power output port of the DC
power distribution cabinet
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Group Interface Functions
-48V(2)
-48VRTN(2)
-48V(3)
-48VRTN(3)
1
2
Connected with the power ground of the service
subrack at layer 1
3
4
Connected with the power ground of the service
subrack at layer 2
5
6
Connected with the power ground of the service
subrack at layer 3
7
8
9
OUTPUT
-48VRTN(A)
10
Not used
1
2
Connected with the power ground of the service
subrack at layer 1
3
4
Connected with the power ground of the service
subrack at layer 2
5
6
Connected with the power ground of the service
subrack at layer 3
7
8
9
OUTPUT
-48VRTN(B)
10
Not used
1
2
Connected with the power input of the service
subrack at layer 1
3
4
Connected with the power input of the service
subrack at layer 2
5
6
Connected with the power input of the service
subrack at layer 3
7
8
9
OUTPUT
-48V A
Not used
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Group Interface Functions
10
1
2
Connected with the power input of the service
subrack at layer 1
3
4
Connected with the power input of the service
subrack at layer 2
5
6
Connected with the power input of the service
subrack at layer 3
7
8
9
OUTPUT
-48V B
10
Not used
3.3 Ventilation Subrack
3.3.1 Ventilation Subrack FunctionsThe ventilation subrack is used to change the vertical ventilation pipe to be the front-to-backventilation pipe, to effectively cool the service subrack.
3.3.2 Ventilation Subrack StructureFigure 3-4 shows the structure of the ventilation subrack.
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Figure 3-4 Ventilation Subrack Structure
3.3.3 Ventilation Subrack Working PrinciplesFigure 3-5 illustrates the working principles of the ventilation subrack. The horizontal coolwind comes into the front panel of the ventilation subrack, then the wind changes to thevertical , which helps effectively cool the service subrack.
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Figure 3-5 Working Principles of Ventilation Subrack
3.4 Service Subrack
3.4.1 Service Subrack FunctionsThe service subrack implements functions of service processing, switching, and interfacesthrough the boards installed inside it.
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3.4.2 Service Surack StructureThe front structure of the service subrack is shown in Figure 3-6.
Figure 3-6 Service Subrack Structure (Front View)
1. Front fan subrack 2. Service subrack
The rear structure of the Service subrack is shown in Figure 3-7.
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Figure 3-7 Service Subrack Structure (Rear View)
1. Rear fan subrack2. Backplane3. ECDM
4. ECDM5. Power box6. Power box
7. Handle
Figure 3-8 shows the cross section of the service subrack.
Figure 3-8 Service Subrack Cross Section Diagram
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3.4.3 Service Subrack Technical ParametersTable 3-4 lists the technical parameters of the service subrack.
Table 3-4 Service Subrack Technical Parameters
Parameter Description
Height 11 U (including shelves, fan unit, and power unit)Service subrack
Dimension 486.1 mm × 482.6 mm × 568 mm (H × W × D)
Height 8 UFront board
Dimension 322.25 mm × 30.48 mm × 280 mm (H × W × D)
Height 9 URear board
Dimension 366.7 mm × 30.48 mm × 240 mm (H × W × D)
Number of slots 28 (14 front slots and 14 rear slots)
3.4.4 Fan Subrack
3.4.4.1 Fan Subrack FunctionsThe fan subrack performs the heat dissipation function for the front and rear boards, it alsoperforms the fan status monitoring and speed-control function.
3.4.4.2 Fan Subrack StructureEach service subrack is equipped with three fan subracks, two of which are front subracks,and one of which is rear fan subrack.
The front fan subrack structure is shown in Figure 3-9.
Figure 3-9 Front Fan Subrack Structure
The rear fan subrack is shown in Figure 3-10.
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Figure 3-10 Rear Fan Subrack Structure
3.4.4.3 Fan Subrack Panel StructureFigure 3-11 and Figure 3-12 show the structures of the front and rear of the fan subrack'spanel.
Figure 3-11 Fan Subrack Panel Structure (Front View)
1. Hot-swapping button2. RUN indicator
3. ALM indicator4. H/S indicator
Figure 3-12 Fan Subrack Panel Structure (Rear View)
1. Power supply interface atbackplane
3.4.4.4 Fan Subrack IndicatorsTable 3-5 describes the indicators of fan subrack.
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Table 3-5 Fan Subrack Indicators
Indicator Color Meaning Description
RUN Green Running indicator On: The fan is working
normally.
Off: The fan is working
abnormally.
ALM Red Alarm indicator Flashing: The fan has
alarms.
Off: The fan has no
alarm.
H/S Blue Hot swapping indicator On: The fan subrack
can be removed.
Off: The fan subrack
has been powered on.
3.4.4.5 Fan Subrack ButtonsThere are two hot-swapping buttons on the front panel of the fan subrack. Press thebuttons and the fan subrack can be pulled out.
3.4.4.6 Fan Subrack InterfacesThe fan subrack connects the backplane directly through its power interface.
3.4.4.7 Fan Subrack Technical ParametersTable 3-6 lists the technical parameters of the fan subrack.
Table 3-6 Fan Subrack Technical Parameters
Parameter Description
Dimension 43.6 mm × 482.6 mm × 400 mm (H × W × D)
Weight 7 kg
3.4.5 Power Box
3.4.5.1 Power Box FunctionsThe power box provides power for the service subrack.
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3.4.5.2 Power Box StructureEach service subrack is equipped with two power boxes. Figure 3-13 shows the structureof power box.
Figure 3-13 Structure of Power Box
3.4.6 ECDM
3.4.6.1 ECDM FunctionsECDM records shelf configuration information (such as the shelf serial number ), systemcapacity information (such as the number of slots, the power consumption of each slot,and the topology structure), and other customized information.
3.4.6.2 ECDM Panel StructureFigure 3-14 shows the panel structure of ECDM.
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Figure 3-14 Panel Structure of ECDM
3.4.6.3 ECDM IndicatorsTable 3-7 describes the indicators of ECDM.
Table 3-7 ECDM Indicators
Indicator Color Meaning Description
RUN Green Service status indicator On: The current
module is operating.
-48 V (A) Green Power indicator On: The -48 V (A)
power supply of the
current shelf is normal.
-48 V (B) Green Power indicator On: The -48 V (B)
power supply of the
current shelf is normal.
3.4.6.4 ECDM JumpersThere are 8 jumpers on the ECDM. Table 3-8 describes the jumpers of ECDM.
Table 3-8 ECDM Jumpers
Jumper 1 2 3 4 5 6 7 8
Defini-
tion
ID0 ID1 ID2 ID3 ID0 ID1 - -
Meaning RACK SHELF DIAG CHECK
l 0 indicates that the jumper is on and 1 indicates that the jumper is removed. Thejumper positions are ordered from lower to higher. All jumpers are not inserted witha jumper cap except for the jumpers 1, 2 and 3, it indicates that the shelf is the thirdshelf of the 8th rack.
