ZTE 1800-2SW Intelligent Integrated Multi-Services Router User Manual ZXR10 ZSR Intelligent Integrated Multi Service Router Hardware Description

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Document Description	ZXR10 ZSR Intelligent Integrated Multi-Service Router Hardware Description
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Document Title	ZXR10 ZSR Intelligent Integrated Multi-Service Router Hardware Description
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ZXR10 ZSR V2
Intelligent Integrated Multi-Service Router
Hardware Description
Version: 2.00.20
ZTE CORPORATION
No. 55, Hi-tech Road South, ShenZhen, P.R.China
Postcode: 518057
Tel: +86-755-26771900
Fax: +86-755-26770801
URL: http://support.zte.com.cn
E-mail: support@zte.com.cn
LEGAL INFORMATION
Copyright © 2014 ZTE CORPORATION.
The contents of this document are protected by copyright laws and international treaties. Any reproduction or
distribution of this document or any portion of this document, in any form by any means, without the prior written
consent of ZTE CORPORATION is prohibited.
Additionally, the contents of this document are protected by
contractual confidentiality obligations.
All company, brand and product names are trade or service marks, or registered trade or service marks, of ZTE
CORPORATION or of their respective owners.
This document is provided “as is”, and all express, implied, or statutory warranties, representations or conditions
are disclaimed, including without limitation any implied warranty of merchantability, fitness for a particular purpose,
title or non-infringement. ZTE CORPORATION and its licensors shall not be liable for damages resulting from the
use of or reliance on the information contained herein.
ZTE CORPORATION or its licensors may have current or pending intellectual property rights or applications
covering the subject matter of this document. Except as expressly provided in any written license between ZTE
CORPORATION and its licensee, the user of this document shall not acquire any license to the subject matter
herein.
ZTE CORPORATION reserves the right to upgrade or make technical change to this product without further notice.
Users may visit the ZTE technical support website http://support.zte.com.cn to inquire for related information.
The ultimate right to interpret this product resides in ZTE CORPORATION.
Revision History
Revision No.
Revision Date
Revision Reason
R1.0
2015-03-30
First edition
Serial Number: SJ-20150204153047-004
Publishing Date: 2015-03-30 (R1.0)
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Contents
About This Manual ......................................................................................... I
Chapter 1 Hardware Overview................................................................... 1-1
Chapter 2 ZXR10 3800-8 Chassis.............................................................. 2-1
2.1 Structure............................................................................................................ 2-1
2.1.1 Overview and Structure ............................................................................ 2-1
2.1.2 Slot Layout .............................................................................................. 2-2
2.1.3 System Parameters .................................................................................. 2-3
2.2 Power Supply..................................................................................................... 2-4
2.2.1 AC Power Supply Module ......................................................................... 2-4
2.2.2 DC Power Supply Module ......................................................................... 2-5
2.3 FAN Module....................................................................................................... 2-6
Chapter 3 ZXR10 2800-4 Chassis.............................................................. 3-1
3.1 Structure............................................................................................................ 3-1
3.1.1 Overview and Structure ............................................................................ 3-1
3.1.2 Slot Layout .............................................................................................. 3-2
3.1.3 System Parameters .................................................................................. 3-3
3.2 Power Supply..................................................................................................... 3-3
3.2.1 AC Power Supply Module ......................................................................... 3-4
3.2.2 DC Power Supply Module ......................................................................... 3-5
3.3 Fan ................................................................................................................... 3-6
Chapter 4 ZXR10 1800-2S Chassis ........................................................... 4-1
4.1 Structure............................................................................................................ 4-1
4.1.1 Overview and Structure ............................................................................ 4-1
4.1.2 Slot Layout .............................................................................................. 4-4
4.1.3 System Parameters .................................................................................. 4-5
4.2 Power Supply..................................................................................................... 4-6
Chapter 5 ZXR10 2800-3E Chassis ........................................................... 5-1
5.1 Structure............................................................................................................ 5-1
5.1.1 Overview and Structure ............................................................................ 5-1
5.1.2 Slot Deployment....................................................................................... 5-3
5.1.3 System Parameters .................................................................................. 5-4
5.2 Power Supplies .................................................................................................. 5-5
5.2.1 AC Power Module .................................................................................... 5-5
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5.2.2 DC Power Module .................................................................................... 5-6
Chapter 6 ZXR10 1800-2E Chassis ........................................................... 6-1
6.1 Structure............................................................................................................ 6-1
6.1.1 Overview and Structure ............................................................................ 6-1
6.1.2 Slots........................................................................................................ 6-3
6.1.3 System Parameters .................................................................................. 6-4
6.2 Power Supplies .................................................................................................. 6-4
6.2.1 AC Power Module .................................................................................... 6-5
6.2.2 DC Power Module .................................................................................... 6-6
Chapter 7 MPFU.......................................................................................... 7-1
7.1 RAC-2838-MPFU-A............................................................................................ 7-1
7.2 RAC-2838-MPFU-B/RAC-2838-MPFU-C ............................................................. 7-3
Chapter 8 General Processing Boards..................................................... 8-1
8.1 RAC-DPIU-OSU-A1 ........................................................................................... 8-1
8.2 RAC-DPIU-OSU-A2 ........................................................................................... 8-3
8.3 RAC-DPIU-FW-A ............................................................................................... 8-4
Chapter 9 Line Interface Boards ............................................................... 9-1
9.1 RAC-SPIU-02CE1-75 ......................................................................................... 9-2
9.2 RAC-SPIU-02UE1-75 ......................................................................................... 9-3
9.3 RAC-SPIU-02CE1-120 ....................................................................................... 9-5
9.4 RAC-SPIU-02UE1-120 ....................................................................................... 9-6
9.5 RAC-SPIU-02HS................................................................................................ 9-8
9.6 RAC-SPIU-04GE................................................................................................ 9-9
9.7 RAC-PIU-LTE ...................................................................................................9-11
9.8 RAC-PIU-01DSLB ............................................................................................ 9-13
9.9 RAC-PIU-04SHDSL ......................................................................................... 9-15
9.10 RAC-PIU-04HS ............................................................................................. 9-16
9.11 RAC-PIU-04CE1-75........................................................................................ 9-18
9.12 RAC-PIU-04CE1-120...................................................................................... 9-19
9.13 RAC-PIU-04UE1-75 ....................................................................................... 9-21
9.14 RAC-PIU-04UE1-120...................................................................................... 9-22
9.15 RAC-PIU-16CE1 ............................................................................................ 9-23
9.16 RAC-PIU-16CE1-CES .................................................................................... 9-25
9.17 RAC-PIU-01P12-SFP ..................................................................................... 9-26
9.18 RAC-PIU-02P3-SFP ....................................................................................... 9-28
9.19 RAC-PIU-04P3-SFP ....................................................................................... 9-29
9.20 RAC-PIU-02CP3-SFP..................................................................................... 9-31
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9.21 RAC-PIU-04CP3-SFP..................................................................................... 9-32
9.22 RAC-PIU-04GE-SFP ...................................................................................... 9-34
9.23 RAC-PIU-08GE-SFP ...................................................................................... 9-35
9.24 RAC-PIU-05GE-4E1SFP ................................................................................ 9-36
9.25 RAC-PIU-09GE-8E1SFP ................................................................................ 9-39
9.26 RAC-PIU-08FE1GE-1SFP .............................................................................. 9-41
9.27 RAC-DPIU-16GE-12SFP4E ............................................................................ 9-43
9.28 RAC-DPIU-01XGE-SFP+................................................................................ 9-45
Chapter 10 Cables .................................................................................... 10-1
10.1 Power Cables and Grounding Cables .............................................................. 10-1
10.1.1 DC Power Cables................................................................................. 10-1
10.1.2 AC Power Cables ................................................................................. 10-3
10.1.3 Grounding Cables ................................................................................ 10-4
10.2 Signal Cables................................................................................................. 10-4
10.2.1 AUX Cables ......................................................................................... 10-4
10.2.2 Console Cables.................................................................................... 10-5
10.2.3 Ethernet Cables ................................................................................... 10-6
10.2.4 Optical Fibers....................................................................................... 10-7
10.2.5 SHDSL Cables ..................................................................................... 10-9
10.2.6 Synchronous/Asynchronous Serial Cable..............................................10-10
10.2.7 E1 Trunk Cable ...................................................................................10-13
Appendix A Board Quick Table (Weight and Power Consumption)...... A-1
Appendix B Optical Modules Quick Table............................................... B-1
Figures............................................................................................................. I
Tables .............................................................................................................V
Glossary ......................................................................................................XIII
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About This Manual
Purpose
This manual describes the hardware structure, components, system configurations,
performance, physical parameters and supported boards and cables of the ZXR10 ZSR
V2 series routers.
Intended Audience
This manual is intended for:
Network planning engineers
Equipment installation engineers
Installation supervision engineers
What Is in This Manual
This manual contains the following chapters and appendixes.
Describes the hardware overview of the ZXR10 ZSR V2
Chapter 1, Hardware Overview
seriess routers.
Describes the structure, components, slots, system pa-
Chapter 2, ZXR10 3800-8 Chassis
rameters, power supplies, and the heat dissipation system of the ZXR10 3800-8 chassis.
Describes the structure, components, slot layout, system
Chapter 3, ZXR10 2800-4 Chassis
parameters, power supplies, and the heat dissipation system of the ZXR10 2800-4 chassis.
Describes the structure, components, slot layout, system
Chapter 4, ZXR10 1800-2S Chassis
parameters, power supplies, and the heat dissipation system of the ZXR10 1800-2S chassis.
Describes the structure, slot deployment, system pa-
Chapter 5, ZXR10 2800-3E Chassis
rameters, power modules, and fan modules of a ZXR10
2800-3E chassis.
Describes the structure, slot deployment, system pa-
Chapter 6, ZXR10 1800-2E Chassis
rameters, power modules, and fan modules of a ZXR10
1800-2E chassis.
Describes the MPFU supported by all ZXR10 ZSR V2
Chapter 7, MPFU
series routers.
Describes general processing boards that the ZXR10
Chapter 8, General Processing Boards
ZSR V2 series routers support.
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Describes the line interface boards supported by all
Chapter 9, Line Interface Boards
ZXR10 ZSR V2 series routers.
Describes the power cables, protective grounding cables,
Chapter 10, Cables
and signal cables of the ZXR10 ZSR V2 series routers.
Appendix A, Board Quick Table (Weight
Describes the weight and power consumption of the
and Power Consumption)
boards supported by the ZXR10 ZSR V2 series routers.
Describes the information of the optical modules sup-
Appendix B, Optical Modules Quick Table
ported by the ZXR10 ZSR V2 series routers.
Conventions
This manual uses the following conventions.
Italics
Variables in commands. It may also refer to other related manuals and documents.
Bold
Menus, menu options, function names, input fields, option button names, check boxes,
drop-down lists, dialog box names, window names, parameters, and commands.
Constant
Text that you type, program codes, filenames, directory names, and function names.
width
[]
Optional parameters.
{}
Mandatory parameters.
Separates individual parameters in a series of parameters.
Warning: indicates a potentially hazardous situation. Failure to comply can result in
serious injury, equipment damage, or interruption of major services.
Caution: indicates a potentially hazardous situation. Failure to comply can result in
moderate injury, equipment damage, or interruption of minor services.
Note: provides additional information about a certain topic.
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Chapter 1
Hardware Overview
For the major hardware components and models of the ZXR10 ZSR V2, refer to Table 1-1.
The components vary with the network scale and capacity. Determine the configuration
according to your actual requirements.
Table 1-1 Component Models
Component
Model
Description
Cabinet
Used as required. The ZXR10 1800-2S is a desktop
product, the ZXR10 1800-2E and ZXR10 2800-3E
can be installed on a desktop or in a cabinet, while
the ZXR10 2800-4 and ZXR10 3800-8 can be
installed in an IEC297 standard cabinet or ETSI
standard cabinet.
Shelf
ZXR10 3800-8 Chassis
Contains chassis structure, power supply module,
ZXR10 2800-4 Chassis
fan and dust screen module and LCD module.
ZXR10 1800-2S
Chassis
MPFU
Refer to Chapter 7
Contains MPFU.
MPFU.
General
Refer to Chapter 8
General processing boards that the ZXR10 ZSR V2
processing boards
General Processing
series routers support.
Boards.
Line Interface
Refer to Chapter 9 Line
Contains line interface boards.
Boards
Interface Boards.
Cable
Refer to Chapter 10
Contains power cables, grounding cables and signal
Cables.
cables.
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Chapter 2
ZXR10 3800-8 Chassis
The ZXR10 ZSR V2 series routers are highly flexible by using the modular structure, and
the boards and components are hot swappable. The entire router consists of the chassis,
backplane, MPFU, line interface boards, power supply modules, and fan modules.
The ZXR10 3800-8 chassis uses the plate metal structure. The boards, power supply
modules, and fan modules are installed on the front panel, and the front leading-out mode
(optical fiber interfaces) is used. The width of the ZXR10 3800-8 chassis complies with
the 19-inch standard and can be installed in IEC297 or ETSI standard cabinets.
Table of Contents
Structure ....................................................................................................................2-1
Power Supply .............................................................................................................2-4
FAN Module ...............................................................................................................2-6
2.1 Structure
2.1.1 Overview and Structure
The height of the ZXR10 3800-8 chassis is 3U (1U = 1.75 in. = 44.45 mm), and the
dimensions (width × height × depth) are 17.41 in. × 5.20 in. × 7.88 in. (442 mm × 132 mm
× 200 mm). For the main components of the ZXR10 3800-8 chassis, see Figure 2-1.
Figure 2-1 Main Components on the Front Side of the ZXR10 3800-8 Chassis
For the front view of the ZXR10 3800-8 chassis, see Figure 2-2.
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ZXR10 ZSR V2 Hardware Description
Figure 2-2 Front View of the ZXR10 3800-8 Chassis
1. Power supply module
2. SPIU line interface board
slots
3. PIU/DPIU line interface
board slots
4. Fan module
5. MPFU slots
For a description of the main components of the ZXR10 3800-8 chassis, refer to Table 2-1.
Table 2-1 Description of the Main Components of the ZXR10 3800-8 Chassis
Component Name
Description
Board area
The ZXR10 3800-8 provides one slot for the main control
forwarding board and at most eight slots for line interfaces.
Power supply module
The ZXR10 3800-8 provides two slots for power modules. You can
configure one or two power modules.
Fan module
The ZXR10 3800-8 provides one vertically installed fan module.
2.1.2 Slot Layout
For a front view of the ZXR10 3800-8 chassis, see Figure 2-3.
Figure 2-3 Front View of the ZXR10 3800-8 Chassis
The ZXR10 3800-8 chassis provides nine service slots and boards are horizontally installed
in the chassis.
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Chapter 2 ZXR10 3800-8 Chassis
The MPFU is installed in slot 8.
PIUs/DPIUs and SPIUs are installed in slots 0 to 7.
The SPIU slots are applicable to SPIU boards. The PIU slots are applicable to PIU
boards. The DPIU board uses two slots, including one PIU slot and its neighboring
PIU/DPIU slot.
2.1.3 System Parameters
For the system parameters of the ZXR10 3800-8, refer to Table 2-2.
Table 2-2 System Parameters of the ZXR10 3800-8
Parameter
Physical parameter
Specification
Dimensions (width ×
17.41 in. × 5.20 in. × 7.88 in. (442 mm ×132
height × depth)
mm ×200 mm)
Weight (full
< 25.4 lb. (11.5 kg)
configuration)
Maximum power
< 240 W
consumption
Storage capacity
Slot
DC power (single)
Memory
2 GB
FLASH
4 GB
Total number of slots
Number of PIU slots
Redundancy mode
1+1 redundancy, supporting AC and DC mixed
power supply
AC power (single)
Maximum output power
250 W
Rated input voltage
-60 V DC to -48 V DC
Input voltage range
-72 V DC to -38 V DC
Redundancy mode
1+1 redundancy, supporting AC and DC mixed
power supply
Rated input voltage
100 V AC to 240 V AC
Input frequency range
50 Hz to 60 Hz
Rated output power per
250 W
module
Heat dissipation system
Number of fan modules
Grounding resistance
Resistance of joint grounding < 5 Ω
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ZXR10 ZSR V2 Hardware Description
2.2 Power Supply
The ZXR10 ZSR V2 series routers support 100 V to 240 V, 50 Hz to 60 Hz AC power
supply and -72 V to -38 V DC power supply. The ZXR10 3800-8 supports AC and DC
mixed power supplies operating in 1+1 redundancy mode, and the power supply modules
are hot swappable.
A power supply module provides the following functions:
Input/output over/under voltage alarm and protection.
Output over current alarm and protection.
Temperature alarm and overheating protection.
Caution!
Please disconnect all power supply before servicing.
2.2.1 AC Power Supply Module
Panel
For the front view of the AC power supply module of the ZXR10 3800-8, see Figure 2-4.
Figure 2-4 Panel of the AC Power Supply Module
Indicators
For a description of the ZXR10 3800-8 AC power supply indicators, refer to Table 2-3.
Table 2-3 Indicator Descriptions for the ZXR10 3800-8 AC Power Supply Module
Indicator
Number
Color
Description
RUN
Green
Indicates that the power supply module
operates properly.
ALM
Red
Indicates that the power supply module has
an alarm.
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Chapter 2 ZXR10 3800-8 Chassis
Buttons
There is one power button on the ZXR10 3800-8 AC power supply module.
description of the button, refer to Table 2-4.
For a
Table 2-4 Power Button Description for the ZXR10 3800-8 AC Power Supply Module
Button
Description
ON (—)
Powers on the power supply module.
OFF (O)
Powers off the power supply module.
Technical Parameters
For the technical parameters of the AC power rectifier of the ZXR10 3800-8, refer to Table
2-5.
Table 2-5 Technical Parameters of the AC Power Rectifier of the ZXR10 3800-8
Parameter
Specification
Dimensions (height ×
3.15 in. × 1.57 in. × 6.89 in. (80 mm ×40 mm ×175 mm)
width × depth)
Weight
0.68 kg
Input voltage range
100 V AC to 240 V AC
AC input frequency
50 Hz to 60 Hz
Rated output power
250 W
2.2.2 DC Power Supply Module
Panel
For the front view of the DC power supply module of the ZXR10 3800-8, see Figure 2-5.
Figure 2-5 Panel of the DC Power Supply Module
Indicators
For a description of the ZXR10 3800-8 DC power supply indicators, refer to Table 2-6.
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Table 2-6 Indicator Descriptions for the ZXR10 3800-8 DC Power Supply Module
Indicator
Number
Color
Description
RUN
Green
Indicates that the power supply module
operates properly.
ALM
Red
Indicates that the power supply module has
an alarm.
Buttons
There is one power button on the ZXR10 3800-8 DC power supply module.
description of the button, refer to Table 2-7.
For a
Table 2-7 Power Button Description for the ZXR10 3800-8 DC Power Supply Module
Button
Description
ON (—)
Powers on the power supply module.
OFF (O)
Powers off the power supply module.
Technical Parameters
For the technical parameters of the DC power supply module of the ZXR10 3800-8, refer
to Table 2-8.
Table 2-8 Technical Parameters of the DC Power Supply Module of the ZXR10 3800-8
Parameter
Specification
Dimensions (height × width ×
3.15 in. × 1.57 in. × 6.89 in. (80 mm ×40 mm ×175 mm)
depth)
Weight
1.45 lb. (0.52 kg)
Input voltage range
-72 V DC to -48 V DC
Maximum output power
250 W
Rated input current
8.5 A
2.3 FAN Module
There is a vertical fan module in the ZXR10 3800-8 chassis, which consists of four fans.
The cool air enters the chassis from its lateral side, flows to the boards and power supply
modules, and then is blown out from the other side.
The fan module can automatically adjust the fan speed according to the equipment
operation and supports the status monitoring and alarm functions.
For the technical specifications of the ZXR10 3800-8 fan module, refer to Table 2-9.
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Table 2-9 ZXR10 3800-8 Fan Specifications
Parameter
Specification
Size (W × H × D)
40.8 mm ×125.7 mm ×186 mm
Weight
0.62 kg
Power consumption
45 W
Maximum wind pressure
23 mmH2O
Maximum wind
287 CFM
Maximum noise
60 dBA
Operation voltage
12 V
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Chapter 3
ZXR10 2800-4 Chassis
The ZXR10 ZSR V2 series routers are highly flexible by using the modular structure, and
the boards and components are hot swappable. The entire router consists of the chassis,
backplane, MPFU, line interface boards, power supply modules, and fan modules.
The ZXR10 2800-4 chassis uses the plate metal structure. The boards, power supply
modules, and fan modules are installed on the front panel, and the front leading-out mode
(optical fiber interfaces) is used. The width of the ZXR10 2800-4 chassis complies with
the 19-inch standard and can be installed in IEC297 or ETSI standard cabinets.
Table of Contents
Structure ....................................................................................................................3-1
Power Supply .............................................................................................................3-3
Fan ............................................................................................................................3-6
3.1 Structure
3.1.1 Overview and Structure
The height of the ZXR10 2800-4 chassis is 2U (1U = 1.75 in. = 44.45 mm), and the
dimensions (width × height × depth) are 17.41 in. × 3.46 in. × 7.88 in. (442 mm × 88 mm
× 200 mm). For the main components of the ZXR10 2800-4 chassis, see Figure 3-1.
Figure 3-1 Main Components on the Front Side of the ZXR10 2800-4 Chassis
For the front view of the ZXR10 2800-4 chassis, see Figure 3-2.
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ZXR10 ZSR V2 Hardware Description
Figure 3-2 Front View of the ZXR10 2800-4 Chassis
1. Power supply module
2. SPIU line interface board
slots
3. PIU/DPIU line interface
board slots
4. Fan module
5. MPFU slots
For a description of the main components of the ZXR10 2800-4 chassis, refer to Table 3-1.
Table 3-1 Description of the Main Components of the ZXR10 2800-4 Chassis
Component Name
Description
Board area
The ZXR10 2800-4 provides one slot for the main control
forwarding board and at most four slots for line interfaces.
Power supply module
The ZXR10 2800-4 provides two slots for power modules. You can
configure one or two power modules.
Fan module
The ZXR10 2800-4 provides one vertically installed fan module.
3.1.2 Slot Layout
For a front view of the ZXR10 2800-4 chassis, see Figure 3-3.
Figure 3-3 Front View of the ZXR10 2800-4 Chassis
The ZXR10 2800-4 chassis provides five service slots and boards are horizontally installed
in the chassis.
The MPFU is installed in slot 4.
PIUs/DPIUs and SPIUs are installed in slots 0 to 3.
The SPIU slots are applicable to SPIU boards. The PIU slots are applicable to PIU
boards. The DPIU board uses two slots, including one PIU slot and its neighboring
PIU/DPIU slot.
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Chapter 3 ZXR10 2800-4 Chassis
3.1.3 System Parameters
For the system parameters of the ZXR10 2800-4, refer to Table 3-2.
Table 3-2 System Parameters of the ZXR10 2800-4
Parameter
Physical parameter
Specification
Dimensions (width ×
17.41 in. × 3.46 in. × 7.88 in. (442 mm ×88 mm
height × depth)
×200 mm)
Weight (full
< 19.0 lb. (8.6 kg)
configuration)
Maximum power
< 160 W
consumption
Storage capacity
Slot
DC power (single)
Memory
2 GB
FLASH
4 GB
Total number of slots
Number of PIU slots
Redundancy mode
1+1 redundancy, supporting AC and DC mixed
power supply
Maximum output
250 W
power
AC power (single)
Rated input voltage
-60 V DC to -48 V DC
Input voltage range
-72 V DC to -38 V DC
Redundancy mode
1+1 redundancy, supporting AC and DC mixed
power supply
Rated input voltage
100 V AC to 240 V AC
Input frequency range
50 Hz to 60 Hz
Rated output power
250 W
per module
Heat dissipation system
Number of fan
modules
Grounding resistance
Resistance of joint grounding < 5 Ω
3.2 Power Supply
The ZXR10 ZSR V2 series routers support 100 V to 240 V, 50 Hz to 60 Hz AC power
supply and -72 V to -38 V DC power supply. The ZXR10 2800-4 supports AC and DC
mixed power supplies operating in 1+1 redundancy mode, and the power supply modules
are hot swappable.
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A power supply module provides the following functions:
Input/output over/under voltage alarm and protection.
Output over current alarm and protection.
Temperature alarm and overheating protection.
Caution!
Please disconnect all power supply before servicing.
3.2.1 AC Power Supply Module
Panel
For the front view of the AC power supply module of the ZXR10 2800-4, see Figure 3-4.
Figure 3-4 Panel of the AC Power Supply Module
Indicators
For a description of the ZXR10 2800-4 AC power supply indicators, refer to Table 3-3.
Table 3-3 Indicator Descriptions for the ZXR10 2800-4 AC Power Supply Module
Indicator
Number
Color
Description
RUN
Green
Indicates that the power supply module
operates properly.
ALM
Red
Indicates that the power supply module has
an alarm.
Buttons
There is one power button on the ZXR10 2800-4 AC power supply module.
description of the button, refer to Table 3-4.
For a
Table 3-4 Power Button Description for the ZXR10 2800-4 AC Power Supply Module
Button
Description
ON (—)
Powers on the power supply module.
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Button
Description
OFF (O)
Powers off the power supply module.
Technical Parameters
For the technical parameters of the AC power rectifier of the ZXR10 2800-4, refer to Table
3-5.
Table 3-5 Technical Parameters of the AC Power Rectifier of the ZXR10 2800-4
Parameter
Specification
Dimensions (height ×
3.15 in. × 1.57 in. × 6.89 in. (80 mm ×40 mm ×175 mm)
width × depth)
Weight
0.68 kg
Input voltage range
100 V AC to 240 V AC
AC input frequency
50 Hz to 60 Hz
Rated output power
250 W
3.2.2 DC Power Supply Module
Panel
For the front view of the DC power supply module of the ZXR10 2800-4, see Figure 3-5.
Figure 3-5 Panel of the DC Power Supply Module
Indicators
For a description of the ZXR10 2800-4 DC power supply indicators, refer to Table 3-6.
Table 3-6 Indicator Descriptions for the ZXR10 2800-4 DC Power Supply Module
Indicator
Number
Color
Description
RUN
Green
Indicates that the power supply module
operates properly.
ALM
Red
Indicates that the power supply module has
an alarm.
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Buttons
There is one power button on the ZXR10 2800-4 DC power supply module.
description of the button, refer to Table 3-7.
For a
Table 3-7 Power Button Description for the ZXR10 2800-4 DC Power Supply Module
Button
Description
ON (—)
Powers on the power supply module.
OFF (O)
Powers off the power supply module.
Technical Parameters
For the technical parameters of the DC power supply module of the ZXR10 2800-4, refer
to Table 3-8.
Table 3-8 Technical Parameters of the DC Power Supply Module of the ZXR10 2800-4
Parameter
Specification
Dimensions (height × width ×
3.15 in. × 1.57 in. × 6.89 in. (80 mm ×40 mm ×175 mm)
depth)
Weight
1.45 lb. (0.52 kg)
Input voltage range
-72 V DC to -38 V DC
Maximum output power
250 W
Rated input current
8.5 A
3.3 Fan
There is a vertical fan module in the ZXR10 2800-4 chassis, which consists of two fans.
The cool air enters the chassis from its lateral side, flows to the boards and power supply
modules, and then is blown out from the other side.
The fan module can automatically adjust the fan speed according to the equipment
operation and supports the status monitoring and alarm functions.
For the technical specifications of the ZXR10 2800-4 fan module, refer to Table 3-9.
Table 3-9 ZXR10 2800-4 Fan Specifications
Parameter
Specification
Size (W × H × D)
40.8 mm ×81.1 mm ×186 mm
Weight
0.44 kg
Power consumption
30 W
Maximum wind pressure
23 mmH2O
Maximum wind
191 CFM
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Parameter
Specification
Maximum noise
58 dBA
Operation voltage
12 V
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Chapter 4
ZXR10 1800-2S Chassis
The ZXR10 ZSR V2 series routers are highly flexible by using the modular structure, and
the boards and components are hot swappable. The entire router consists of the chassis,
backplane, MPFU, line interface boards, power supply modules, and fan modules.
The ZXR10 1800-2S is a desktop product. The power supply module and MPFU are fixed
in the chassis. The service boards are installed on the rear panel and the rear leading-out
mode is used.
The ZXR10 1800-2S has two extension types configured with wireless modules: ZXR10
1800-2S(G) and ZXR10 1800-2S(W).
The ZXR10 1800-2S(G) has a built-in LTE module, where a SIM card slot is available
for supporting GSM, WCDMA, TD-SCDMA, or LTE networks.
The ZXR10 1800-2S(W) has a built-in WiFi module for supporting the WiFi function.
Table of Contents
Structure ....................................................................................................................4-1
Power Supply .............................................................................................................4-6
4.1 Structure
4.1.1 Overview and Structure
Overview
The height of the ZXR10 1800-2S chassis (excluding the antenna) is 1U (1U = 44.45 mm),
and the dimension (width × height × depth) 380 mm × 43.6 mm × 200 mm. For a description
of the main components of the ZXR10 1800-2S, refer to Table 4-1.
Table 4-1 Descriptions of the Main Components of the ZXR10 1800-2S
Component Name
Description
Board area
The ZXR10 1800-2S provides a maximum of two line interface
card slots.
MPFU
The MPFU of the ZXR10 1800-2S is integrated into the chassis
and cannot be removed.
Power supply module
The power supply module of the ZXR10 1800-2S is integrated on
the device, and cannot be removed or installed.
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Front Panel
Figure 4-1 shows the front view of the ZXR10 1800-2S.
Figure 4-1 ZXR10 1800-2S Front View
Note:
Both of the ZXR10 1800-2S(G) and the ZXR10 1800-2S(W) support the wireless function.
Each of them is configured with a wireless module and a pair of antennas. If no wireless
module is configured, the chassis has no antenna.
Figure 4-2 shows the panel view of the ZXR10 1800-2S.
Figure 4-2 ZXR10 1800-2S Front Panel
For a description of the ZXR10 1800-2S front panel, refer to Table 4-2.
Table 4-2 ZXR10 1800-2S Front Panel Descriptions
Component
Silk Screen Name
Description
USB interfaces
USB1
USB 2.0 interface, used for storing installation
packages and other data, supporting 3G extension
USB2
and commissioning through USB.
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Component
Silk Screen Name
Description
Indicators
ALM
Alarm indicator, red.
PWR
Power supply indicator, green.
SYS
System operation indicator, green.
WIFI/WWAN
Wireless operation indicator, green
If a WiFi module is configured, WIFI is displayed
on the indicator label. This indicator indicates
whether the WiFi function operates properly.
If an LTE module is configured, WWAN is
displayed on the indicator label. This indicator
indicates whether the LTE function operates
properly.
Buttons
RST
Reset button.
WIFI
WiFi function button, which is available only on the
chassis of the ZXR10 1800-2S(W).
WPS
WiFi connection reestablishment button, which
is available only on the chassis of the ZXR10
1800-2S(W).
Note:
The ZXR10 1800-2S without any wireless module does not have the WIFI indicator, WIFI
button, or WPS button.
Rear Panel
Figure 4-3 shows the rear panel of the ZXR10 1800-2S.
Figure 4-3 ZXR10 1800-2S Rear Panel
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Note:
Both of the ZXR10 1800-2S(G) and the ZXR10 1800-2S(W) support the wireless function.
Each of them is configured with a wireless module and a pair of antennas. If no wireless
module is configured, the chassis has no antenna.
For a description of the ZXR10 1800-2S rear panel, refer to Table 4-3.
Table 4-3 ZXR10 1800-2S Rear Panel Descriptions
Component
Silk Screen Name
Description
ANT1–2
Antenna interface
Antenna slot, where an antenna is installed if a
wireless module is configured.