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l Jumper position 7 is always not inserted with a jumper cap.l Jumper position 8 (check position) is the odd check, which ensures that the jumper
caps on ECDM are odd number of caps. If the number of jumper caps on the ECDMis an even number, the system will display that the jumper is incorrect.
Note:
One service subrack is configured with two ECDMs. You should make sure that the jumperconfigurations at two sides are consistent, and the configured rack and shelf informationis the same.
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Chapter 4BoardsTable of ContentsBoard Types...............................................................................................................4-1Board Assembly Structure..........................................................................................4-1Board Size .................................................................................................................4-2Board Indicators .........................................................................................................4-4Front Boards ..............................................................................................................4-8Rear Boards.............................................................................................................4-14Backplane ................................................................................................................4-37
4.1 Board TypesThe ZXUR 9000 UMTS boards fall into the following types:
l Front boardl Rear boardl Backplane
4.2 Board Assembly StructureFigure 4-1 shows the structure of board assembly.
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Figure 4-1 Structure of Board Assembly
1. Front board 2. Backplane 3. Rear board
4.3 Board SizeFigure 4-2 shows the size of a front board.
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Figure 4-2 Front Board Size
Figure 4-3 shows the size of a rear board.
Figure 4-3 Rear Board Size
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Figure 4-4 shows the size of a backplane.
Figure 4-4 Backplane Size
4.4 Board Indicators
4.4.1 Board Indicator TypesThe ZXUR 9000 UMTS board indicators fall into the following types:
1. Common indicator2. Dedicate indicator
4.4.2 Board Indicator StatusTable 4-1 describes the status of board indicator.
Table 4-1 Board Indicator Status
Type Flashing Frequency Description
1 ON The indicator is ON
2 OFF The indicator is OFF
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Type Flashing Frequency Description
3 Periodical flashing at 5 Hz The period is 0.2 second with
the 50% duty ratio. That is, the
indicator is ON for 0.1 second
and OFF for 0.1 second.
4 Periodical flashing at 2 Hz The period is 0.5 second with
the 50% duty ratio. That is, the
indicator is ON for 0.25 second
and OFF for 0.25 second.
The period is 1 second with
the 50% duty ratio. That is, the
indicator is ON for 0.5 second
and OFF for 0.5 second.
5 Periodical flashing at 1 Hz
The period is 1 second with
the 90% duty ratio. That is, the
indicator is ON for 0.9 second
and OFF for 0.1 second.
4.4.3 Common Indicator DescriptionCommon indicators are described in Table 4-2.
Table 4-2 Common Indicator Description
Indicator Color Meaning Description
OOS Red/Green Service status indicator Used to indicate board
service status
OK Red/Green Health status indicator Used to indicate board
health status
H/S Blue Hot-swap indicator Used to indicate board
hot-swap status
ACT Red/Green Active/standby
indicator
Used to indicate board
active/standby status
HOST Red/Green Running/alarm
indicator
Used to indicate board
running/alarm status
4.4.3.1 OOS Indicator DescriptionTable 4-3 describes the status of OOS indicator.
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Table 4-3 OOS Indicator Description
Status Color Meaning
Initialization Green The board is in initialization
state.
In service OFF The board is in service state.
Out of service Red The board is in out of service
state.
4.4.3.2 OK Indicator DescriptionTable 4-4 describes the status of the OK indicator.
Table 4-4 OK Indicator Description
Status Color Flashing Frequency Meaning
Health status Green 1 Hz Normal
Alarm status Red Changeable The board has alarms.
Higher frequency
indicates higher alarm
levels.
4.4.3.3 H/S Indicator DescriptionTable 4-5 describes the status of the H/S Indicator .
Table 4-5 H/S Indicator Description
Status Color Flashing Frequency Meaning
Removable Blue ON Hot swapping can be
perform on the board.
Unremovable - OFF Hot swapping can not
be perform on the
board.
Activation Blue 1 Hz The board is activating.
4.4.3.4 ACT Indicator DescriptionTable 4-6 describes the status of ACT indicator.
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Table 4-6 ACT Indicator Description
Status Color Flashing Frequency Meaning
Active Green ON The board is in active
state.
Standby - OFF The board is in standby
state.
4.4.3.5 HOST Indicator DescriptionTable 4-7 describes the status of HOST indicator.
Table 4-7 HOST Indicator Description
Status Priority Color FlashingFrequency
Duty ratio Meaning
Initialization
status
1 - Always OFF - Initialization
status
Normal
running
2 Green 1 Hz 50% Normal
running
3 Red 1 Hz 50% The service
is applicable
(the board is
performing
active/standby
switchover )
Minor alarm
4 Red 1 Hz 50% The network
port at media
plane is
disconnected.
5 Red 2 Hz 50% HW high
speed data
path is broken.
6 Red 2 Hz 50% The link
to OMP is
disconnected.
7 Red 2 Hz 50% The version
does not
match the
hardware or
configuration.
Major alarm
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Status Priority Color FlashingFrequency
Duty ratio Meaning
8 Red 2 Hz 50% Version
download fails.
9 Red 2 Hz 50% Board self-test
fails.
10 Red 5 Hz 50% Support Boot
fails.
11 Red 5 Hz 50% The system
fails to
obtain logical
address.
12 Red 5 Hz 50% Basic process
power-on fails
or times out.
Reset alarm
13 Red 5 Hz 50% Initialization of
core data fails.
4.5 Front Boards
4.5.1 Structure of Front BoardsFigure 4-5 shows the structure of front boards.
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Figure 4-5 Structure of Front Boards
1. Extractor2. Panel
3. PCB4. Plug
4.5.2 UMP
4.5.2.1 UMP FunctionsUniversal Management Process Board (UMP) performs the following functions:
l OMM functions
Responsible for NE operation and maintenance. Through the rear board EGBS, itexternally provides GE interface to connect EMS.
Supports 1+1 backup
l OMP functions
Processes global procedure, controls the operation and maintenance of the entiresystem, and connects OMM through internal Ethernet. As the core of ZXUR 9000UMTS operation and maintenance, UMP directly or indirectly monitors and managesthe boards in the system and manages the configuration of each board and othercomponents.
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Note:
When UMP performs OMM function, it is inserted in slots 5 and 6 in the master shelf.Through the network port at EGBS, it is connected with the switch, which is then connectedwith EMS server and O&M module client.
When UMP performs OMP function, it is inserted in slots 7 and 8.
4.5.2.2 UMP Panel StructureFigure 4-6 shows the structure of UMP panel.
Figure 4-6 Structure of UMP Panel
4.5.2.3 UMP Panel IndicatorsTable 4-8 describes the indicators on the panel of UMP board.
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Table 4-8 UMP Panel Indicators
Indicator Color Meaning Category Functions
OOS Red/green Board service
status indicator
OK Red/green Health status
indicator
ACT Red/green Active/standby
indicator
HOST Red/green Running/alarm
indicator
H/S Blue Hot-swap
indicator
Common
Indicator
Refer to section
Common
Indicator
Description
HD1 Red/green Hard Disk
Indicator 1
Dedicate indicator Green ON:
indicates that hard
disk 1 is operating
properly.
Red ON; indicates
that hard disk
1 is operating
improperly.