OAM
CON
Network interface
Network port (10M/100M/1000M) used for system
(RJ45)
maintenance and program downloading.
Micro USB interface
Micro USB console interface. The functions are the
same as those of the RJ45 CON/AUX interface.
Either of the Micro USB console interface or the RJ45
CON/AUX interface is used. The priority is high.
CON/AUX
Serial port (RJ45)
Debugging port for system management and
configuration.
GE1–4
GE electrical
4 GE electrical interfaces.
interface
COMBO, GE5–6
Combo interface
2 electrical/optical combo interfaces.
SIM CARD
SIM card interface
SIM card interface for supporting GSM, CDMA2000,
WCDMA, TD-SCDMA, or LTE networks.
LNK/ACT
Indicator
Link status indicators in green for the two Combo
interfaces.
4.1.2 Slot Layout
For a front view of the ZXR10 1800-2S chassis, see Figure 4-4.
Figure 4-4 Front View of the ZXR10 1800-2S Chassis
The ZXR10 1800-2S chassis provides two service slots and boards are horizontally
installed in the chassis.
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Both the power module and the MPFU are integrated into the device. They cannot be
removed.
SPIUs are installed in slots 0 and 1.
4.1.3 System Parameters
For the system parameters of the ZXR10 1800-2S, refer to Table 4-4.
Table 4-4 System Parameters of the ZXR10 1800-2S
Parameter
Specification
Physical
Dimensions (width ×
14.96 in. × 1.72 in. × 7.88 in. (380 mm × 43.6 mm
parameter
height × depth)
× 200 mm)
Weight (full
< 6.83 lb. (3.10 kg)
configuration)
Maximum power
< 55 W
consumption
WiFi function
Supported frequency
2.4 G
band
Supported system
IEEE 802.11b/g/n
standard
Storage capacity
Slot
DC power (single)
Memory
2 GB
FLASH
1 GB
Total number of slots
Number of PIU slots
Maximum output
60 W
power
AC power (single)
Rated input voltage
-60 V DC to -48 V DC
Input voltage range
-72 V DC to -38 V DC
Rated input voltage
100 V AC to 240 V AC
Input frequency range
50 Hz –60 Hz
Rated output power
60 W
per module
Grounding resistance
Resistance of joint grounding < 5 Ω
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4.2 Power Supply
Function
The ZXR10 ZSR V2 series routers support 100 V to 240 V, 50 Hz to 60 Hz AC power supply
and -72 V to -38 V DC power supply. The ZXR10 1800-2S uses either one AC power
supply or one DC power supply, and the power supply modules are not hot swappable.
A power supply module provides the following functions:
Input/output over/under voltage alarm and protection.
Output over current alarm and protection.
Temperature alarm and overheating protection.
Buttons
There is one power button on the ZXR10 1800-2S power supply module, see Figure 4-5.
For a description of the button, refer to Table 4-5.
Figure 4-5 Power Button
Table 4-5 Power Button Description for the ZXR10 1800-2S AC Power Supply Module
Button
Description
ON
Powers on the power supply module.
OFF
Powers off the power supply module.
Technical Parameters
For the technical parameters of the AC power rectifier of the ZXR10 1800-2S, refer to Table
4-6.
Table 4-6 Technical Parameters of the AC Power Rectifier of the ZXR10 1800-2S
Parameter
Specification
Input voltage range
100 V AC to 240 V AC
AC input frequency
50 Hz – 60 Hz
Rated output power
60 W
For the technical parameters of the DC power rectifier of the ZXR10 1800-2S, refer to Table
4-7.
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Table 4-7 Technical Parameters of the DC Power Rectifier of the ZXR10 1800-2S
Parameter
Specification
Input voltage range
-72 V DC to -38 V DC
Rated output power
60 W
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Chapter 5
ZXR10 2800-3E Chassis
The ZXR10 ZSR V2 serial routers have a structure designed based on modularization. The
boards and components support online hot swapping and have a flexible expendability.
A ZXR10 2800-3E chassis is composed of a subrack, a backplane, a controlling and
transferring unit, line interface boards, power modules, and fan modules.
The ZXR10 2800-3E subrack has a sheet metal structure. Wherein the controlling and
transferring unit and fan modules are fixed on a ZXR10 ZSR V2 router, the service board
and power modules are installed at the back, cables are led out from the back, and three
line interface boards can be installed. The entire ZXR10 2800-3E chassis has a standard
width of 19" and can be installed into a standard IEC297 cabinet or an ETSI cabinet.
A ZXR10 2800-3E(G) submodel can be derived from a ZXR10 2800-3E chassis by
expanding the wireless function module. The ZXR10 2800-3E(G) submodel has a 3G or
LTE module inside and a slot for a SIM card on the panel, supporting a GSM, WCDMA,
TD-SCDMA, or LTE network.
Table of Contents
Structure ....................................................................................................................5-1
Power Supplies ..........................................................................................................5-5
5.1 Structure
5.1.1 Overview and Structure
Overview
A chassis of a ZXR10 2800-3E router has a height (without the antenna) of about 1 U
(1U=44.45 mm), and a dimension of 442 mm × 44 mm × 440 mm (width × height × depth).
For its components and descriptions, refer to Table 5-1.
Table 5-1 Main Components of a ZXR10 2800-3E Chassis
Component
Description
Controlling and transferring
Integrated on the router and cannot be plugged or unplugged.
board
Boards
The ZXR10 2800-3E chassis provides three slots for line interface
boards.
Power modules
The ZXR10 2800-3E chassis provides two slots for one or two
power modules.
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Front Panel
The following describes the front view and front panel of a ZXR10 2800-3E chassis.
Figure 5-1 shows the front view of a ZXR10 2800-3E chassis.
Figure 5-1 Front Structure Graph for a ZXR10 2800-3E Chassis
Note:
The ZXR10 2800-3E(G) submodel of the ZXR10 2800-3E chassis supports the
wireless function, with a built-in wireless module and antennas. If the wireless
module is not configured, the chassis does not have an antenna.
Figure 5-2 shows the front panel of a ZXR10 2800-3E chassis.
Figure 5-2 Front Panel of a ZXR10 2800-3E Chassis
For a description of the front panel, refer to Table 5-2.
Table 5-2 Descriptions of Interfaces on the Front Panel of a ZXR10 2800-3E Chassis
Part Type
Description
Antenna interface
Antenna slot.
GE interface
24 GE electrical interfaces, supporting the route switching function.
COMBO interfaces
Two Combo interfaces.
USB interfaces
USB2.0 interfaces, which are used to store applications and other
data and support commissioning.
Network interface (RJ45)
Maintenance network interface (10M/100M/1000M), which is used
for system control and application download.
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Part Type
Description
Micro USB interfaces
Console interfaces of the Micro USB model, which have the same
functions as those of the CON/AUX interfaces of the RJ45 model
but a higher priority. Select either one.
Serial interface (RJ45)
Debugging serial interfaces (Console/AUX interfaces) of the RJ45
model, which are used for device management and function
configuration.
Interface for a SIM card
Interface for a 3G or LTE SIM card.
Buttons
WIFI function button.
Button for re-establishing a WIFI connection.
System reset button.
Indicators
Green indicators for link status of two Combo interfaces.
Red indicator for system faults.
Green indicator for system operation status.
Green indicator for the operation status of the 3G or LTE network.
Back Panel
Figure 5-3 shows the back panel of a ZXR10 2800-3E chassis.
Figure 5-3 Back Panel of a ZXR10 2800-3E Chassis
1. Slot for an interface board
of the SPIU line
2. Power module
3. Slot for an interface board
of the PIU/SPIU line
5.1.2 Slot Deployment
Figure 5-4 shows slots and slot IDs on the back of a ZXR10 2800-3E chassis.
Figure 5-4 Slots on the Back of a ZXR10 2800-3E Chassis
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A ZXR10 2800-3E chassis has a structure suitable for horizontal installation. Three service
board slots are designed for the chassis, which are numbered as 0-2 in order. Wherein:
Slot 0 is used for an SPIU interface board.
Slot 1 is used an SPIU interface board.
Slot 2 is used a PIU or DPIU interface board.
5.1.3 System Parameters
For system parameters of a ZXR10 2800-3E chassis, refer to Table 5-3.
Table 5-3 System Parameters of a ZXR10 2800-3E Chassis
Item
Physical Parameters
Physical Parameters
Dimension (width × height ×
17.41 in. × 1.73 in. × 17.32 in. (442 mm ×44
depth)
mm ×440 mm)
Weight (with full
< 19.0 lb. (8.6 kg)
configuration)
Maximum power
< 120 W
consumption
Storage capacity
Slot
Memory
2 GB
Flash
4 GB
Number of slots
Number of slots for line
interface boards
DC power (single)
Redundancy backup
1+1 redundancy backup, supporting both AC
and DC powers.
Rated output power
250 W
Rated input voltage
From -60 V DC to -48 V DC
Range of the maximum input
From -72 V DC to -38 V DC
voltage
AC power (single)
Redundancy backup
1+1 redundancy backup, supporting both AC
and DC powers.
Rated input voltage
100 V AC–240 V AC
Range of the input frequency
50 Hz–60 Hz
Rated output power
250 W
Grounding resistance
Grounding resistance with common earthing,
which is lower than 5 Ω.
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5.2 Power Supplies
ZXR10 ZSR V2 serial routers support a voltage within the range of 100 V–240 V, AC power
of 50 Hz –60 Hz, and DC power from -38 V to -72 V. The 1+1 dual-power redundancy mode
and power supply swapping are available.
The power modules have the following functions:
Alarms are generated due to a high input or output voltage.
Alarms are generated due to a high output current.
Alarms are generated due to a high or low temperature.
Caution!
Turn off both power supplies before installing and maintaining the ZXR10 ZSR V2.
5.2.1 AC Power Module
Panel
Figure 5-5 shows the panel of the AC power module of a ZXR10 2800-3E chassis.
Figure 5-5 Panel of the AC Power Module
Indicators
For functions of the indicators on the AC power module of the ZXR10 2800-3E chassis,
refer to Table 5-4.
Table 5-4 Functions of the Indicators on the Panel of the AC Power Module of the
ZXR10 2800-3E Chassis
Indicator
Number
Color
Description
RUN
Green
The power module is operating properly.
ALM
Red
The power module is operating improperly.
Buttons
For functions of the power buttons on the AC power module of the ZXR10 2800-3E chassis,
refer to Table 5-5.
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Table 5-5 Functions of the Power Buttons of the AC Power Module of the ZXR10
2800-3E Chassis
Button
Description
ON (—)
Dial the button to ON to turn on the module.
OFF (O)
Dial the button to OFF to turn off the power.
Technical Parameters
For technical parameters of a rectifier of the AC power module of the ZXR10 2800-3E
chassis, refer to Table 5-6.
Table 5-6 Technical Parameters of the AC Power of the ZXR10 2800-3E Chassis
Parameter
Description
Dimension (width × height
3.15 in. × 1.57 in. × 6.89 in. (80 mm ×40 mm ×175 mm)
× depth)
Weight
0.68 kg
Range of the input voltage
100 V AC–240 V AC
Input AC frequency
50 Hz–60 Hz
Rated output power
250 W
5.2.2 DC Power Module
Panel
Figure 5-6 shows the panel of the DC power module of a ZXR10 2800-3E chassis.
Figure 5-6 Panel of the DC Power Module
Indicators
For functions of the indicators on the DC power module of the ZXR10 2800-3E chassis,
refer to Table 5-7.
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Table 5-7 Functions of the Indicators on the Panel of the DC Power Module of the
ZXR10 2800-3E Chassis
Indicator
Number
Color
Description
RUN
Green
The power module is operating properly.
ALM
Red
The power module is operating improperly.
Buttons
For functions of the power buttons on the DC power module of the ZXR10 2800-3E chassis,
refer to Table 5-8.
Table 5-8 Functions of the Power Buttons of the DC Power Module of the ZXR10
2800-3E Chassis
Button
Description
ON (—)
Dial the button to ON to turn on the module.
OFF (O)
Dial the button to OFF to turn off the power.
Technical Parameters
For technical parameters of the DC power module of the ZXR10 2800-3E chassis, refer to
Table 5-9.
Table 5-9 Technical Parameters of the DC Power Module of the ZXR10 2800-3E Chassis
Parameter
Description
Dimension (width × height ×
3.15 in. × 1.57 in. × 6.89 in. (80 mm ×40 mm ×175 mm)
depth)
Weight
0.52 kg
Range of the input voltage
From -72 V DC to -38 V DC
Rated output power
250 W
Rated input current
8.5 A
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Chapter 6
ZXR10 1800-2E Chassis
ZXR10 ZSR V2 series routers have a modular structure. The boards and components
support hot swapping and have flexible expandability. A ZXR10 2800-3E chassis is
composed of a subrack, a backplane, a controlling and transferring unit, line interface
boards, power modules, and fan modules.
A ZXR10 1800-2E subrack has a sheet metal structure. The controlling and transferring
unit and fan modules are fixed on the router, service board and power modules are installed
at the back, cables are led out from the back, and two line interface boards can be installed.
A ZXR10 1800-2E chassis has a standard width of 19" and can be installed into a standard
IEC297 cabinet or an ETSI cabinet.
A ZXR10 1800-2E(G) submodel can be derived from a ZXR10 1800-2E chassis by
expanding the wireless function module. A ZXR10 1800-2E(G) has a 3G or LTE module
inside and a slot for a SIM card on the panel, supporting a GSM, WCDMA, TD-SCDMA,
or LTE network.
Table of Contents
Structure ....................................................................................................................6-1
Power Supplies ..........................................................................................................6-4
6.1 Structure
6.1.1 Overview and Structure
Overview
A chassis of a ZXR10 1800-2E router has a height (without the antenna) of about 1 U
(1U=44.45 mm), and a dimension of 442 mm × 44 mm × 440 mm (width × height × depth).
For its components and descriptions, refer to Table 6-1.
Table 6-1 Main Components of a ZXR10 1800-2E Chassis
Component
Description
Controlling and transferring
The controlling and transferring board of a ZXR10 1800-2E chassis
board
is integrated on the router and cannot be plugged or unplugged.
Board
The ZXR10 1800-2E chassis provides two slots for line interface
boards.
Power module
The ZXR10 1800-2E chassis provides two slots for one or two
power modules.
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Front View
The following describes the structure of a ZXR10 1800-2E chassis and its front panel.
Figure 6-1 shows the front view of a ZXR10 1800-2E chassis.
Figure 6-1 Front View of a ZXR10 1800-2E Chassis
Note:
The ZXR10 1800-2E(G) submodel of the ZXR10 1800-2E chassis supports the
wireless function, with a built-in wireless module and an antenna. If the wireless
module is not configured, the chassis does not have an antenna.
Figure 6-2 shows the front panel of a ZXR10 1800-2E chassis.
Figure 6-2 Front Panel of a ZXR10 1800-2E Chassis
For a description of the front panel, refer to Table 6-2.
Table 6-2 Descriptions of Interfaces on the Front Panel of a ZXR10 1800-2E Chassis
Component Type
Description
Antenna interfaces
Antenna slots.
GE interfaces
24 GE electrical interfaces.
COMBO interfaces
Two Combo interfaces.
USB interfaces
USB2.0 interfaces, which are used to store applications and other
data and support commissioning.
Network interfaces (RJ45)
Maintenance network interfaces (10M/100M/1000M), which are
used to control the system and download applications.
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Component Type
Description
Micro USB interfaces
Console interfaces of the Micro USB model, which have the same
functions as those of the CON/AUX interfaces of the RJ45 model
but a higher priority. Select either one.
Serial interfaces (RJ45)
Debugging serial interfaces (Console/AUX interfaces) of the RJ45
model, which are used to manage routers and configure functions.
Interface for a SIM card
Interface for a 3G or LTE SIM card.
Buttons
WIFI function button.
Button for re-establishing a WIFI connection.
System reset button.
Indicators
Green indicators for link statuses of two Combo interfaces.
Red indicator for system faults.
Green indicator for system operation status.
Green indicator for the operation status of a 3G or LTE network.