OFF: indicates
that hard disk 1 is
OFF.
HD2 Red/green Hard Disk
Indicator 2
Dedicate indicator Green ON:
indicates that hard
disk 1 is operating
properly.
Red ON; indicates
that hard disk
1 is operating
improperly.
OFF: indicates
that hard disk 1 is
OFF.
4.5.2.4 UMP Panel ButtonsTable 4-9 describes the buttons on the panel of UMP board.
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Table 4-9 UMP Panel Buttons
Button Description
RST Reset button
4.5.2.5 UMP Panel InterfacesTable 4-10 describes the interfaces on the panel of UMP board.
Table 4-10 UMP Panel Interfaces
Interface Name Direction Description
IPMC-232 Bidirectional Debugging interface
HOST-232 Bidirectional Debugging interface
USB 1 Bidirectional Debugging interface
USB 2 Bidirectional Debugging interface
4.5.3 USP
4.5.3.1 USP FunctionsUniversal Service Processing Board (USP) performs the following functions:
l CMP Functions
Processes the common control plane protocols of the Iub and Iu interfaces.
l DMP Functions
Processes the dedicated control plane protocols of the Ius and Iu interfaces.
l RUP functions
Processes the user plane protocols of CS and PS services
4.5.3.2 USP Panel StructureFigure 4-7 shows the structure of USP panel.
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Figure 4-7 Structure of USP Panel
4.5.3.3 USP Panel IndicatorsTable 4-11 describes the indicators on the panel of USP board.
Table 4-11 USP Panel Indicators
Indicator Color Meaning Category Functions
OOS Red/green Board service
status indicator
OK Red/green Health status
indicator
ACT Red/green Active/standby
indicator
HOST Red/green Running/alarm
indicator
H/S Blue Hot-swap
indicator
Common
Indicator
Refer to section
Common
Indicator
Description
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4.5.3.4 USP Panel ButtonsTable 4-12 describes the buttons on the panel of USP board.
Table 4-12 USP Panel Buttons
Button Description
RST Reset button
4.5.3.5 USP Panel InterfacesTable 4-13 describes the interfaces on the panel of USP board.
Table 4-13 UMP Panel Interfaces
Interface Name Direction Description
IPMC-232 Bidirectional Debugging interface
HOST-232 Bidirectional Debugging interface
USB 1 Bidirectional Debugging interface
USB 2 Bidirectional Debugging interface
4.6 Rear Boards
4.6.1 Structure of Rear BoardsFigure 4-8 shows the universal structure of a rear board.
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Figure 4-8 Structure of Rear Boards
1. Extractor2. Panel
3. PCB4. Plug
4.6.2 EGBS
4.6.2.1 EGBS FunctionsEnhanced GE Base Switch board (EGBS) performs the following functions:
l Implements ECMM functions
ECMM module adopts ATCA standard, responsible for board power-on and versionloading. Also, it monitors shelf environment, including the power, temperature, andfan status.
l Implements inter-shelf control plane switching
Provides control plane GE interface to all service slots and rear switching slots, andinter-shelf cascading GE interface
l Provides external network port for front bade.
4.6.2.2 EGBS Panel StructureFigure 4-9 shows the structure of EGBS panel.
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Figure 4-9 Structure of EGBS Panel
4.6.2.3 EGBS Panel IndicatorsTable 4-14 describes the indicators on the panel of EGBS board.
Table 4-14 EGBS Panel Indicators
Indicator Color Meaning Category Functions
OOS Red/green Board service status
indicator
OK Red/green Health status indicator
ACT Red/green Active/standby
indicator
HOST Red/green Running/alarm
indicator
H/S Blue Hot-swap indicator
Common Indicator Refer to section
Common Indicator
Description
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Indicator Color Meaning Category Functions
MP OOS Red/green MP service status
indicator
MP OK Red/green MP health status
indicator
MP H/S Blue MP hot-swap indicator
Dedicate indicator MP indicates EORS
subcard status. For
function information,
refer to the function
description of
common indicators
CMM ACT Red/green CMM Active/standby
indicator
CMM HOST Red/green CMM Running/alarm
indicator
CMM H/S Blue CMM Hot-swap
indicator
Dedicate indicator CMM indicates
ECMM subcard
status. For function
information, refer
to the function
description of
common indicators
I Orange Minor alarm indicator Dedicate indicator Indicates ECMM
minor alarm
II Orange Major alarm indicator Dedicate indicator Indicates ECMM
major alarm
III Orange Critical indicator Dedicate indicator Indicates ECMM
critical alarm
4.6.2.4 EGBS Panel ButtonsTable 4-15 describes the buttons on the panel of EGBS board.
Table 4-15 EGBS Panel Buttons
Button Description
EXCH Active/standby switchover switch of EGBS
RST Reset button of EGBS
EXCH-C ECMM switchover switch
RST-C ECMM reset button
Note:
ECMM subcard is located on EGBS, managing the power supply for the boards in theshelf. ECMM switchover and reset is independent of EGBS switchover and reset.
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4.6.2.5 EGBS Panel InterfacesTable 4-16 describes the interfaces on the panel of EGBS board.
Table 4-16 EGBS Panel Interfaces
Interface Name Direction Description
USB1 Bidirectional USB interface of the front board
of EGBS
USB2 Bidirectional USB interface of the front board
of EGBS
ETH-M Bidirectional Debugging Ethernet interface
VGA Output VGA interface of the front board
of EGBS
ETH-C1 Bidirectional ECMM Ethernet interface
CMM-232 Bidirectional ECMM serial interface
ETH-C2
HOST-232
Bidirectional ECMM Ethernet interface +
EGBS serial interface
ETH-MP1 Bidirectional GE interface 1 of the front board
of EGBS
ETH-MP2 Bidirectional GE interface 2 of the front board
of EGBS
ETH1 Bidirectional GE interface 1 for the control
plane cascading connection
ETH2 Bidirectional GE interface 2 for the control
plane cascading connection
ETH3 Bidirectional GE interface 3 for the control
plane cascading connection
ETH4 Bidirectional GE interface 4 for the control
plane cascading connection
RS485 Bidirectional RS485 monitoring interface
4.6.3 EGFS
4.6.3.1 EGFS FunctionsEnhanced GE Fabric Switch board (EGFS) performs the following functions:
l EGFS has a built-in clock module.
à Master shelf
Provides system stratum-2 clock and multiple reference input
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Distributes inter-shelf and intra-shelf clock signals
à Subordinate shelf
Receives clock signal and distribute in the shelf
l Implements inter-shelf media plane switching function.
4.6.3.2 EGFS Panel StructureFigure 4-10 shows the structure of EGFS panel.
Figure 4-10 Structure of EGFS Panel
4.6.3.3 EGFS Panel IndicatorsTable 4-17 describes the indicators on the panel of EGFS board.
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Table 4-17 EGFS Panel Indicators
Indicator Color Meaning Category Functions
OOS Red/green Board service
status indicator
OK Red/green Health status
indicator
ACT Red/green Active/standby
indicator
HOST Red/green Running/alarm
indicator
H/S Blue Hot-swap
indicator
Common
Indicator
Refer to section
Common
Indicator
Description
T/C Green Trace/Catch
indicator
Dedicate indicator ON: indicates
the phase
lock module is
operating in the
“Catch” state.