Back Panel
Figure 6-3 shows the back panel of a ZXR10 1800-2E chassis.
Figure 6-3 Back Panel of a ZXR10 1800-2E Chassis
1. Slots for SPIU line interface
boards
2. Power modules
6.1.2 Slots
Figure 6-4 shows slots and slot IDs on the back of a ZXR10 1800-2E chassis.
Figure 6-4 Slots on the Back of a ZXR10 1800-2E Chassis
A ZXR10 1800-2E chassis has a structure suitable for horizontal installation. Two service
board slots are designed for the chassis, which are numbered as 0-1 in order. Slots 0 and
1 are used to install SPIU interface boards.
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6.1.3 System Parameters
For system parameters of a ZXR10 1800-2E router, refer to Table 6-3.
Table 6-3 System Parameters of a ZXR10 1800-2E Chassis
Item
Physical Parameters
Physical Parameters
Dimension (width × height ×
17.41 in. × 1.73 in. × 17.32 in. (442 mm ×44
depth)
mm ×440 mm)
Weight (with full
< 19.0 lb. (8.6 kg)
configuration)
Maximum power
< 80 W
consumption
Storage capacity
Slot
Memory
2 GB
FLASH
1 GB
Number of slots
Number of slots for line
interface boards
DC power (single)
Redundancy backup
1+1 redundancy backup, supporting both AC
and DC
Rated output power
250 W
Rated input voltage
From -60 V DC to -48 V DC
Range of the maximum input
From -72 V DC to -38 V DC
voltage
AC power (single)
Redundancy backup
1+1 redundancy backup, supporting both AC
and DC
Rated input voltage
100 V AC–240 V AC
Range of the input frequency
50 Hz–60 Hz
Rated output power
250 W
Grounding resistance
Grounding resistance with common earthing,
which is lower than 5 Ω
6.2 Power Supplies
ZXR10 ZSR V2 serial routers support a voltage within the range of 100 V–240 V, AC power
of 50 Hz–60 Hz, and DC power from -38 V to -72 V. The 1+1 dual-power redundancy mode
and power supply swapping are available.
The power modules have the following functions:
Alarms are generated due to a high or low input or output voltage.
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Alarms are generated due to a high output current.
Alarms are generated due to a high or low temperature.
Caution!
Turn off both power supplies before installing and maintaining the ZXR10 ZSR V2.
6.2.1 AC Power Module
Panel
Figure 6-5 shows the panel of the AC power module of a ZXR10 1800-2E chassis.
Figure 6-5 Panel of the AC Power Module
Indicators
For functions of the indicators on the AC power module of the ZXR10 1800-2E chassis,
refer to Table 6-4.
Table 6-4 Functions of the Indicators on the Panel of the AC Power Module of the
ZXR10 1800-2E Chassis
Indicator
Number
Color
Description
RUN
Green
The power module is operating properly.
ALM
Red
The power module is operating improperly.
Buttons
For functions of the power buttons on the AC power module of the ZXR10 1800-2E chassis,
refer to Table 6-5.
Table 6-5 Functions of the Power Buttons of the AC Power Module of the ZXR10
1800-2E Chassis
Button
Description
ON (—)
Dial the button to ON to turn on the module.
OFF (O)
Dial the button to OFF to turn off the power.
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Technical Parameters
For technical parameters of the rectifier of the AC power module of the ZXR10 1800-2E
chassis, refer to Table 6-6.
Table 6-6 Technical Parameters of the AC Power of the ZXR10 1800-2E Chassis
Parameter
Description
Dimension (width × height × depth)
3.15 in. × 1.57 in. × 6.89 in. (80 mm ×40 mm ×175
mm)
Weight
0.68 kg
Range of the input voltage
100 V AC–240 V AC
Input AC frequency
50 Hz–60 Hz
Rated output power
250 W
6.2.2 DC Power Module
Panel
Figure 6-6 shows the panel of the DC power module of a ZXR10 1800-2E chassis.
Figure 6-6 Panel of the DC Power Module
Indicators
For functions of the indicators on the DC power module of the ZXR10 1800-2E chassis,
refer to Table 6-7.
Table 6-7 Functions of the Indicators on the Panel of the DC Power Module of the
ZXR10 1800-2E Chassis
Indicator
Number
Color
Description
RUN
Green
The power module is operating properly.
ALM
Red
The power module is operating improperly.
Buttons
For functions of the power buttons on the DC power module of the ZXR10 1800-2E chassis,
refer to Table 6-8.
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Table 6-8 Functions of the Power Buttons of the DC Power Module of the ZXR10
1800-2E Chassis
Button
Description
ON (—)
Dial the button to ON to turn on the module.
OFF (O)
Dial the button to OFF to turn off the power.
Technical Parameters
For technical parameters of the DC power module of the ZXR10 1800-2E chassis, refer to
Table 6-9.
Table 6-9 Technical Parameters of the DC Power Module of the ZXR10 1800-2E Chassis
Parameter
Description
Dimension (width × height × depth)
3.15 in. × 1.57 in. × 6.89 in. (80 mm ×40 mm ×175 mm)
Weight
0.52 kg
Range of the input voltage
From -72 V DC to -38 V DC
Rated output power
250 W
Rated input current
8.5 A
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Chapter 7
MPFU
The Management and Packet Forwarding Unit (MPFU) is the control node of the router.
The MPFU forwards packets and manages and maintains the entire device.
The MPFU consists of the packet forwarding module, management and control module,
clock processing module, and alarm monitoring module. It forwards packets, and manages
the system clock source, control plane, system maintenance plane and environmental
monitoring plane.
The packet forwarding module classifies and forwards the packets that the line
interface boards receive and controls the packet traffic.
The management and control module provides the following functions:
à
Processes protocols and signaling messages to control and notify the system
status. The route protocol control layer and the configuration and operation layer
are separated to enhance the control layer stability and equipment manageability.
à
Configures and maintains the system status. It provides the system data
configuration and upgrade functions and system operation logs. It supports two
types of management interfaces: serial port and RJ45 port.
The alarm monitoring module monitors the operation conditions of the boards, power
supply modules, and fan modules and generates alarms when necessary. It provides
a user-friendly man-machine interface through the CLI or SNMP network management
system.
The MPFU of the ZXR10 2800-3E, ZXR10 1800-2E or ZXR10 1800-2S is integrated into
the chassis and cannot be removed.
The MPFU boards of the ZXR10 2800-4 and ZXR10 3800-8 can be divided into three
types: RAC-2838-MPFU-A, RAC-2838-MPFU-B, and RAC-2838-MPFU-C.
Table of Contents
RAC-2838-MPFU-A....................................................................................................7-1
RAC-2838-MPFU-B/RAC-2838-MPFU-C ...................................................................7-3
7.1 RAC-2838-MPFU-A
Overview
RAC-2838-MPFU-A is the type A MPFU of the ZXR10 2800-4 and ZXR10 3800-8. The
MPFU provides the following functions:
Supports hot swapping with a modular structure.
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Supports separation of the forwarding plane and control plane.
Panel
For the panel of the RAC-2838-MPFU-A, see Figure 7-1.
Figure 7-1 Panel of the RAC-2838-MPFU-A
Interfaces
For a description of the interfaces of the RAC-2838-MPFU-A, refer to Table 7-1.
Table 7-1 Description of the Interfaces of the RAC-2838-MPFU-A
Interface Type
Silk Screen Name
Description
Network interface
OAM
Network port (10M/100M/1000M) used for system
(RJ45)
maintenance and program downloading
Serial port (RJ45)
CONSOLE
Debugging port for system management and
configuration
AUX
Debugging serial port of a PIU and Modem
convergence port
USB interface
USB1
USB2.0 interface, which transmits the program data
and other data
USB2
GE electronic
GE3–6
Four GE electronic interfaces
COMBO1/2, GE1–2
Two COMBO interfaces
interface
COMBO interface
Indicators
For a description of the LED indicators on the panel of the RAC-2838-MPFU-A, refer to
Table 7-2.
Table 7-2 Indicator Descriptions for the RAC-2838-MPFU-A
Indicator
Number
Color
Description
RUN
Green
The indicator is lit when the board is operating
properly.
ALM
Red
The indicator is lit if the board is not operating
properly.
LINK/ACT
Green
Link state indicators of COMBO interfaces.
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Buttons
For a description of the RST button on the panel of the RAC-2838-MPFU-A, refer to Table
7-3.
Table 7-3 RST Button Description for the RAC-2838-MPFU-A
Button
Description
RST
Resets the board.
Technical Parameters
For the technical parameters of the RAC-2838-MPFU-A, refer to Table 7-4.
Table 7-4 Technical Parameters of the RAC-2838-MPFU-A
Parameter
Specification
Silk screen name
RAC-2838-MPFU-A
Dimensions (H × W × D)
11.7 in. × 1.58 in. × 6.9 in. (296.3 mm ×40.24 mm ×175 mm)
Power consumption
35 W
Weight
2.38 lb. (1.08 kg)
7.2 RAC-2838-MPFU-B/RAC-2838-MPFU-C
Overview
The RAC-2838-MPFU-B and RAC-2838-MPFU-C are MPFU boards of the ZXR10 2800-4
and ZXR10 3800-8.
The RAC-2838-MPFU-B and RAC-2838-MPFU-C with different forwarding capacity
are provided for the ZXR10 2800-4 and ZXR10 3800-8.
Both of them support hot swapping with a modular structure.
Both of them support separation of the forwarding plane and control plane.
Panel
The RAC-2838-MPFU-B and RAC-2838-MPFU-C have the same overview except the silk
screen name. For an overview of the RAC-2838-MPFU-B/RAC-2838-MPFU-C, see Figure
7-2.
Figure 7-2 RAC-2838-MPFU-B and RAC-2838-MPFU-C
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Interfaces
For a description of the interfaces of the RAC-2838-MPFU-B/RAC-2838-MPFU-C, refer to
Table 7-5.
Table 7-5 Description of the Interfaces of the RAC-2838-MPFU-B/RAC-2838-MPFU-C
Interface Type
Silk Screen Name
Description
Network interface
OAM
Network port (10M/100M/1000M) used for system
(RJ45)
maintenance and program downloading
CONSOLE
Debugging port for system management and
configuration
Serial port (RJ45)
AUX
Debugging serial port of a PIU and Modem
convergence port
USB1
USB2.0 interface, which transmits the program data
USB2
and other data
GE5–6
Two GE electronic interfaces
COMBO1/2,
Four COMBO interfaces
USB interface
GE electronic
interface
COMBO interface
COMBO3/4, GE1–4
Indicators
For
description
of
the
LED
indicators
on
RAC-2838-MPFU-B/RAC-2838-MPFU-C, refer to Table 7-6.
the
panel
of
the
Table 7-6 Description of the Indicators on the Panel of the
RAC-2838-MPFU-B/RAC-2838-MPFU-C
Indicator
Number
Color
Description
RUN
Green
The indicator is lit when the board is
operating properly.
ALM
Red
The indicator is lit if the board is not
operating properly.
LINK/ACT
Green
Link state indicators of COMBO interfaces.
Buttons
For
description
of
the
RST
button
on
RAC-2838-MPFU-B/RAC-2838-MPFU-C, refer to Table 7-7.
the
panel
of
the
Table 7-7 Description of the RST Button on the Panel of the
RAC-2838-MPFU-B/RAC-2838-MPFU-C
Button
Description
RST
Resets the board.
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Technical Parameters
For the technical parameters of the RAC-2838-MPFU-B/RAC-2838-MPFU-C, refer to
Table 7-8.
Table 7-8 Technical Parameters of the RAC-2838-MPFU-B/RAC-2838-MPFU-C
Parameter
Specification
Silk screen name
RAC-2838-MPFU-B/RAC-2838-MPFU-C
Dimensions (H × W × D)
11.7 in. × 1.58 in. × 6.9 in. (296.3 mm ×40.24 mm ×175 mm)
Power consumption
35 W
Weight
2.38 lb. (1.08 kg)
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Chapter 8
General Processing Boards
General processing boards are installed in slots for full-height DPIU interface cards and
used to classify and monitor messages from the main control board.
Table of Contents
RAC-DPIU-OSU-A1 ...................................................................................................8-1
RAC-DPIU-OSU-A2 ...................................................................................................8-3
RAC-DPIU-FW-A........................................................................................................8-4
8.1 RAC-DPIU-OSU-A1
Overview
As the general processing board of the ZXR10 2800-4 and ZXR10 3800-8, an
RAC-DPIU-OSU-A1 board is installed in a slot for a full-height DPIU interface card and
has the following functions:
Classifies, monitors, filters, and transfers received messages depending on
applications.
Provides four lines of high-speed serial interfaces for the internal gigabit Ethernet and
one line of electrical interface for the external gigabit Ethernet.
GE electrical interfaces support 10BASE-T/100BASE-TX/1000BASE-T.
Panel
For the panel of the RAC-DPIU-OSU-A1 board of the general processing board, see Figure
8-1.
Figure 8-1 Panel of an RAC-DPIU-OSU-A1 Board
Interfaces
For a description of interfaces on the RAC-DPIU-OSU-A1 board, refer to Table 8-1.
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Table 8-1 Descriptions of Interfaces on the RAC-DPIU-OSU-A1 Board
Interface Type
Description
Network interface (RJ45)
Service network interface, a 10/100/1000BASE-T electrical interface.
Serial interface (RJ45)
Serial interface interconnected with a PC.
VGA interface (DB15)
X86 VGA output interface.
USB interfaces
USB2.0 interfaces used to install the X86 system.
Indicators
The RAC-DPIU-OSU-A1 board provides multiple LED indicators on its panel. For their
functions, refer to Table 8-2.
Table 8-2 Functions of the Indicators on the Panel of the RAC-DPIU-OSU-A1 Board
Indicator
Color
ALM
Red
Description
If this indicator is solid on or flashing, the board is
faulty.
RUN
Green
Indicates that the board is operating properly.
Buttons
The RAC-DPIU-OSU-A1 board provides two buttons on its panel. For their functions, refer
to Table 8-3.
Table 8-3 Functions of the Buttons on the Panel of the RAC-DPIU-OSU-A1 Board
Button
Description
RST
Board reset button
PWR
Board power button
Technical Parameters
For technical parameters of the RAC-DPIU-OSU-A1 board, refer to Table 8-4.
Table 8-4 Technical Parameters of the RAC-DPIU-OSU-A1 Board
Parameter
Description
Board name silk screen
RAC-DPIU-OSU-A1
Dimension (width × height × depth)
7.76 in. × 1.58 in. × 6.9 in. (197.2 mm ×40.24 mm
×175 mm)
Power consumption
40 W
Weight
2.71 lb. (1.23 kg)
Memory
Default capacity (byte)
4 G or 8 G (optional)
Hard disk
Default capacity (byte)
500 G or 1 T (optional)
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8.2 RAC-DPIU-OSU-A2
Overview
As the general processing board of the ZXR10 2800-4 and ZXR10 3800-8, an
RAC-DPIU-OSU-A2 board is installed in a slot for a full-height DPIU interface card and
has the following functions:
Classifies, monitors, filters, and transfers received messages depending on
applications.
Provides four lines of high-speed serial interfaces for the internal gigabit Ethernet and
one line of electrical interface for the external gigabit Ethernet.
GE electrical interfaces support 10BASE-T/100BASE-TX/1000BASE-T.
Panel
For the panel of the RAC-DPIU-OSU-A2 board of the general processing board, see Figure
8-2.
Figure 8-2 Panel of an RAC-DPIU-OSU-A2 Board
Interfaces
For a description of interfaces on the RAC-DPIU-OSU-A2 board, refer to Table 8-5.
Table 8-5 Description of Interfaces on the RAC-DPIU-OSU-A2 Board
Interface Type
Description
Network interface (RJ45)
Service network interface, a 10/100/1000BASE-T electrical
interface.
Serial interface (RJ45)
Serial interface interconnected with a PC.
VGA interface (DB15)
X86 VGA output interface.
USB interfaces
USB2.0 interfaces used to install the X86 system.
Indicator
The RAC-DPIU-OSU-A2 board provides multiple LED indicators on its panel. For their
functions, refer to Table 8-6.
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Table 8-6 Functions of the Indicators on the Panel of the RAC-DPIU-OSU-A2 Board
Indicator
Color
Description
ALM
Red
If this indicator is solid on or flashing, the board is
faulty.
RUN
Green
Indicates that the board is operating properly.
Button
The RAC-DPIU-OSU-A2 board provides two buttons on its panel. For their functions, refer
to Table 8-7.
Table 8-7 Functions of the Buttons on the Panel of the RAC-DPIU-OSU-A2 Board
Button
Description
RST
Board reset button
PWR
Board power button
Technical Parameters
For technical parameters of the RAC-DPIU-OSU-A2 board, refer to Table 8-8.
Table 8-8 Technical Parameters of the RAC-DPIU-OSU-A2 Board
Parameter
Description
Board name silk screen
RAC-DPIU-OSU-A2
Dimension (width × height × depth)
7.76 in. × 1.58 in. × 6.9 in. (197.2 mm ×40.24 mm
×175 mm)
Power consumption
40 W
Weight
2.71 lb. (1.23 kg)
Memory
Default capacity (byte)
4 G or 8 G (optional)
Hard disk
Default capacity (byte)
500 G or 1 T (optional)
8.3 RAC-DPIU-FW-A
Overview
As a firewall board of the ZXR10 3800-8 and ZXR10 2800-4, an RAC-DPIU-FW-A board
is installed in a slot for a full-height DPIU interface card and has the following functions:
Classifies, monitors, filters, and transfers received messages depending on
applications.
Provides four lines of high-speed serial interfaces for the internal gigabit Ethernet and
one line of electrical interface for the external gigabit Ethernet.
GE electrical interfaces support 10BASE-T/100BASE-TX/1000BASE-T.
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Panel
For the panel of the RAC-DPIU-FW-A board, see Figure 8-3.
Figure 8-3 Panel of an RAC-DPIU-FW-A Board
Interfaces
For a description of interfaces on a RAC-DPIU-FW-A board, refer to Table 8-9.
Table 8-9 Description of Interfaces on an RAC-DPIU-FW-A Board
Interface Type
Description
Network interface (RJ45)
Service network interface, a 10/100/1000BASE-T electrical
interface.
Serial interface (RJ45)
Serial interface interconnected with a PC.
VGA interface (DB15)
X86 VGA output interface.
USB interfaces
USB2.0 interfaces used to install the X86 system.
Indicators
For functions of LED indicators on the panel of a RAC-DPIU-FW-A board, refer to Table
8-10.
Table 8-10 Functions of Indicators on the Panel of an RAC-DPIU-FW-A Board
Indicator
Color
Description
ALM
Red
If this indicator is solid on or flashing, the board is
faulty.
RUN
Green
Indicates that the board is operating properly.
Buttons
An RAC-DPIU-FW-A board has two buttons on its panel. For their functions, refer to Table
8-11.
Table 8-11 Functions of Buttons on the Panel of an RAC-DPIU-FW-A Board
Button
Description
RST
Board reset button.
PWR
Board power button.
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Technical Parameters
For technical parameters of an RAC-DPIU-FW-A board, refer to Table 8-12.
Table 8-12 Technical Parameters of an RAC-DPIU-FW-A Board
Parameter
Description
Board name silk screen
RAC-DPIU-FW-A
Dimension (width × height × depth)
7.76 in. × 1.58 in. × 6.9 in. (197.2 mm ×40.24 mm
×175 mm)
Power consumption
35 W
Weight
2.31 lb. (1.05 kg)
Memory
Default capacity (byte)
4 G or 8 G (optional)
Hard disk
Default capacity (byte)
2G
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Chapter 9
Line Interface Boards
A line interface board is an external interface of a wire-speed router and implements
the access of interfaces of various rates and types. The board provides one or more
high-speed network interfaces. The ZXR10 ZSR V2 provides various line interface boards
and supports various interface rates and port density to meet the requirements of different
networks and services.
For the types of line interface boards that the ZXR10 ZSR V2 series routers support, refer
to Table 9-1.
Table 9-1 Line Interface Board Types
Type
DPIU (full-height)
Dimensions (Width ×
Applicable
Slot
Height × Depth)
Device
7.76 in. × 1.58 in. × 6.9
3800-8, 2800-4
3800-8: combined slots 1 and
in. (197.2 mm ×40.24 mm
3, or combined slots 5 and 7
×175 mm)
2800-4: combined slots 1 and
DPIU (full-height)
7.76 in. × 0.79 in. × 6.9
3800-8, 2800-4,
3800-8: slot 3 or 7
in. (197.2 mm ×19.92 mm
2800-3E
2800-4: slot 3
×175 mm)
PIU
2800-3E: slots 2
7.76 in. × 0.79 in. × 6.9
3800-8, 2800-4,
3800-8: slot 1, 3, 5, or 7
in. (197.2 mm ×19.92 mm
2800-3E
2800-4: slot 1 or 3
×175 mm)
SPIU
2800-3E: slot 2
3.86 in. × 0.79 in. × 6.9
3800-8, 2800-4,
3800-8: slot 0, 2, 4, or 6
in. (98.1 mm ×19.92 mm
1800-2S, 2800-3E,
2800-4: slot 0 or 2
×175 mm)
1800-2E
1800-2S: slot 0 or 1
2800-3E: slot 0 or 1
1800-2E: slot 0 or 1
The DPIU is a fast-speed interface board, and the PIU and SPIU are common-speed
interface boards. The ZXR10 2800-4 and ZXR10 3800-8 support the combination of
different types of line interface boards.
Table of Contents
RAC-SPIU-02CE1-75 .................................................................................................9-2
RAC-SPIU-02UE1-75 .................................................................................................9-3
RAC-SPIU-02CE1-120 ...............................................................................................9-5
RAC-SPIU-02UE1-120 ...............................................................................................9-6
RAC-SPIU-02HS ........................................................................................................9-8
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RAC-SPIU-04GE........................................................................................................9-9
RAC-PIU-LTE...........................................................................................................9-11
RAC-PIU-01DSLB ....................................................................................................9-13
RAC-PIU-04SHDSL .................................................................................................9-15
RAC-PIU-04HS .......................................................................................................9-16
RAC-PIU-04CE1-75 .................................................................................................9-18
RAC-PIU-04CE1-120 ...............................................................................................9-19
RAC-PIU-04UE1-75 .................................................................................................9-21
RAC-PIU-04UE1-120 ...............................................................................................9-22
RAC-PIU-16CE1 ......................................................................................................9-23
RAC-PIU-16CE1-CES ..............................................................................................9-25
RAC-PIU-01P12-SFP ...............................................................................................9-26
RAC-PIU-02P3-SFP.................................................................................................9-28
RAC-PIU-04P3-SFP.................................................................................................9-29
RAC-PIU-02CP3-SFP ..............................................................................................9-31
RAC-PIU-04CP3-SFP ..............................................................................................9-32
RAC-PIU-04GE-SFP ................................................................................................9-34
RAC-PIU-08GE-SFP ................................................................................................9-35
RAC-PIU-05GE-4E1SFP..........................................................................................9-36
RAC-PIU-09GE-8E1SFP..........................................................................................9-39
RAC-PIU-08FE1GE-1SFP........................................................................................9-41
RAC-DPIU-16GE-12SFP4E .....................................................................................9-43
RAC-DPIU-01XGE-SFP+ .........................................................................................9-45
9.1 RAC-SPIU-02CE1-75
Overview
RAC-SPIU-02CE1-75 board provides the following functions:
Provides two channelized/unchannelized E1 (75 ohm) interfaces.
Restores the line clock and providing it to an MPFU board for reference.
Supports the processing of various services, such as PPP and ML-PPP.
Supports hot swapping.
Supports board information query and temperature monitoring.
Panel
For the panel of the RAC-SPIU-02CE1-75 board, see Figure 9-1.
Figure 9-1 Front Panel of the RAC-SPIU-02CE1-75 Board
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Interface Property
The RAC-SPIU-02CE1-75 board provides micro coaxial interfaces, and it only supports
75 ohm non-balanced E1 interfaces. For a description of the interface properties, refer to
Table 9-2.
Table 9-2 Interface Properties of the RAC-SPIU-02CE1-75 Board
Property
Description
Connector type
Micro coaxial
Operational mode
Full duplex
Applied standard
ITU-T G.703, G.704
Supported link protocol
PPP, ML-PPP, HDLC, FR
Supported network
IP
protocol
Indicators
For a description of the indicators of the RAC-SPIU-02CE1-75 board, refer to Table 9-3.
Table 9-3 Description of the Indicators on the Panel of the RAC-SPIU-02CE1-75 Board
Indicator
Color
Description
RUN
Green
The indicator is lit when the board is operating properly.
LNK1/LNK2
Green
The indicator is lit when the link is operating properly, and is
not lit when the link is idle.
Technical Parameters
For the technical parameters of the RAC-SPIU-02CE1-75 board, refer to Table 9-4.
Table 9-4 Technical Parameters of the RAC-SPIU-02CE1-75 Board
Parameter
Specification
Silk screen name
RAC-SPIU-02CE1-75
Dimensions (W ×H × D)
3.86 in. × 0.79 in. × 6.9 in. (98.1 mm ×19.92 mm ×175 mm)
Power consumption
6W
Weight
0.53 lb. (0.24 kg)
Rate
2.048 Mbps×2
9.2 RAC-SPIU-02UE1-75
Overview
RAC-SPIU-02UE1-75 board provides the following functions:
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Provides two unchannelized E1 (75 ohm) interfaces.
Restores the line clock and providing it to an MPFU board for reference.
Supports the processing of various services, such as PPP and ML-PPP.
Supports hot swapping.
Supports board information query and temperature monitoring.
Panel
For the panel of the RAC-SPIU-02UE1-75 board, see Figure 9-2.
Figure 9-2 Front Panel of the RAC-SPIU-02UE1-75 Board
Interface Property
The RAC-SPIU-02UE1-75 board provides micro coaxial interfaces, and it only supports
75 ohm non-balanced E1 interfaces. For a description of the interface properties, refer to
Table 9-5.
Table 9-5 Interface Properties of the RAC-SPIU-02UE1-75 Board
Property
Description
Connector type
Micro coaxial
Operational mode
Full duplex
Applied standard
ITU-T G.703, G.704
Supported link protocol
PPP, ML-PPP, HDLC, FR
Supported network
IP
protocol
Indicators
For a description of the indicators of the RAC-SPIU-02UE1-75 board, refer to Table 9-6.
Table 9-6 Description of the Indicators on the Panel of the RAC-SPIU-02UE1-75 Board
Indicator
Color
Description
RUN
Green
The indicator is lit when the board is operating properly.
LNK1/LNK2
Green
The indicator is lit when the link is operating properly, and is
not lit when the link is idle.
Technical Parameters
For the technical parameters of the RAC-SPIU-02UE1-75 board, refer to Table 9-7.
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Table 9-7 Technical Parameters of the RAC-SPIU-02UE1-75 Board
Parameter
Specification
Silk screen name
RAC-SPIU-02UE1-75
Dimensions (W ×H × D)
3.86 in. × 0.79 in. × 6.9 in. (98.1 mm ×19.92 mm ×175 mm)
Power consumption
6W
Weight
0.53 lb. (0.24 kg)
Rate
2.048 Mbps×2
9.3 RAC-SPIU-02CE1-120
Overview
RAC-SPIU-02CE1-120 board provides the following functions:
Provides two channelized/unchannelized E1 (120 ohm) interfaces.
Restores the line clock and providing it to an MPFU board for reference.
Supports the processing of various services, such as PPP and ML-PPP.
Supports hot swapping.
Supports board information query and temperature monitoring.
Supports the delayed power-on function.
When the router is powered on, all the boards are started up, causing a high pressure
on the power supply. The delayed power-on function can reduce the electric current
impact caused by the boards and protect components from damage due to the
instantaneous surge current.
Panel
For the panel of the RAC-SPIU-02CE1-120 board, see Figure 9-3.
Figure 9-3 Front Panel of the RAC-SPIU-02CE1-120 Board
Interface Property
The RAC-SPIU-02CE1-120 board provides RJ48 interfaces, and it only supports 120 ohm
E1 interfaces. For a description of the interface properties, refer to Table 9-8.
Table 9-8 Interface Properties of the RAC-SPIU-02CE1-120 Board
Property
Description
Connector type
RJ48
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Property
Description
Operational mode
Full duplex
Applied standard
ITU-T G.703, G.704
Supported link protocol
PPP, ML-PPP, HDLC, FR
Supported network
IP
protocol
Indicators
For a description of the indicators of the RAC-SPIU-02CE1-120 board, refer to Table 9-9.
Table 9-9 Description of the Indicators on the Panel of the RAC-SPIU-02CE1-120 Board
Indicator
Color
Description
RUN
Green
The indicator is lit when the board is operating properly.
LNK1/LNK2
Green
The indicator is lit when the link is operating properly, and is
not lit when the link is idle.
Technical Parameters
For the technical parameters of the RAC-SPIU-02CE1-120 board, refer to Table 9-10.
Table 9-10 Technical Parameters of the RAC-SPIU-02CE1-120 Board
Parameter
Specification
Silk screen name
RAC-SPIU-02CE1-120
Dimensions (W ×H × D)
3.86 in. × 0.79 in. × 6.9 in. (98.1 mm ×19.92 mm ×175 mm)
Power consumption
6W
Weight
0.53 lb. (0.24 kg)
Rate
2.048 Mbps×2
9.4 RAC-SPIU-02UE1-120
Overview
RAC-SPIU-02UE1-120 board provides the following functions:
Provides two unchannelized E1 (120 ohm) interfaces.
Restores the line clock and providing it to an MPFU board for reference.
Supports the processing of various services, such as PPP and ML-PPP.
Supports hot swapping.
Supports board information query and temperature monitoring.
Supports the delayed power-on function.
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Panel
For the panel of the RAC-SPIU-02UE1-120 board, see Figure 9-4.
Figure 9-4 Front Panel of the RAC-SPIU-02UE1-120 Board
Interface Property
The RAC-SPIU-02UE1-120 board provides RJ48 interfaces, and it only supports 120 ohm
E1 interfaces. For a description of the interface properties, refer to Table 9-11.
Table 9-11 Interface Properties of the RAC-SPIU-02UE1-120 Board
Property
Description
Connector type
RJ48
Operational mode
Full duplex
Applied standard
ITU-T G.703, G.704
Supported link protocol
PPP, ML-PPP, HDLC, FR
Supported network
IP
protocol
Indicators
For a description of the indicators of the RAC-SPIU-02UE1-120 board, refer to Table 9-12.
Table 9-12 Description of the Indicators on the Panel of the RAC-SPIU-02UE1-120 Board
Indicator
Color
Description
RUN
Green
The indicator is lit when the board is operating properly.
LNK1/LNK2
Green
The indicator is lit when the link is operating properly, and is
not lit when the link is idle.
Technical Parameters
For the technical parameters of the RAC-SPIU-02UE1-120 board, refer to Table 9-13.
Table 9-13 Technical Parameters of the RAC-SPIU-02UE1-120 Board
Parameter
Specification
Silk screen name
RAC-SPIU-02UE1-120
Dimensions (W ×H × D)
3.86 in. × 0.79 in. × 6.9 in. (98.1 mm ×19.92 mm ×175 mm)
Power consumption
6W
Weight
0.53 lb. (0.24 kg)
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Parameter
Specification
Rate
2.048 Mbps×2
9.5 RAC-SPIU-02HS
Overview
RAC-SPIU-02HS board provides the following functions:
Provides 2-wire serial ports supporting asynchronous or synchronous data
transmission mode.
à
For synchronous data transmission mode, the ports can be connected to DTEs
or DCEs. The circuit side supports the V.24, V.35 or X.21 interfaces. The V.24
interface supports a maximum rate of 115.2 Kbps. The V.35 interface supports
a maximum rate of 4.096 Mbps. The X.21 interface supports a maximum rate of
48 Kbps.
à
Asynchronous data transmission mode supports the RS232 interface that
supports a maximum rate of 115.2 Kbps.