1 Hz flashing:
indicates the
phase lock
module is
operating in the
“Trace” state.
K/F Green Keep/Free
indicator
Dedicate indicator ON: indicates
the phase
lock module is
operating in the
“Keep” state.
1 Hz flashing:
indicates the
phase lock
module is
operating in the
“Free” state.
R1 Green Reference
indicator REF1
Dedicate indicator ON: indicates
the current clock
reference is REF1
(bits clock or line
recovered clock)
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Indicator Color Meaning Category Functions
R2 Green Reference
indicator REF2
Dedicate indicator ON: indicates
the current clock
reference is REF2
(bits clock or line
recovered clock)
R3 Green Reference
indicator REF3
Dedicate indicator ON: indicates
the current clock
reference is REF3
(GPS clock or
PTP1)
R4 Green Reference
indicator REF4
Dedicate indicator ON: indicates
the current clock
reference is REF4
(PTP2)
GPS Green GPS status
indicator
Dedicate indicator ON: indicates the
GPS module is
operating properly
0.5 Hz flashing:
indicates the GPS
module initializing
failed
1 Hz flashing:
indicates the
GPS module is
searching the
satellite or in an
unknown state
2 Hz flashing:
indicates the
antenna system is
short-circuits.
5 Hz flashing:
indicates the
antenna system is
disconnected.
OFF: indicates
the GPS module
is operating
improperly
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Indicator Color Meaning Category Functions
SD 1–2 GreenOptical signal
indicatorDedicate indicator
ON: The optical
interface has
received optical
signal.
OFF: The optical
interface has not
received optical
signal.
ACT 1–2 GreenLink status
indicatorDedicate indicator
ON: The optical
link has received
data packets.
OFF: The optical
link has not
received data
packets.
MANI GreenReference
selection indicatorDedicate indicator
ON: indicates
reference
selection is
enabled.
OFF: indicates
reference
selection is
disabled.
4.6.3.4 EGFS Panel ButtonsTable 4-18 describes the buttons on the panel of EGFS board.
Table 4-18 EGFS Panel Buttons
Button Description
EXCH Active/standby switchover button
RST Reset button
4.6.3.5 EGFS Panel InterfacesTable 4-19 describes the interfaces on the panel of EGFS board.
Table 4-19 EGFS Panel Interfaces
Interface Name Direction Description
REF1l Input 2 M clock reference input
interface
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Interface Name Direction Description
REF2l Input 2 M clock reference input
interface
TEST Bidirectional Clock testing interface
PTP1 Input Subordinate shelf
synchronization clock input
interface
PTP2 Input Subordinate shelf
synchronization clock input
interface
CLK1 Output Master shelf synchronization
clock output interface
CLK2 Output Master shelf synchronization
clock output interface
CLK3 Output Master shelf synchronization
clock output interface
HOST-232/GPS Bidirectional/Input Debugging serial port/GPS
clock interface
GPS Input GPS antenna interface
TX1-RX1 Bidirectional 10 G optical interface, used for
interconnecting the media plane
among shelves
TX2-RX2 Bidirectional 10 G optical interface, used for
interconnecting the media plane
among shelves
ETH-M Output Debugging interface
4.6.4 EAPB
4.6.4.1 EAPB FunctionsEnhanced ATM processing board (EAPB) is an interface board for STM-1 access and ATMprocessing.
4.6.4.2 EAPB Panel StructureFigure 4-11 shows the structure of EAPB panel.
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Figure 4-11 Structure of EAPB Panel
4.6.4.3 EAPB Panel IndicatorsTable 4-20 describes the indicators on the panel of EAPB board.
Table 4-20 EAPB Panel Indicators
Indicator Color Meaning Category Description
OOS Red/Green Board service
status indicator
OK Red/Green Health status
indicator
ACT Red/Green Active/standby
indicator
HOST Red/Green Running/alarm
indicator
H/S Blue Hot swap indicator
Common
Indicator
Refer to section
Common
Indicator
Description
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Indicator Color Meaning Category Description
SD 1–4 Green Optical signal
indicator
Dedicate indicator ON: The optical
interface has
received optical
signal.
OFF: The optical
interface has not
received optical
signal.
ACT 1–4 Green Optical interface
active/standby
indicator
Dedicate indicator ON: The optical
interface is in
active state.
OFF: The optical
interface is in
standby state.
4.6.4.4 EAPB Panel ButtonsTable 4-21 describes the buttons on the panel of EAPB board.
Table 4-21 EAPB Panel Buttons
Button Description
EXCH Active/standby switchover switch
RST Reset switch
4.6.4.5 EAPB Panel InterfacesTable 4-22 describes the interfaces on the panel of EAPB board.
Table 4-22 EAPB Panel Interfaces
Interface Direction Description
CKOUT1 Output Line clock output interface,
connects to REF1l or REF2l on
EGFS
CKOUT2 Output Line clock output interface,
connects to REF1l or REF2l on
EGFS,
RX1/TX1 Bidirectional STM–1 optical interface
RX2/TX2 Bidirectional STM–1 optical interface
RX3/TX3 Bidirectional STM–1 optical interface
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ZXUR 9000 UMTS Hardware Description
Interface Direction Description
RX4/TX4 Bidirectional STM–1 optical interface
HOST-232 Bidirectional Debugging interface
4.6.5 EGPB
4.6.5.1 EGPB FunctionsEnhanced GE Process Board (EGPB) is an interface board for GE interface (optical orelectrical) access and IP processing.
4.6.5.2 EGPB Panel StructureFigure 4-12 shows the structure of EGPB panel.
Figure 4-12 Structure of EGPB Panel
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4.6.5.3 EGPB Panel IndicatorsTable 4-23 describes the indicators on the panel of EGPB board.
Table 4-23 EGPB Panel Indicators
Indicator Color Meaning Category Functions
OOS Red/Green Board service
status indicator
OK Red/Green Health status
indicator
ACT Red/Green Active/standby
indicator
HOST Red/Green Running/alarm
indicator
H/S Blue Hot-swap
indicator
Common
Indicator
Refer to section
Common
Indicator
Description
SD1~4 Green Optical signal
indicator
Dedicate indicator ON: The optical
interface has
received optical
signal.
OFF: The optical
interface has not
received optical
signal.
ACT1~4 Green Link status
indicator
Dedicate indicator ON: The optical
link has received
data packets.
OFF: The optical
link has not
received data
packets.
4.6.5.4 EGPB Panel ButtonsTable 4-24 describes the buttons on the panel of EGPB board.
Table 4-24 EGPB Panel Buttons
Button Description
EXCH Active/standby switchover button
RST Reset button
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4.6.5.5 EGPB Panel InterfacesTable 4-25 describes the interfaces on the panel of EGPB board.
Table 4-25 EGPB Panel Interfaces
Interface Name Direction Description
CKOUT1 Output Line clock output interface,
connects to REF1l or REF2l on
EGFS
CKOUT2 Output Line clock output interface,
connects to REF1l or REF2l on
EGFS
RX1/TX1 Bidirectional GE optical interface
RX2/TX2 Bidirectional GE optical interface
RX3/TX3 Bidirectional GE optical interface
RX4/TX4 Bidirectional GE optical interface
ETH1 Bidirectional GE electrical interface
ETH2 Bidirectional GE electrical interface
ETH3 Bidirectional GE electrical interface
ETH4 Bidirectional GE electrical interface
HOST-232 Bidirectional Debugging interface
4.6.6 ESDTA
4.6.6.1 ESDTA FunctionsEnhanced SDH Digital Trunk board ATM version (ESDTA) is an interface board forchannelized ATM STM-1 access, and IMA and ATM processing.
4.6.6.2 ESDTA Panel StructureFigure 4-13 shows the structure of ESDTA panel.
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Figure 4-13 Structure of ESDTA Panel
4.6.6.3 ESDTA Panel IndicatorsTable 4-26 describes the indicators on the panel of ESDTA board.
Table 4-26 ESDTA Panel Indicators
Indicator Color meaning Category Description
OOS Red/Green Board service
status indicator
OK Red/Green Health status
indicator
ACT Red/Green Active/standby
indicator
HOST Red/Green Running/alarm
indicator
H/S Blue Hot swap indicator
Common
Indicator
Refer to section
Common
Indicator
Description
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Indicator Color meaning Category Description
SD 1–4 Green Optical signal
indicator
Dedicate indicator ON: The optical
interface has
received optical
signal.
OFF: The optical
interface has not
received optical
signal.
ACT 1–4 Green Optical interface
active/standby
indicator
Dedicate indicator ON: The optical
interface is in
active state.
OFF: The optical
interface is in
standby state.
4.6.6.4 ESDTA Panel ButtonsTable 4-27 describes the buttons on the panel of ESDTA board.
Table 4-27 ESDTA Panel Buttons
Indicator Description
EXCH Active/standby switch
RST Reset switch
4.6.6.5 ESDTA Panel InterfacesTable 4-28 describes the interfaces on the panel of ESDTA board.
Table 4-28 ESDTA Panel Interfaces
Interface Name Direction Description
CKOUT1 Output Line clock output interface,
connects to REF1l or REF2l on
EGFS
CKOUT2 Output Line clock output interface,
connects to REF1l or REF2l on
EGFS
TX1/RX1 Bidirectional STM-1 optical interface
TX2/RX2 Bidirectional STM-1 optical interface
TX3/RX3 Bidirectional STM-1 optical interface
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Interface Name Direction Description
TX4/RX4 Bidirectional STM-1 optical interface
HOST-232 Bidirectional Debugging interface
4.6.7 ESDTI
4.6.7.1 ESDTI FunctionsEnhanced SDH Digital Trunk board IP version (ESDTI) is an interface board for IP STM-1access , and PPP and MLPPP processing.
4.6.7.2 ESDTI Panel StructureFigure 4-14 shows the structure of ESDTI panel.
Figure 4-14 Structure of ESDTI Panel
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4.6.7.3 ESDTI Panel IndicatorsTable 4-29 describes the indicators on the panel of ESDTI board.
Table 4-29 ESDTI Panel Indicators
Indicator Color Meaning Category Functions
OOS Red/Green Board service
status indicator
OK Red/Green Health status
indicator
ACT Red/Green Active/standby
indicator
HOST Red/Green Running/alarm
indicator
H/S Blue Hot-swap
indicator
Common
Indicator
Refer to section
Common
Indicator
Description
SD1~4 Green Optical signal
indicator
Dedicate indicator ON: The optical
interface has
received optical
signal.
OFF: The optical
interface has not
received optical
signal.
ACT1~4 Green Link status
indicator
Dedicate indicator ON: The optical
link has received
data packets.
OFF: The optical
link has not
received data
packets.
4.6.7.4 ESDTI Panel ButtonsTable 4-30 describes the buttons on the panel of ESDTI board.
Table 4-30 ESDTI Panel Buttons
Button Description
EXCH Active/standby switchover button
RST Reset button
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4.6.7.5 ESDTI Panel InterfacesTable 4-31 describes the interfaces on the panel of ESDTI board.
Table 4-31 ESDTI Panel Interfaces
Interface Name Direction Description
CKOUT1 Output Line clock output interface,
connects to REF1l or REF2l on
EGFS
CKOUT2 Output Line clock output interface,
connects to REF1l or REF2l on
EGFS
TX1/RX1 Bidirectional Ethernet optical interface
TX2/RX2 Bidirectional Ethernet optical interface
TX3/RX3 Bidirectional Ethernet optical interface
TX4/RX4 Bidirectional Ethernet optical interface
HOST-232 Bidirectional Debugging interface
4.6.8 EDTA
4.6.8.1 EDTA FunctionsEnhanced Digital Trunk Board ATM version (EDTA) is an interface board for ATM E1access, and IMA and ATM processing.
4.6.8.2 EDTA Panel StructureFigure 4-15 shows the structure of EDTA panel.
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Figure 4-15 Structure of EDTA Panel
4.6.8.3 EDTA Panel IndicatorsTable 4-32 describes the indicators on the panel of EDTA board.
Table 4-32 EDTA Panel Indicators
Indicator Color Meaning Category Functions
OOS Red/Green Board service
status indicator
OK Red/Green Health status
indicator
ACT Red/Green Active/standby
indicator
HOST Red/Green Running/alarm
indicator
H/S Blue Hot-swap
indicator
Common
Indicator
Refer to section
Common
Indicator
Description
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4.6.8.4 EDTA Panel ButtonsTable 4-33 describes the buttons on the panel of EDTA board.
Table 4-33 EDTA Panel Buttons
Button Description
EXCH Active/standby switchover button
RST Reset button
4.6.8.5 EDTA Panel InterfacesTable 4-34 describes the interfaces on the panel of EDTA board.
Table 4-34 EDTA Panel Interfaces
Interface Name Direction Description
CKOUT1 Output Line clock output interface,
connects to REF1l or REF2l on
EGFS
CKOUT2 Output Line clock output interface,
connects to REF1l or REF2l on
EGFS
E1/T1 1–16 Bidirectional E1/T1 interface
E1/T1 17–32 Bidirectional E1/T1 interface
HOST-232 Bidirectional Debugging interface
4.6.9 EDTI
4.6.9.1 EDTI FunctionsEnhanced Digital Trunk Board IP version (EDTI) is an interface board for channelized IPE1 access, and PPP, MLPPP processing.
4.6.9.2 EDTI Panel StructureFigure 4-16 shows the structure of EDTI panel.
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Figure 4-16 Structure of EDTI Panel
4.6.9.3 EDTI Panel IndicatorsTable 4-35 describes the indicators on the panel of EDTI board.
Table 4-35 EDTI Panel Indicators
Indicator Color Meaning Category Functions
OOS Red/green Board service
status indicator
OK Red/green Health status
indicator
ACT Red/green Active/standby
indicator
HOST Red/green Running/alarm
indicator
H/S Blue Hot-swap
indicator
Common
Indicator
Refer to section
Common
Indicator
Description
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4.6.9.4 EDTI Panel ButtonsTable 4-36 describes the buttons on the panel of EDTI board.