Supports the processing of various services, such as PPP and HDLC.
Supports hot swapping.
Supports board information query and temperature monitoring.
Panel
For the panel of the RAC-SPIU-02HS board, see Figure 9-5.
Figure 9-5 Front Panel of the RAC-SPIU-02HS Board
Interface Property
For a description of the interface properties, refer to Table 9-14.
Table 9-14 Interface Properties of the RAC-SPIU-02HS Board
Property
Description
Connector type
DB50
Operational mode
Asynchronous or synchronous
Applied standard
V.24, V.35, X.21, or RS232
Supported link protocol
PPP, HDLC, and FR
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Property
Description
Supported network
IP
protocol
Indicators
For a description of the indicators of the RAC-SPIU-02HS board, refer to Table 9-15.
Table 9-15 Description of the Indicators on the Panel of the RAC-SPIU-02HS Board
Indicator
Color
Description
RUN
Green
The indicator is lit when the board is operating properly.
LNK1/LNK2
Green
The indicator is lit when the link is operating properly, and is
not lit when the link is idle.
Technical Parameters
For the technical parameters of the RAC-SPIU-02HS board, refer to Table 9-16.
Table 9-16 Technical Parameters of the RAC-SPIU-02HS Board
Parameter
Specification
Silk screen name
RAC-SPIU-02HS
Dimensions (W × H × D)
3.86 in. × 0.79 in. × 6.9 in. (98.1 mm ×19.92 mm ×175 mm)
Power consumption
7W
Weight
0.46 lb. (0.21 kg)
Rate
Multiple rates, up to 4.096 Mbps.
9.6 RAC-SPIU-04GE
Overview
An RAC-SPIU-04GE board has the following functions:
Provides four lines of electrical interfaces for gigabit Ethernet interface cards.
Supports self-adaptive 10/100/1000BASE-T.
Supports hop swapping of boards.
Supports board temperature detection and board ID read.
Panel
For the panel of an RAC-SPIU-04GE board, see Figure 9-6.
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Figure 9-6 Front Panel of an RAC-SPIU-04GE Board
Attributes of Interfaces
An RAC-SPIU-04GE board provides electrical interfaces. For attributes of these electrical
interfaces, refer to Table 9-17.
Table 9-17 Attributes of Interfaces on an RAC-SPIU-04GE Board
Description
Description
Interface Type
RJ45
Working Mode
Full duplex, and half duplex
Standard
IEEE 802.3z Gigabit Ethernet standard
Link protocol
Ethernet frame
Networt protocol
IP
Indicators
For functions of indicators on the panel of the RAC-SPIU-04GE board, refer to Table 9-18.
Table 9-18 Description of Functions of the Indicators on the Panel of the
RAC-SPIU-04GE Board
Indicator
Color
Description
Electrical
Green and yellow
Four groups of link status/data communication indicators
interface
for GE electrical interfaces:
indicator
If the link is properly connected, the indicator in the top
right corner of the interface turns sold green.
If data is transmitted on the board, the indicator in the
top right corner of the interface flashes yellow.
If no data is transmitted and no link is connected, the
indicator turns off.
Technical Parameters
For technical parameters of an RAC-SPIU-04GE board, refer to Table 9-19.
Table 9-19 Technical Parameters of an RAC-SPIU-04GE Board
Parameter
Description
Board name silk screen
RAC-SPIU-04GE
Dimension (width × height ×
3.86 in. × 0.79 in. × 6.9 in. (98.1 mm ×19.92 mm ×175 mm)
depth)
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Parameter
Description
Power consumption
7W
Weight
0.22 lb. (0.1 kg)
Rate
1 GE×4
9.7 RAC-PIU-LTE
Overview
The RAC-PIU-LTE is a 3G/LTE interface board for the ZXR10 2800-4 and ZXR10 3800-8.
It supports 3G/LTE radio network access. It can operate as the primary or secondary link
for enterprises to access the Internet to transfer audio, data, and video files.
Supports TD-LTE, FDD-LTE, TD-SCDMA, WCDMA, and HSPA+.
Supports the frequency bands of multiple networks, including:
à
GSM/GPRS Quad Band (850, 900, 1800, and 1900)
à
TD-SCDMA B34, and B39
à
WCDMA B1, B2, and B5
à
LTE B38, B39, B40, and B41
à
LTE FDD B1, B2, B3, B5, and B7
à
GPS L1
Supports different network speeds for different networks.
à
For FDD-LTE and TD-LTE, the board supports network speeds of 100 Mbps and
50 Mbps.
à
For TD-SCDMA, the board supports network speeds of 2.8 Mbps and 2.2 Mbps.
à
For WCDMA DC-HSPA+, the board supports network speeds of 42 Mbps and 5.7
Mbps.
à
For WCDMA HSDPA, the board supports network speeds of 21 Mbps and 5.76
Mbps.
Supports hot-swapping.
Panel
Figure 9-7 shows the panel of the RAC-PIU-LTE board.
Figure 9-7 RAC-PIU-LTE Board Panel
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Interface Attribute
The RAC-PIU-LTE board transfers data through the radio signals on the Sub-Miniature-A
(SMA) interface (whip omnidirectional antenna). The panel has no other external
interfaces.
Note:
The SMA is a common model of antenna interfaces.
Indicators
For a description of the indicators on the panel of the RAC-PIU-LTE board, refer to Table
9-20.
Table 9-20 RAC-PIU-LTE Board Indicator Descriptions
Indicator
Color
Description
RUN
Green
Operational status indicator. It is on when the board is
operating properly.
ALM
Red
Alarm indicator. It is on if the board has an alarm.
WWAN
Green
Radio network access indicator. It flashes when the board
tries to access a radio network. It is on when the board
accesses the radio network successfully. It is off if the board
fails to access the radio network.
RSSI
Green
Signal strength indicator.
RSSI ≤ -100 dbm: There is no signal. The indicator is
off.
-99 dbm ≤ RSSI ≤ -90 dbm: The signal is weak. The
indicator flashes.
RSSI ≥ -89 dbm: The signal is strong. The indicator
is on.
3G
Green
3G signal indicator. It is on after the board accesses a 3G
network.
LTE
Green
LTE signal indicator. It is on after the board accesses an
LTE network.
Technical Specifications
For a description of the technical specifications of the RAC-PIU-LTE board, refer to Table
9-21.
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Table 9-21 RAC-PIU-LTE Board Technical Specifications
Parameter
Descriptions
Silk screen name
RAC-PIU-LTE
Dimensions (Width × Height ×
7.76 in. × 0.79 in. × 6.9 in. (197.2 mm ×19.92 mm ×175 mm)
Depth)
Power consumption
7W
Weight
1.23 lb. (0.56 kg)
9.8 RAC-PIU-01DSLB
Overview
RAC-PIU-01DSLB board provides the following functions:
Provides one DSL interface, which supports the VDSL2/ADSL2+ mode.
Provides one DSL (B) interface, which supports to be bound with the DSL interface.
For single-interface access, the DSL interface is used. For dual-interface access,
both the DSL and DSL (B) interfaces are used and it is not allowed to use the DSL
(B) interface only.
Supports the Dying Gasp function.
It is a power-down alarm function. When the input voltage cannot meet the normal
operation requirement, the board generates an alarm with the last electric energy.
Supports hot swapping.
Supports board information query and temperature monitoring.
Panel
For the panel of the RAC-PIU-01DSLB board, see Figure 9-8.
Figure 9-8 Front Panel of the RAC-PIU-01DSLB Board
Interface Property
For a description of the interface properties, refer to Table 9-22.
Table 9-22 Interface Properties of the RAC-PIU-01DSLB Board
Property
Description
Connector type
RJ-11 interface, which can be connected to a DSLAM through a
common telephone cable
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Property
Description
Operational mode
VDSL2/ADSL2+ mode
Applied standard
VDSL:
ITU-T G.993.2 (VDSL2)
ITU-T G.993.5 (G.vector)
ADSL:
ITU-T G.992.1 (G.dmt), Annex A, B, and C
ITU-T G.992.2 (G.lite), Annex A and C
ANSI T1.413
ITU-T G.992.3 (ADSL2), Annex A, B, C, L, and M
ITU-T G.992.5 (ADSL2+), Annex A, B, C, and M
Supported link protocol
ATM, PTM
Supported network
PPPoEoA, IPoEoA
protocol
Indicators
For a description of the indicators of the RAC-PIU-01DSLB board, refer to Table 9-23.
Table 9-23 Description of the Indicators on the Panel of the RAC-PIU-01DSLB Board
Indicator
Color
Description
RUN
Green
The indicator is lit when the board is operating properly.
ALM
Red
Alarm indicator, which is lit when the board has an alarm.
Link status/data transmission indicator:
LNK/ACT
Green, Yellow
If the link is normal, the indicator is lit in green.
If data is being transmitted, the indicator flashes in yellow.
If there is no data being transmitted or no connection, the
indicator is not lit.
Technical Parameters
For the technical parameters of the RAC-PIU-01DSLB board, refer to Table 9-24.
Table 9-24 Technical Parameters of the RAC-PIU-01DSLB Board
Parameter
Specification
Silk screen name
RAC-PIU-01DSLB
Dimensions (W × H × D)
7.76 in. × 0.79 in. × 6.9 in. (197.2 mm ×19.92 mm ×175 mm)
Power consumption
16 W
Weight
0.88 lb. (0.4 kg)
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Parameter
Specification
Rate
In ADSL2+ full rate mode (ITU-T 992.5): The downlink rate can
reach 24 Mbps and the uplink rate can reach 1 Mbps.
In VDSL2 mode (ITU-T 993.2): The downlink rate can reach 100
Mbps and the uplink rate can reach 50 Mbps.
9.9 RAC-PIU-04SHDSL
Overview
RAC-PIU-04SHDSL board provides the following functions:
Provides one G.SHDSL (SHDSL group) interface, which provides four SHDSL
electrical interfaces.
Symmetric High bit rate Digital Subscriber Line (SHDSL) evolves from HDSL and
complies with the ITU-T G.991.2 and G.994.2 standards. Only one pair of telephone
lines are required for data transmission, which reduces the requirement on copper
wire resources. SHDSL uses the TC-PAM16/32/64 coding mode, where a greater
number represents a faster transmission speed. It can be used for audio, video, and
data transmission.
Supports the ATM and EFM protocol encapsulation modes.
Supports hot swapping.
Supports board information query and temperature monitoring.
Panel
For the panel of the RAC-PIU-04SHDSL board, see Figure 9-9.
Figure 9-9 Front Panel of the RAC-PIU-04SHDSL board
Interface Properties
For a description of the interface properties, refer to Table 9-25.
Table 9-25 Interface Properties of the RAC-PIU-04SHDSL Board
Property
Description
Connector type
RJ45 interface, connected to four RJ11 interfaces at the peer end
Operational mode
Full duplex
Applied standard
ITU-T G.991.2
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Property
Description
Supported network
IP
protocol
Indicators
For a description of the indicators of the RAC-PIU-04SHDSL board, refer to Table 9-26.
Table 9-26 Description of the Indicators on the Panel of the RAC-PIU-04SHDSL Board
Indicator
Color
Description
RUN
Green
The indicator is lit when the board is operating properly.
ALM
Red
The indicator is lit if the board produces an alarm.
Link status/data transmission indicator:
LNK/ACT
Green, Yellow
If the link is normal, the indicator is lit in green.
If data is being transmitted, the indicator flashes in yellow.
If there is no data being transmitted or no connection, the
indicator is not lit.
Technical Parameters
For the technical parameters of the RAC-PIU-04SHDSL board, refer to Table 9-27.
Table 9-27 Technical Parameters of the RAC-PIU-04SHDSL Board
Parameter
Specification
Silk screen name
RAC-PIU-04SHDSL
Dimensions (W × H × D)
7.76 in. × 0.79 in. × 6.9 in. (197.2 mm ×19.92 mm ×175 mm)
Power consumption
10 W
Weight
1.19 lb. (0.54 kg)
Rate
5.696 Mbit/s/pair
9.10 RAC-PIU-04HS
Overview
RAC-PIU-04HS board provides the following functions:
Provides 4-wire serial ports supporting asynchronous or synchronous data
transmission mode.
à
For synchronous data transmission mode, the ports can be connected to DTEs
or DCEs. The circuit side supports the V.24, V.35, or X.21 interfaces. The V.24
interface supports a maximum rate of 115.2 Kbps. The V.35 interface supports
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a maximum rate of 4.096 Mbps. The X.21 interface supports a maximum rate of
48 Kbps.
à
Asynchronous data transmission mode supports the RS232 interface that
supports a maximum rate of 115.2 Kbps.
Supports the processing of various services, such as PPP and HDLC.
Supports hot swapping.
Supports board information query and temperature monitoring.
Panel
For the panel of the RAC-PIU-04HS board, see Figure 9-10.
Figure 9-10 Front Panel of the RAC-PIU-04HS Board
Interface Property
For a description of the interface properties, refer to Table 9-28.
Table 9-28 Interface Properties of the RAC-PIU-04HS Board
Property
Description
Connector type
DB50
Operational mode
Asynchronous or synchronous
Applied standard
V.24, V.35, X.21 or RS232
Supported link protocol
PPP, HDLC or FR
Supported network
IP
protocol
Indicators
For a description of the indicators of the RAC-PIU-04HS board, refer to Table 9-29.
Table 9-29 Description of the Indicators on the Panel of the RAC-PIU-04HS Board
Indicator
Color
Description
RUN
Green
The indicator is lit when the board is operating properly.
ALM
Red
The indicator is lit if the board produces an alarm.
LNK1–LNK4
Green
The indicator is lit when the link is operating properly, and is
not lit when the link is idle.
Technical Parameters
For the technical parameters of the RAC-PIU-04HS board, refer to Table 9-30.
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Table 9-30 Technical Parameters of the RAC-PIU-04HS Board
Parameter
Specification
Silk screen name
RAC-PIU-04HS
Dimensions (W × H × D)
7.76 in. × 0.79 in. × 6.9 in. (197.2 mm ×19.92 mm ×175 mm)
Power consumption
10 W
Weight
1.19 lb. (0.54 kg)
Rate
1200 bps–4.096 Mbps × 4
9.11 RAC-PIU-04CE1-75
Overview
RAC-PIU-04CE1-75 board provides the following functions:
Provides four channelized/unchannelized E1 (75 ohm) interfaces.
Restores the line clock and providing it to an MPFU board for reference.
Supports the processing of various services, such as PPP and ML-PPP.
Supports hot swapping.
Supports board information query and temperature monitoring.
Panel
For the panel of the RAC-PIU-04CE1-75 board, see Figure 9-11.
Figure 9-11 Front Panel of the RAC-PIU-04CE1-75 Board
Interface Property
The RAC-PIU-04CE1-75 board provides micro coaxial interfaces, and it only supports 75
ohm non-balanced E1 interfaces. For a description of the interface properties, refer to
Table 9-31.
Table 9-31 Interface Properties of the RAC-PIU-04CE1-75 Board
Property
Description
Connector type
Micro coaxial
Operational mode
Full duplex
Applied standard
ITU-T G.703, G.704
Supported link protocol
PPP, ML-PPP, HDLC, FR
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Property
Description
Supported network
IP
protocol
Indicators
For a description of the indicators of the RAC-PIU-04CE1-75 board, refer to Table 9-32.
Table 9-32 Description of the Indicators on the Panel of the RAC-PIU-04CE1-75 Board
Indicator
Color
Description
RUN
Green
The indicator is lit when the board is operating properly.
ALM
Red
The indicator is lit if the board produces an alarm.
LNK1–LNK4
Green
The indicator is lit when the link is operating properly, and is
not lit when the link is idle.
Technical Parameters
For the technical parameters of the RAC-PIU-04CE1-75 board, refer to Table 9-33.