Table 4-36 EDTI Panel Buttons
Button Description
EXCH Active/standby switchover button
RST Reset button
4.6.9.5 EDTI Panel InterfacesTable 4-37 describes the interfaces on the panel of EDTI board.
Table 4-37 EDTI Panel Interfaces
Interface Name Direction Description
CKOUT1 Output Line clock output interface,
connects to REF1l or REF2l on
EGFS
CKOUT2 Output Line clock output interface,
connects to REF1l or REF2l on
EGFS
E1/T1 1–8 Bidirectional E1/T1 interface
E1/T1 9-16 Bidirectional E1/T1 interface
E1/T1 17-24 Bidirectional E1/T1 interface
E1/T1 25-32 Bidirectional E1/T1 interface
HOST-232 Bidirectional Debugging interface
4.7 Backplane
4.7.1 Backplane FunctionsFront/rear board is inserted on the backplane. Circuit boards in the same shelf areinterconnected through printed circuits in the backplane, which greatly reduces the useof cables and increases operation reliability.
4.7.2 Backplane StructureFigure 4-17 shows the front view of backplane.
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Figure 4-17 Backplane Structure (Front View)
Figure 4-18 shows the rear view of backplane.
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Figure 4-18 Backplane Structure (Rear View)
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Chapter 5CablesTable of Contents
Internal Cables ...........................................................................................................5-1External Cables..........................................................................................................5-4
5.1 Internal CablesThe internal cables include:
l Interior power cablel Interior -48 V RTN power cablel Grounding cable of service subrackl Grounding cable for power distribution unit (PDU)l Cabinet door grounding cablel Media plane interconnection fiberl Control plane interconnection cablel Line reference clock cablel Inter-shelf clock cablel PD485 monitoring cable
For information about the cable appearances and installation methods, refer to thecontents in ZXUR 9000 UMTS (V4.11.10) Radio Network Controller Hardware InstallationGuide .
5.1.1 Interior -48 V Power CableTable 5-1 describes the connection of Interior -48 V power cable.
Table 5-1 Connection of Interior -48 V Power Cable
Cable ID Meaning Direction A Direction B
PWR-20952-002 -48 V cableService subrack power
box
Power distribution unit
(PDU)
5.1.2 Interior -48 V RTN Power CableTable 5-2 describes the connection of Interior -48 V RTN power cable.
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Table 5-2 Connection of Interior -48 V RTN Power Cable
Cable ID Meaning Direction A Direction B
PWR-91237-102 -48 V RTN cableService subrack power
box
Power distribution unit
(PDU)
5.1.3 Grounding Cable for Service SubrackTable 5-3 describes the connection of grounding cable for service subrack.
Table 5-3 Connection of Grounding Cable for Service Subrack
Cable ID Type Direction A Direction B
H-PE-010PE protection ground
cableService subrack
PE binding post inside
the cabinet
5.1.4 Cabinet Door Grounding CableTable 5-4 describes the connection of cabinet door grounding cable.
Table 5-4 Connection of Cabinet Door Grounding Cable
Cable ID Type Direction A Direction B
H-PE-010PE protection ground
cable
Grounding point at
bottom of inner cabinet
Cabinet door grounding
point
5.1.5 Grounding Cable for PDUTable 5-5 describes the connection of grounding cable for PDU.
Table 5-5 Connection of Grounding Cable for PDU
Cable ID Type Direction A Direction B
H-PE-007PE protection ground
cable
PDU grounding
terminal
Grounding point inside
the cabinet top
5.1.6 Media Plane Interconnection FiberTable 5-6 describes the connections of media plane interconnection cable.
Table 5-6 Connections of Media Plane Interconnection Fiber
Name Direction A Direction B Function
Media Plane
Interconnection Fiber
Master shelf EGFS
board
Subordinate shelf
EGFS board
Transmission media
plane data
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5.1.7 Control Plane Interconnection CableTable 5-7 describes the connections of control plane interconnection cable.
Table 5-7 Connections of Control Plane Interconnection Cable
Name Direction A Direction B Function
Super category 5
shielded network cable
Master shelf EGBS
board
Subordinate shelf
EGBS board
Transmits control plane
data
5.1.8 Line Reference Clock CableLine reference clock cable is used to extract clock reference from interface board to clockboard EGFS for lock. Table 5-8 describes the cable connection.
Table 5-8 Connection of Line Reference Clock Cable
Cable ID Name Direction A Direction B
SE1 Clock reference cable Master shelf interface
board
Master shelf EGFS
board
5.1.9 Inter-Shelf Clock CableInter-shelf clock cable is used to transmit clock signals between shelves. Table 5-9describes the cable connection.
Table 5-9 Connection of Inter-Shelf Clock Cable
Cable ID Name Direction A Direction B
DS-G0505–001 Clock Cable Master shelf EGFS
board
Subordinate shelf
EGFS board
5.1.10 PD485 monitoring cableTable 5-10 describes the connection of PD485 monitoring cable of PDU.
Table 5-10 Connection of PD485 Monitoring Cable
Cable ID Name Direction A Direction of EndB1
Direction of EndB2
DS-G0505-002 RS485 monitoring
cable
PDU subrack Master shelf
EGBS board
Master shelf
EGBS board
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5.2 External CablesThe external cables include:
l Exterior -48 V power cablel Exterior -48 V RTN power cablel Exterior Cabinet Grounding Cablesl BITS Reference Clock Cablel Interface Fibersl Interface Network Cablesl Interface E1/T1 Cablel OMC Network Cablel Various monitoring cables, including:
à Door access monitoring cable
à Environment monitoring cable
à Infrared monitoring cable
à Smog monitoring cable
à Humidity monitoring cable
For information about the cable appearances and installation methods, refer to thecontents in ZXUR 9000 UMTS (V4.11.10) Radio Network Controller HardwareInstallation Guide > Cable Installation.
5.2.1 Exterior -48 V Power CableTable 5-11 describes the connection of Exterior -48 V power cable.
Table 5-11 Connection of Exterior -48 V Power Cable
Cable ID Type Direction A Direction B
PWR-20908-003 -48 V cable PDU -48 V (IN)Customer -48 V RTN
(OUT)
5.2.2 Exterior -48 V RTN Power CableTable 5-12 describes the connection of Exterior -48 V RTN power cable.
Table 5-12 Connection of Exterior -48 V RTN Power Cable
Cable ID Type Direction A Direction B
PWR-20908-004 -48 V RTN cable PDU -48 V RTN (IN)Customer -48 VRTN
(OUT)
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5.2.3 Exterior Grounding CableTable 5-13 describes the connection of Exterior grounding cable.
Table 5-13 Connection of Exterior Grounding Cable
Cable ID Type Direction A Direction B
PE-20970-006PE protection ground
cable
Protective ground
terminal at top of
exterior cabinet
PE copper busbar of
DC PDU
5.2.4 BITS Reference Clock CableBITS reference clock cable is used to extract clock reference from BITS device to clockboard EGFS for lock. Table 5-14 describes the cable connection.
Table 5-14 Connection of BITS Reference Clock Cable
Cable ID Name Direction A Direction B
SE1 Clock reference cable Master shelf EGFS
board
DDF
5.2.5 Interface FiberTable 5-15 describes the connection of interface fiber.
Table 5-15 Connection of Interface Fiber
Name Direction A Direction B Function
Interface Fiber Four pairs of TX-RX on
EGPB
Four pairs of TX-RX on
ESDT1
Four pairs of TX-RX on
ESDTA
Optical switch Iu-CS/PS: connects CN
Iub interface: connects
BTS
5.2.6 Interface Network CableTable 5-16 describes the connection of interface network cable.
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Table 5-16 Connection of Interface Network Cable
Name Direction A Direction B Function
Super category 5
shielded network cable
ETH1~4 of EGPB External switch Iu-CS/PS interface:
connects CN
Iub interface: connects
BTS
5.2.7 Interface E1/T1 CableTable 5-17 describes the connection of interface E1/T1 cable.
Table 5-17 Connection of Interface E1/T1 Cable
Cable ID Type Direction A Direction B Function
E1–G0505–001 75 Ω E1 cable
E1–G0505–003 120 Ω E1 cable
T1–G0505–001 100 Ω T1 cable
E1/T1 interface of
EDTI
E1–G0505–008 75 Ω E1 cable
E1–G0505–010 120 Ω E1 cable
T1–G0505–003 100 Ω T1 cable
E1/T1 interface of
EDTA
DDF Iu-CS/PS
interface:
connects CN
Iub interface:
connects BTS
5.2.8 OMC Network CableTable 5-18 describes the connection of OMC network cable.
Table 5-18 Connection of OMC Network Cable
Name Direction A Direction B Remarks
Super category 5
shielded network cable
Master shelf EGBS
board
External switch Connects OMC NMS
client
5.2.9 Monitoring Cable
5.2.9.1 H-MON-024 Door Access Monitoring CableTable 5-19 describes the connection of H-MON-024 door access monitoring cable.
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Table 5-19 Connection of H-MON-024 Door Access Monitoring Cable
Name Direction A Direction B Remarks
H-MON-024 PDU rear panel DB15
socket “DOOR”
B1~B6 end connect to
door access monitoring
sensors
Monitors door access
status
5.2.9.2 H-MON-025 Environment Monitoring CableTable 5-20 describes the connection of H-MON-025 environment monitoring cable.
Table 5-20 Connection of H-MON-025 Environment Monitoring Cable
Name Direction A Direction B Remarks
H-MON-025 Dual path
PDU-environment
monitoring DB15
socket
(SENSOR)
B1: infrared
B2" temperature/hu-
midity
B3: smog
B4: reserved
Monitors the
environment
5.2.9.3 H-M0N-012 Infrared Monitoring CableTable 5-21 describes the connection of H-MON-012 infrared monitoring cable.
Table 5-21 Connection of H-MON-012 Infrared Monitoring Cable
Name Direction A Direction B Remarks
H-M0N-012 H-MON-025: B1 Infrared microwave
sensor
Infrared monitoring
5.2.9.4 H-MON-013 Smog Monitoring CableTable 5-22 describes the connection of H-MON-013 smog monitoring cable.
Table 5-22 Connection of H-MON-013 Smog Monitoring Cable
Name Direction A Direction B Remarks
H-M0N-013 H-MON-025: B3 Fog sensor Monitors the smog
5.2.9.5 H-MON-014 Humidity Monitoring CableTable 5-23 describes the connection of H-MON-014 humidity monitoring cable.
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Table 5-23 Connection of H-MON-014 Humidity Monitoring Cable
Name Direction A Direction B Remarks
H-MON-014 H-MON-025: B2 Temperature/Humidity
Sensor
Monitors the humidity
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FiguresFigure 1-1 ZXUR 9000 UMTS Appearance ............................................................... 1-3
Figure 2-1 Cabinet Structure..................................................................................... 2-1
Figure 2-2 Cabinet Top Structure .............................................................................. 2-3
Figure 2-3 Front/Rear Door Structure........................................................................ 2-4
Figure 2-4 Side Door ................................................................................................ 2-5
Figure 3-1 Power Distribution Subrack Structure....................................................... 3-2
Figure 3-2 Power Distribution Subrack Structure (Front Panel) ................................. 3-2
Figure 3-3 Power Distribution Subrack Structure (Rear Panel) .................................. 3-2
Figure 3-4 Ventilation Subrack Structure ................................................................... 3-8
Figure 3-5 Working Principles of Ventilation Subrack ................................................ 3-9
Figure 3-6 Service Subrack Structure (Front View) ................................................. 3-10
Figure 3-7 Service Subrack Structure (Rear View) .................................................. 3-11
Figure 3-8 Service Subrack Cross Section Diagram................................................ 3-11
Figure 3-9 Front Fan Subrack Structure.................................................................. 3-12
Figure 3-10 Rear Fan Subrack Structure................................................................. 3-13
Figure 3-11 Fan Subrack Panel Structure (Front View) ........................................... 3-13
Figure 3-12 Fan Subrack Panel Structure (Rear View)............................................ 3-13
Figure 3-13 Structure of Power Box ........................................................................ 3-15
Figure 3-14 Panel Structure of ECDM..................................................................... 3-16
Figure 4-1 Structure of Board Assembly.................................................................... 4-2
Figure 4-2 Front Board Size...................................................................................... 4-3
Figure 4-3 Rear Board Size ...................................................................................... 4-3
Figure 4-4 Backplane Size ........................................................................................ 4-4
Figure 4-5 Structure of Front Boards......................................................................... 4-9
Figure 4-6 Structure of UMP Panel ......................................................................... 4-10
Figure 4-7 Structure of USP Panel .......................................................................... 4-13
Figure 4-8 Structure of Rear Boards ....................................................................... 4-15
Figure 4-9 Structure of EGBS Panel ....................................................................... 4-16
Figure 4-10 Structure of EGFS Panel...................................................................... 4-19
Figure 4-11 Structure of EAPB Panel ...................................................................... 4-24
Figure 4-12 Structure of EGPB Panel ..................................................................... 4-26
Figure 4-13 Structure of ESDTA Panel.................................................................... 4-29
I
ZXUR 9000 UMTS Hardware Description
Figure 4-14 Structure of ESDTI Panel..................................................................... 4-31
Figure 4-15 Structure of EDTA Panel ...................................................................... 4-34
Figure 4-16 Structure of EDTI Panel ....................................................................... 4-36
Figure 4-17 Backplane Structure (Front View)......................................................... 4-38
Figure 4-18 Backplane Structure (Rear View) ......................................................... 4-39
II
TablesTable 1-1 Technical Parameters ................................................................................ 1-4
Table 2-1 Cabinet Configuration................................................................................ 2-2
Table 3-1 Power Distribution Subrack Indicators ....................................................... 3-3
Table 3-2 Power Distribution Subrack Switches ........................................................ 3-3
Table 3-3 Power Distribution Subrack Interfaces ....................................................... 3-5