Table 9-33 Technical Parameters of the RAC-PIU-04CE1-75 Board
Parameter
Specification
Silk screen name
RAC-PIU-04CE1-75
Dimensions (W × H × D)
7.76 in. × 0.79 in. × 6.9 in. (197.2 mm ×19.92 mm ×175 mm)
Power consumption
11 W
Weight
1.19 lb. (0.54 kg)
Rate
2.048 Mbps × 4
9.12 RAC-PIU-04CE1-120
Overview
RAC-PIU-04CE1-120 board provides the following functions:
Provides four channelized/unchannelized E1 (120 ohm) interfaces.
Restores the line clock and providing it to an MPFU board for reference.
Supports the processing of various services, such as PPP and ML-PPP.
Supports hot swapping.
Supports board information query and temperature monitoring.
Supports the delayed power-on function.
Panel
For the panel of the RAC-PIU-04CE1-120 board, see Figure 9-12.
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Figure 9-12 Front Panel of the RAC-PIU-04CE1-120 Board
Interface Property
The RAC-PIU-04CE1-120 board provides RJ48 interfaces, and it only supports 120 ohm
E1 interfaces. For a description of the interface properties, refer to Table 9-34.
Table 9-34 Interface Properties of the RAC-PIU-04CE1-120 Board
Property
Description
Connector type
RJ48
Operational mode
Full duplex
Applied standard
ITU-T G.703, G.704
Supported link protocol
PPP, ML-PPP, HDLC, FR
Supported network
IP
protocol
Indicators
For a description of the indicators of the RAC-PIU-04CE1-120 board, refer to Table 9-35.
Table 9-35 Description of the Indicators on the Panel of the RAC-PIU-04CE1-120 Board
Indicator
Color
Description
RUN
Green
The indicator is lit when the board is operating properly.
ALM
Red
The indicator is lit if the board produces an alarm.
LNK1–LNK4
Green
The indicator is lit when the link is operating properly, and is
not lit when the link is idle.
Technical Parameters
For the technical parameters of the RAC-PIU-04CE1-120 board, refer to Table 9-36.
Table 9-36 Technical Parameters of the RAC-PIU-04CE1-120 Board
Parameter
Specification
Silk screen name
RAC-PIU-04CE1-120
Dimensions (W × H × D)
7.76 in. × 0.79 in. × 6.9 in. (197.2 mm ×19.92 mm ×175 mm)
Power consumption
11 W
Weight
1.19 lb. (0.54 kg)
Rate
2.048 Mbps × 4
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9.13 RAC-PIU-04UE1-75
Overview
RAC-PIU-04UE1-75 board provides the following functions:
Provides four unchannelized E1 (75 ohm) interfaces.
Restores the line clock and providing it to an MPFU board for reference.
Supports the processing of various services, such as PPP and ML-PPP.
Supports hot swapping.
Supports board information query and temperature monitoring.
Panel
For the panel of the RAC-PIU-04UE1-75 board, see Figure 9-13.
Figure 9-13 Front Panel of the RAC-PIU-04UE1-75 Board
Interface Property
The RAC-PIU-04UE1-75 board provides micro coaxial interfaces, and it only supports 75
ohm non-balanced E1 interfaces. For a description of the interface properties, refer to
Table 9-37.
Table 9-37 Interface Properties of the RAC-PIU-04UE1-75 Board
Property
Description
Connector type
Micro coaxial
Operational mode
Full duplex
Applied standard
ITU-T G.703, G.704
Supported link protocol
PPP, ML-PPP, HDLC, FR
Supported network
IP
protocol
Indicators
For a description of the indicators of the RAC-PIU-04UE1-75 board, refer to Table 9-38.
Table 9-38 Description of the Indicators on the Panel of the RAC-PIU-04UE1-75 Board
Indicator
Color
Description
RUN
Green
The indicator is lit when the board is operating properly.
ALM
Red
The indicator is lit if the board produces an alarm.
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Indicator
Color
LNK1–LNK4
Green
Description
The indicator is lit when the link is operating properly, and is
not lit when the link is idle.
Technical Parameters
For the technical parameters of the RAC-PIU-04UE1-75 board, refer to Table 9-39.
Table 9-39 Technical Parameters of the RAC-PIU-04UE1-75 Board
Parameter
Specification
Silk screen name
RAC-PIU-04UE1-75
Dimensions (W × H × D)
7.76 in. × 0.79 in. × 6.9 in. (197.2 mm ×19.92 mm ×175 mm)
Power consumption
11 W
Weight
1.19 lb. (0.54 kg)
Rate
2.048 Mbps × 4
9.14 RAC-PIU-04UE1-120
Overview
RAC-PIU-04UE1-120 board provides the following functions:
Provides four unchannelized E1 (120 ohm) interfaces.
Restores the line clock and providing it to an MPFU board for reference.
Supports the processing of various services, such as PPP and ML-PPP.
Supports hot swapping.
Supports board information query and temperature monitoring.
Supports the delayed power-on function.
Panel
For the panel of the RAC-PIU-04UE1-120 board, see Figure 9-14.
Figure 9-14 Front Panel of the RAC-PIU-04UE1-120 Board
Interface Property
The RAC-PIU-04UE1-120 board provides RJ48 interfaces, and it only supports 120 ohm
E1 interfaces. For a description of the interface properties, refer to Table 9-40.
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Table 9-40 Interface Properties of the RAC-PIU-04UE1-120 Board
Property
Description
Connector type
RJ48
Operational mode
Full duplex
Applied standard
ITU-T G.703, G.704
Supported link protocol
PPP, ML-PPP, HDLC, FR
Supported network
IP
protocol
Indicators
For a description of the indicators of the RAC-PIU-04UE1-120 board, refer to Table 9-41.
Table 9-41 Description of the Indicators on the Panel of the RAC-PIU-04UE1-120 Board
Indicator
Color
Description
RUN
Green
The indicator is lit when the board is operating properly.
ALM
Red
The indicator is lit if the board produces an alarm.
LNK1–LNK4
Green
The indicator is lit when the link is operating properly, and is
not lit when the link is idle.
Technical Parameters
For the technical parameters of the RAC-PIU-04UE1-120 board, refer to Table 9-42.
Table 9-42 Technical Parameters of the RAC-PIU-04UE1-120 Board
Parameter
Specification
Silk screen name
RAC-PIU-04UE1-120
Dimensions (W × H × D)
7.76 in. × 0.79 in. × 6.9 in. (197.2 mm ×19.92 mm ×175 mm)
Power consumption
11 W
Weight
1.19 lb. (0.54 kg)
Rate
2.048 Mbps × 4
9.15 RAC-PIU-16CE1
Overview
RAC-PIU-16CE1 board provides the following functions:
Provides 16 channelized/unchannelized E1 interfaces.
Supports the processing of various services, such as PPP and ML-PPP.
Supports hot swapping.
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Supports board information query and temperature monitoring.
Supports the 75 Ω or 120 Ω configuration.
The board provides jumpers X6, X9, and X10 to configure the interface resistance to
75 Ω or 120 Ω. By default, the interface resistance is 75 Ω. For the interface resistance
configuration, refer to the following table.
Jumper
75 Ω
120 Ω
X6
2-3: ON
1-2: ON
X9 and X10
ON
OFF
Caution!
The jumper configuration can be performed by professionals only.
Panel
For the panel of the RAC-PIU-16CE1 board, see Figure 9-15.
Figure 9-15 Front Panel of the RAC-PIU-16CE1 Board
Interface Properties
For the interface properties of the RAC-PIU-16CE1 board, refer to Table 9-43.
Table 9-43 Interface Properties of the RAC-PIU-16CE1 Board
Property
Description
Connector type
DB50
Operational mode
Full duplex
Applied standard
ITU-T G.703, G.704
Supported link protocol
PPP, ML-PPP, HDLC, FR
Supported network
IP
protocol
Indicators
For a description of the indicators of the RAC-PIU-16CE1 board, refer to Table 9-44.
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Table 9-44 Description of the Indicators on the Panel of the RAC-PIU-16CE1 Board
Indicator
Color
Description
RUN
Green
The indicator is lit when the board is operating properly.
ALM
Red
The indicator is lit if the board produces an alarm.
Technical Parameters
For the technical parameters of the RAC-PIU-16CE1 board, refer to Table 9-45.
Table 9-45 Technical Parameters of the RAC-PIU-16CE1 Board
Parameter
Specification
Silk screen name
RAC-PIU-16CE1
Dimensions (W × H × D)
7.76 in. × 0.79 in. × 6.9 in. (197.2 mm ×19.92 mm ×175 mm)
Power consumption
16 W
Weight
1.19 lb. (0.54 kg)
Rate
2.048 Mbps × 16
9.16 RAC-PIU-16CE1-CES
Overview
RAC-PIU-16CE1-CES board provides the following functions:
Provides 16 channelized/unchannelized E1 interfaces.
Supports the processing of various services, such as TDM, PPP and ML-PPP.
Supports hot swapping.
Supports board information query and temperature monitoring.
Supports the 75 Ω or 120 Ω configuration.
Panel
For the panel of the RAC-PIU-16CE1-CES board, see Figure 9-16.
Figure 9-16 Front Panel of the RAC-PIU-16CE1-CES Board
Interface Properties
For the interface properties of the RAC-PIU-16CE1-CES board, refer to Table 9-46.
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Table 9-46 Interface Properties of the RAC-PIU-16CE1-CES Board
Property
Description
Connector type
DB50
Operational mode
Full duplex
Applied standard
ITU-T G.703, G.704
Supported link protocol
TDM
Indicators
For a description of the indicators of the RAC-PIU-16CE1-CES board, refer to Table 9-47.
Table 9-47 Description of the Indicators on the Panel of the RAC-PIU-16CE1-CES Board
Indicator
Color
Description
RUN
Green
The indicator is lit when the board is operating properly.
ALM
Red
The indicator is lit if the board produces an alarm.
Technical Parameters
For the technical parameters of the RAC-PIU-16CE1-CES board, refer to Table 9-48.
Table 9-48 Technical Parameters of the RAC-PIU-16CE1-CES Board
Parameter
Specification
Silk screen name
RAC-PIU-16CE1-CES
Dimensions (W × H × D)
7.76 in. × 0.79 in. × 6.9 in. (197.2 mm ×19.92 mm ×175 mm)
Power consumption
16 W
Weight
1.19 lb. (0.54 kg)
Rate
2.048 Mbps × 16
9.17 RAC-PIU-01P12-SFP
Overview
RAC-PIU-01P12-SFP board provides the following functions:
Supports 1-wire OC-12/STM-4 POS applications.
Supports the processing of various services, such as PPP and HDLC.
Supports hot swapping.
Supports board information query and temperature monitoring.
Panel
For the panel of the RAC-PIU-01P12-SFP board, see Figure 9-17.
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Figure 9-17 Front Panel of the RAC-PIU-01P12-SFP Board
Interface Property
The RAC-PIU-01P12-SFP board uses SFP optical modules. For a description of the
interface properties, refer to Table 9-49.
Table 9-49 Interface Properties of the RAC-PIU-01P12-SFP Board
Property
Description
Connector type
LC-type SFP optical module interface
Operational mode
Full duplex
Applied standard
SONET GR-253-CORE/ITU-T G.707
Supported link protocol
PPP, HDLC, FR, POSGROUP
Supported network
IP
protocol
Indicators
For a description of the indicators of the RAC-PIU-01P12-SFP board, refer to Table 9-50.
Table 9-50 Description of the Indicators on the Panel of the RAC-PIU-01P12-SFP Board
Indicator
Color
Description
RUN
Green
The indicator is lit when the board is operating properly.
ALM
Red
The indicator is lit if the board produces an alarm.
Link status/data transmission indicator:
LNK/ACT
Green/Yellow
If the link is normal, the indicator is lit in green.
If data is being transmitted, the indicator flashes in
yellow.
If there is no data being transmitted or no connection,
the indicator is not lit.
Technical Parameters
For the technical parameters of the RAC-PIU-01P12-SFP board, refer to Table 9-51.
Table 9-51 Technical Parameters of the RAC-PIU-01P12-SFP Board
Parameter
Specification
Silk screen name
RAC-PIU-01P12-SFP
Dimensions (W × H × D)
7.76 in. × 0.79 in. × 6.9 in. (197.2 mm ×19.92 mm ×175 mm)
Power consumption
16 W
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Parameter
Specification
Weight
1.19 lb. (0.54 kg)
Rate
622.08 Mbps
9.18 RAC-PIU-02P3-SFP
Overview
RAC-PIU-02P3-SFP board provides the following functions:
Supports 2-wire OC-3/STM-1 POS applications.
Supports the processing of various services, such as PPP and HDLC.
Supports hot swapping.
Supports board information query and temperature monitoring.
Panel
For the panel of the RAC-PIU-02P3-SFP board, see Figure 9-18.
Figure 9-18 Front Panel of the RAC-PIU-02P3-SFP Board
Interface Property
The RAC-PIU-02P3-SFP board uses SFP optical modules. For a description of the
interface properties, refer to Table 9-52.
Table 9-52 Interface Properties of the RAC-PIU-02P3-SFP Board
Property
Description
Connector type
LC-type SFP optical module interface
Operational mode
Full duplex
Applied standard
SONET GR-253-CORE/ITU-T G.707
Supported link protocol
PPP, HDLC, FR, POSGROUP
Supported network
IP
protocol
Indicators
For a description of the indicators of the RAC-PIU-02P3-SFP board, refer to Table 9-53.
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Table 9-53 Description of the Indicators on the Panel of the RAC-PIU-02P3-SFP Board
Indicator
Color
Description
RUN
Green
The indicator is lit when the board is operating properly.
ALM
Red
The indicator is lit if the board produces an alarm.
Link status/data transmission indicator:
LNK/ACT
Green/Yellow
If the link is normal, the indicator is lit in green.
If data is being transmitted, the indicator flashes in
yellow.
If there is no data being transmitted or no connection,
the indicator is not lit.
Technical Parameters
For the technical parameters of the RAC-PIU-02P3-SFP board, refer to Table 9-54.
Table 9-54 Technical Parameters of the RAC-PIU-02P3-SFP Board
Parameter
Specification
Silk screen name
RAC-PIU-02P3-SFP
Dimensions (W × H × D)
7.76 in. × 0.79 in. × 6.9 in. (197.2 mm ×19.92 mm ×175 mm)
Power consumption
16.5 W
Weight
1.19 lb. (0.54 kg)
Rate
155.52 Mbps × 2
9.19 RAC-PIU-04P3-SFP
Overview
RAC-PIU-04P3-SFP board provides the following functions:
Provides four OC-3/STM-1 interfaces to implement POS applications.
Supports the processing of various services, such as PPP and HDLC.
Supports hot swapping.
Supports board information query and temperature monitoring.
Panel
For the panel of the RAC-PIU-04P3-SFP board, see Figure 9-19.
Figure 9-19 Front Panel of the RAC-PIU-04P3-SFP Board
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Interface Properties
The RAC-PIU-04P3-SFP board uses SFP optical modules. For a description of the
interface properties, refer to Table 9-55.
Table 9-55 Interface Properties of the RAC-PIU-04P3-SFP Board
Property
Description
Connector type
LC-type SFP optical module interface
Operational mode
Full duplex
Applied standard
SONET GR-253-CORE/ITU-T G.707
Supported link protocol
PPP, HDLC, FR, POSGROUP
Supported network
IP
protocol
Indicators
For a description of the indicators of the RAC-PIU-04P3-SFP board, refer to Table 9-56.
Table 9-56 Description of the Indicators on the Panel of the RAC-PIU-04P3-SFP Board
Indicator
Color
Description
RUN
Green
The indicator is lit when the board is operating properly.
ALM
Red
The indicator is lit if the board produces an alarm.
Link status/data transmission indicator:
LNK/ACT
Green/Yellow
If the link is normal, the indicator is lit in green.
If data is being transmitted, the indicator flashes in
yellow.
If there is no data being transmitted or no connection,
the indicator is not lit.
Technical Parameters
For the technical parameters of the RAC-PIU-04P3-SFP board, refer to Table 9-57.