Table 3-4 Service Subrack Technical Parameters ................................................... 3-12
Table 3-5 Fan Subrack Indicators............................................................................ 3-14
Table 3-6 Fan Subrack Technical Parameters ......................................................... 3-14
Table 3-7 ECDM Indicators ..................................................................................... 3-16
Table 3-8 ECDM Jumpers ....................................................................................... 3-16
Table 4-1 Board Indicator Status ............................................................................... 4-4
Table 4-2 Common Indicator Description................................................................... 4-5
Table 4-3 OOS Indicator Description ......................................................................... 4-6
Table 4-4 OK Indicator Description............................................................................ 4-6
Table 4-5 H/S Indicator Description........................................................................... 4-6
Table 4-6 ACT Indicator Description.......................................................................... 4-7
Table 4-7 HOST Indicator Description ....................................................................... 4-7
Table 4-8 UMP Panel Indicators.............................................................................. 4-11
Table 4-9 UMP Panel Buttons ................................................................................. 4-12
Table 4-10 UMP Panel Interfaces............................................................................ 4-12
Table 4-11 USP Panel Indicators............................................................................. 4-13
Table 4-12 USP Panel Buttons................................................................................ 4-14
Table 4-13 UMP Panel Interfaces............................................................................ 4-14
Table 4-14 EGBS Panel Indicators.......................................................................... 4-16
Table 4-15 EGBS Panel Buttons ............................................................................. 4-17
Table 4-16 EGBS Panel Interfaces.......................................................................... 4-18
Table 4-17 EGFS Panel Indicators .......................................................................... 4-20
Table 4-18 EGFS Panel Buttons ............................................................................. 4-22
Table 4-19 EGFS Panel Interfaces.......................................................................... 4-22
Table 4-20 EAPB Panel Indicators .......................................................................... 4-24
Table 4-21 EAPB Panel Buttons.............................................................................. 4-25
Table 4-22 EAPB Panel Interfaces .......................................................................... 4-25
III
ZXUR 9000 UMTS Hardware Description
Table 4-23 EGPB Panel Indicators.......................................................................... 4-27
Table 4-24 EGPB Panel Buttons ............................................................................. 4-27
Table 4-25 EGPB Panel Interfaces.......................................................................... 4-28
Table 4-26 ESDTA Panel Indicators ........................................................................ 4-29
Table 4-27 ESDTA Panel Buttons ........................................................................... 4-30
Table 4-28 ESDTA Panel Interfaces ........................................................................ 4-30
Table 4-29 ESDTI Panel Indicators ......................................................................... 4-32
Table 4-30 ESDTI Panel Buttons............................................................................. 4-32
Table 4-31 ESDTI Panel Interfaces ......................................................................... 4-33
Table 4-32 EDTA Panel Indicators........................................................................... 4-34
Table 4-33 EDTA Panel Buttons.............................................................................. 4-35
Table 4-34 EDTA Panel Interfaces .......................................................................... 4-35
Table 4-35 EDTI Panel Indicators............................................................................ 4-36
Table 4-36 EDTI Panel Buttons ............................................................................... 4-37
Table 4-37 EDTI Panel Interfaces ........................................................................... 4-37
Table 5-1 Connection of Interior -48 V Power Cable.................................................. 5-1
Table 5-2 Connection of Interior -48 V RTN Power Cable.......................................... 5-2
Table 5-3 Connection of Grounding Cable for Service Subrack ................................. 5-2
Table 5-4 Connection of Cabinet Door Grounding Cable ........................................... 5-2
Table 5-5 Connection of Grounding Cable for PDU ................................................... 5-2
Table 5-6 Connections of Media Plane Interconnection Fiber .................................... 5-2
Table 5-7 Connections of Control Plane Interconnection Cable ................................. 5-3
Table 5-8 Connection of Line Reference Clock Cable ............................................... 5-3
Table 5-9 Connection of Inter-Shelf Clock Cable ....................................................... 5-3
Table 5-10 Connection of PD485 Monitoring Cable ................................................... 5-3
Table 5-11 Connection of Exterior -48 V Power Cable ............................................... 5-4
Table 5-12 Connection of Exterior -48 V RTN Power Cable....................................... 5-4
Table 5-13 Connection of Exterior Grounding Cable.................................................. 5-5
Table 5-14 Connection of BITS Reference Clock Cable ............................................ 5-5
Table 5-15 Connection of Interface Fiber................................................................... 5-5
Table 5-16 Connection of Interface Network Cable.................................................... 5-6
Table 5-17 Connection of Interface E1/T1 Cable ....................................................... 5-6
Table 5-18 Connection of OMC Network Cable ......................................................... 5-6
Table 5-19 Connection of H-MON-024 Door Access Monitoring Cable ...................... 5-7
Table 5-20 Connection of H-MON-025 Environment Monitoring Cable ...................... 5-7
IV
Tables
Table 5-21 Connection of H-MON-012 Infrared Monitoring Cable.............................. 5-7
Table 5-22 Connection of H-MON-013 Smog Monitoring Cable................................. 5-7
Table 5-23 Connection of H-MON-014 Humidity Monitoring Cable ............................ 5-8
V
Tables
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Glossary3G- The 3rd Generation Mobile Communications
ATCA- Advanced Telecommunications Computing Architecture
CMM- Chassis Management Module
CMP- Common signaling MP
CS- Circuit Switched
DMP- Dedicated signaling MP
EAPB- ETCA ATM Process Board
ECMM- ETCA Chassis Management Module
EDTA- Enhanced Digital Trunk Board ATM version
EDTI- Enhanced Digital Trunk board IP version
EGBS- Enhanced GE BASE Switch Board
EGFS- Enhanced GE FABRIC Switch Board
EGPB- Enhanced GE Process Board
EMC- Electro Magnetic Compatibility
EMS- Network Element Management System
ESDTA- ETCA ATM SDH Digital Trunk Board
ESDTI- Enhanced SDH Digital Trunk board IP version
VII
ZXUR 9000 UMTS Hardware Description
ETCA- Enhanced ATCA
FE- Fast Ethernet
GE- Gigabit Ethernet
GND- Ground
HSPA- High Speed Packet Access
HW- High speed data Way
IMS- IP Multimedia Subsystem
IP- Internet Protocol
IPv6- Internet Protocol Version 6
LTE- Long Term Evolution
OMM- Operation & Maintenance Module
OMP- Operation & Maintenance Processor
PDU- Power Distribution Unit
PE- Protective Earth
PICMG- PCI Industrial Computer Manufacture Group
PS- Packet Switched
RUP- Rnc User plane Processor
STM- Synchronous Transfer Mode
UMP- Universal Management Process Board
VIII
Glossary
USP- Universal Service Process Board
VGA- Video Graphic Adapter
IX