Table 9-57 Technical Parameters of the RAC-PIU-04P3-SFP Board
Parameter
Specification
Silk screen name
RAC-PIU-04P3-SFP
Dimensions (W × H × D)
7.76 in. × 0.79 in. × 6.9 in. (197.2 mm ×19.92 mm ×175 mm)
Power consumption
18 W
Weight
1.19 lb. (0.54 kg)
Rate
155.52 Mbps × 4
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9.20 RAC-PIU-02CP3-SFP
Overview
RAC-PIU-02CP3-SFP board provides the following functions:
Supports 2-wire channelized OC-3/STM-1 POS applications.
Restores the optical channel data clock and providing it to an MPFU board for reference.
Supports the processing of various services, such as PPP and HDLC.
Supports hot swapping.
Supports board information query and temperature monitoring.
Panel
For the panel of the RAC-PIU-02CP3-SFP board, see Figure 9-20.
Figure 9-20 Front Panel of the RAC-PIU-02CP3-SFP Board
Interface Property
The RAC-PIU-02CP3-SFP board uses SFP optical modules. For a description of the
interface properties, refer to Table 9-58.
Table 9-58 Interface Properties of the RAC-PIU-02CP3-SFP Board
Property
Description
Connector type
LC-type SFP optical module interface
Operational mode
Full duplex
Applied standard
SONET GR-253-CORE/ITU-T G.707
Supported link protocol
PPP, HDLC, FR, MPPP
Supported network
IP
protocol
Indicators
For a description of the indicators of the RAC-PIU-02CP3-SFP board, refer to Table 9-59.
Table 9-59 Description of the Indicators on the Panel of the RAC-PIU-02CP3-SFP Board
Indicator
Color
Description
RUN
Green
The indicator is lit when the board is operating properly.
ALM
Red
The indicator is lit if the board produces an alarm.
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Indicator
Color
Description
Link status/data transmission indicator:
LNK/ACT
Green/Yellow
If the link is normal, the indicator is lit in green.
If data is being transmitted, the indicator flashes in
yellow.
If there is no data being transmitted or no connection,
the indicator is not lit.
Technical Parameters
For the technical parameters of the RAC-PIU-02CP3-SFP board, refer to Table 9-60.
Table 9-60 Technical Parameters of the RAC-PIU-02CP3-SFP Board
Parameter
Specification
Silk screen name
RAC-PIU-02CP3-SFP
Dimensions (W × H × D)
7.76 in. × 0.79 in. × 6.9 in. (197.2 mm ×19.92 mm ×175 mm)
Power consumption
16.5 W
Weight
1.19 lb. (0.54 kg)
Rate
155.52 Mbps × 2
9.21 RAC-PIU-04CP3-SFP
Overview
RAC-PIU-04CP3-SFP board provides the following functions:
Provides four channelized OC3/STM-1 interfaces to implement Packet Over
SONET/SDH applications.
Restores the optical channel data clock and provides it to an MPFU board for
reference.
Supports the processing of various services, such as PPP and HDLC.
Supports hot swapping.
Supports board information query and temperature monitoring.
Panel
For the panel of the RAC-PIU-04CP3-SFP board, see Figure 9-21.
Figure 9-21 Front Panel of the RAC-PIU-04CP3-SFP Board
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Interface Properties
The RAC-PIU-04CP3-SFP board uses SFP optical modules. For a description of the
interface properties, refer to Table 9-61.
Table 9-61 Interface Properties of the RAC-PIU-04CP3-SFP Board
Property
Description
Connector type
LC-type SFP optical module interface
Operational mode
Full duplex
Applied standard
SONET GR-253-CORE/ITU-T G.707
Supported link protocol
PPP, HDLC, FR, MPPP
Supported network
IP
protocol
Indicators
For a description of the indicators of the RAC-PIU-04CP3-SFP board, refer to Table 9-62.
Table 9-62 Description of the Indicators on the Panel of the RAC-PIU-04CP3-SFP Board
Indicator
Color
Description
RUN
Green
The indicator is lit when the board is operating properly.
ALM
Red
The indicator is lit if the board produces an alarm.
Link status/data transmission indicator:
LNK/ACT
Green/Yellow
If the link is normal, the indicator is lit in green.
If data is being transmitted, the indicator flashes in
yellow.
If there is no data being transmitted or no connection,
the indicator is not lit.
Technical Parameters
For the technical parameters of the RAC-PIU-04CP3-SFP board, refer to Table 9-63.
Table 9-63 Technical Parameters of the RAC-PIU-04CP3-SFP Board
Parameter
Specification
Silk screen name
RAC-PIU-04CP3-SFP
Dimensions (W × H × D)
7.76 in. × 0.79 in. × 6.9 in. (197.2 mm ×19.92 mm ×175 mm)
Power consumption
18 W
Weight
1.19 lb. (0.54 kg)
Rate
155.52 Mbps × 4
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9.22 RAC-PIU-04GE-SFP
Overview
RAC-PIU-04GE-SFP board provides the following functions:
Provides four GE optical interfaces which support 1000BASE-X.
Supports hot swapping.
Supports board information query and temperature monitoring.
Panel
For the panel of the RAC-PIU-04GE-SFP board, see Figure 9-22.
Figure 9-22 Front Panel of the RAC-PIU-04GE-SFP Board
Interface Properties
The RAC-PIU-04GE-SFP board uses SFP optical modules. For a description of the
interface properties, refer to Table 9-64.
Table 9-64 Interface Properties of the RAC-PIU-04GE-SFP Board
Property
Description
Connector type
LC-type SFP optical module interface
Operational mode
Full duplex
Applied standard
IEEE802.3z Gigabit Ethernet standard
Supported link protocol
Ethernet Frame
Supported network
Ethernet
protocol
Indicators
For a description of the indicators of the RAC-PIU-04GE-SFP board, refer to Table 9-65.
Table 9-65 Description of the Indicators on the Panel of the RAC-PIU-04GE-SFP Board
Indicator
Color
Description
RUN
Green
The indicator is lit when the board is operating properly.
ALM
Red
The indicator is lit if the board produces an alarm.
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Indicator
Color
Description
Link status/data transmission indicator:
LNK/ACT
Green/Yellow
If the link is normal, the indicator is lit in green.
If data is being transmitted, the indicator flashes in
yellow.
If there is no data being transmitted or no connection,
the indicator is not lit.
Technical Parameters
For the technical parameters of the RAC-PIU-04GE-SFP board, refer to Table 9-66.
Table 9-66 Technical Parameters of the RAC-PIU-04GE-SFP Board
Parameter
Specification
Silk screen name
RAC-PIU-04GE-SFP
Dimensions (W × H × D)
7.76 in. × 0.79 in. × 6.9 in. (197.2 mm ×19.92 mm ×175 mm)
Power consumption
13 W
Weight
1.19 lb. (0.54 kg)
Rate
1 GE×4
9.23 RAC-PIU-08GE-SFP
Overview
RAC-PIU-08GE-SFP board provides the following functions:
Provides eight GE optical interfaces which support 1000BASE-X.
Supports hot swapping.
Supports board information query and temperature monitoring.
Panel
For the panel of the RAC-PIU-08GE-SFP board, see Figure 9-23.
Figure 9-23 Front Panel of the RAC-PIU-08GE-SFP Board
Interface Properties
The RAC-PIU-08GE-SFP board uses SFP optical modules. For a description of the
interface properties, refer to Table 9-67.
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Table 9-67 Interface Properties of the RAC-PIU-08GE-SFP Board
Property
Description
Connector type
LC-type SFP optical module interface
Operational mode
Full duplex
Applied standard
IEEE 802.3z Gigabit Ethernet standard
Supported link protocol
Ethernet Frame
Supported network
Ethernet
protocol
Indicators
For a description of the indicators of the RAC-PIU-08GE-SFP board, refer to Table 9-68.
Table 9-68 Description of the Indicators on the Panel of the RAC-PIU-08GE-SFP Board
Indicator
Color
Description
RUN
Green
The indicator is lit when the board is operating properly.
ALM
Red
The indicator is lit if the board produces an alarm.
Link status/data transmission indicator:
LNK
Green
If the link is normal, the indicator is lit in green.
If data is being transmitted, the indicator flashes in
yellow.
If there is no data being transmitted or no connection,
the indicator is not lit.
Technical Parameters
For the technical parameters of the RAC-PIU-08GE-SFP board, refer to Table 9-69.
Table 9-69 Technical Parameters of the RAC-PIU-08GE-SFP Board
Parameter
Specification
Silk screen name
RAC-PIU-08GE-SFP
Dimensions (W × H × D)
7.76 in. × 0.79 in. × 6.9 in. (197.2 mm ×19.92 mm ×175 mm)
Power consumption
15 W
Weight
1.19 lb. (0.54 kg)
Rate
1 GE × 8
9.24 RAC-PIU-05GE-4E1SFP
Overview
RAC-PIU-05GE-4E1SFP board provides the following functions:
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Chapter 9 Line Interface Boards
Provides four GE electrical interfaces and one GE optical interface.
The GE electrical interfaces support 10BASE-T/100BASE-TX/1000BASE-TX and the
GE optical interface supports 1000BASE-X.
Supports hot swapping.
Supports board information query and temperature monitoring.
Panel
For the panel of the RAC-PIU-05GE-4E1SFP board, see Figure 9-24.
Figure 9-24 Front Panel of the RAC-PIU-05GE-4E1SFP Board
Interface Properties
The RAC-PIU-05GE-4E1SFP board provides electrical and optical interfaces (GE1–GE5),
which are not distinguished by silk screen name. They can be distinguished by the
interface overview and indicators.
For a description of the GE electrical interface properties of the RAC-PIU-05GE-4E1SFP
board, refer to Table 9-70.
Table 9-70 GE Electrical Interface Properties of the RAC-PIU-05GE-4E1SFP Board
Property
Description
Connector type
RJ-45
Operational mode
Full duplex, Half duplex
Applied standard
IEEE 802.3z Gigabit Ethernet standard
Supported frame format
Ethernet frame
Supported network
IP
protocol
The RAC-PIU-05GE-4E1SFP board uses SFP optical modules. For a description of the
optical interface properties, refer to Table 9-71.
Table 9-71 Optical Interface Properties of the RAC-PIU-05GE-4E1SFP Board
Property
Description
Connector type
LC-type SFP optical module interface
Operational mode
Full duplex
Applied standard
IEEE 802.3z Gigabit Ethernet standard
Supported frame format
Ethernet frame
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Property
Description
Supported network
IP
protocol
Indicators
For a description of the indicators of the RAC-PIU-05GE-4E1SFPP board, refer to Table
9-72.
Table 9-72 Description of the Indicators on the Panel of the RAC-PIU-05GE-4E1SFP
Board
Indicator
Color
Description
RUN
Green
The indicator is lit when the board is operating properly.
ALM
Red
The indicator is lit if the board produces an alarm.
Electrical port
Green/Yellow
Link status/data transmission indicators for four GE electrical
indicator
interfaces:
If the link is normal, the right green indicator is lit.
If data is being transmitted, the left yellow indicator flashes.
If there is no data being transmitted or no connection, the
indicators are not lit.
Link status/data transmission indicators for the GE optical
interface:
LNK/ACT
Green/Yellow
If the link is normal, the indicator is lit in green.
If data is being transmitted, the indicator flashes in yellow.
If there is no data being transmitted or no connection, the
indicator is not lit.
Technical Parameters
For the technical parameters of the RAC-PIU-05GE-4E1SFP board, refer to Table 9-73.
Table 9-73 Technical Parameters of the RAC-PIU-05GE-4E1SFP Board
Parameter
Specification
Silk screen name
RAC-PIU-05GE-4E1SFP
Dimensions (W × H × D)
7.76 in. × 0.79 in. × 6.9 in. (197.2 mm ×19.92 mm ×175 mm)
Power consumption
11 W
Weight
0.88 lb. (0.4 kg)
Rate
1 GE × 5
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Chapter 9 Line Interface Boards
9.25 RAC-PIU-09GE-8E1SFP
Overview
RAC-PIU-09GE-8E1SFP board provides the following functions:
Provides eight GE electrical interfaces and one GE optical interface.
The GE electrical interfaces support 10BASE-T/100BASE-TX/1000BASE-TX and the
GE optical interface supports 1000BASE-X.
Supports hot swapping.
Supports board information query and temperature monitoring.
Panel
For the panel of the RAC-PIU-09GE-8E1SFP board, see Figure 9-25.
Figure 9-25 Front Panel of the RAC-PIU-09GE-8E1SFP Board
Interface Properties
The RAC-PIU-09GE-8E1SFP board provides electrical and optical interfaces (GE1–GE9),
which are not distinguished by silk screen name. They can be distinguished by the
interface overview and indicators.
For a description of the GE electrical interface properties of the RAC-PIU-09GE-8E1SFP
board, refer to Table 9-74.
Table 9-74 GE Electrical Interface Properties of the RAC-PIU-09GE-8E1SFP Board
Property
Description
Connector type
RJ45
Operational mode
Full duplex, Half duplex
Applied standard
IEEE 802.3z Gigabit Ethernet standard
Supported frame format
Ethernet frame
Supported network
IP
protocol
The RAC-PIU-09GE-8E1SFP board uses SFP optical modules. For a description of the
optical interface properties, refer to Table 9-75.
Table 9-75 Optical Interface Properties of the RAC-PIU-09GE-8E1SFP Board
Property
Description
Connector type
LC-type SFP optical module interface
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Property
Description
Operational mode
Full duplex
Applied standard
IEEE 802.3z Gigabit Ethernet standard
Supported frame format
Ethernet frame
Supported network
IP
protocol
Indicators
For a description of the indicators of the RAC-PIU-09GE-8E1SFP board, refer to Table
9-76.
Table 9-76 Description of the Indicators on the Panel of the RAC-PIU-09GE-8E1SFP
Board
Indicator
Color
Description
RUN
Green
The indicator is lit when the board is operating properly.
ALM
Red
The indicator is lit if the board produces an alarm.
Electrical port
Green/Yellow
Link status/data transmission indicators for four GE electrical
indicator
interfaces:
If the link is normal, the right green indicator is lit.
If data is being transmitted, the left yellow indicator flashes.
If there is no data being transmitted or no connection, the
indicators are not lit.
Link status/data transmission indicators for the GE optical
interface:
LNK/ACT
Green/Yellow
If the link is normal, the indicator is lit in green.
If data is being transmitted, the indicator flashes in yellow.
If there is no data being transmitted or no connection, the
indicator is not lit.
Technical Parameters
For the technical parameters of the RAC-PIU-09GE-8E1SFP board, refer to Table 9-77.
Table 9-77 Technical Parameters of the RAC-PIU-09GE-8E1SFP Board
Parameter
Specification
Silk screen name
RAC-PIU-09GE-8E1SFP
Dimensions (W × H × D)
7.76 in. × 0.79 in. × 6.9 in. (197.2 mm ×19.92 mm ×175 mm)
Power consumption
12 W
Weight
1.19 lb. (0.54 kg)
Rate
1 GE × 9
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Chapter 9 Line Interface Boards
9.26 RAC-PIU-08FE1GE-1SFP
Overview
RAC-PIU-08FE1GE-1SFP board provides the following functions:
Provides eight FE electrical interfaces and one GE optical interface.
The FE electrical interfaces support 100BASE-TX and the GE optical interface supports 1000BASE-X.
Supports hot swapping.
Supports board information query and temperature monitoring.
Panel
For the panel of the RAC-PIU-08FE1GE-1SFP board, see Figure 9-26.
Figure 9-26 Front Panel of the RAC-PIU-08FE1GE-1SFP Board
Interface Properties
The RAC-PIU-08FE1GE-1SFP board provides electrical and optical interfaces (FE1–FE8,
GE1), which are distinguished by silk screen name. They can be also distinguished by the
interface overview and indicators.
For a description of the FE electrical interface properties of the RAC-PIU-08FE1GE-1SFP
board, refer to Table 9-78.
Table 9-78 GE Electrical Interface Properties of the RAC-PIU-08FE1GE-1SFP Board
Property
Description
Connector type
RJ45
Operational mode
Full duplex, Half duplex
Applied standard
IEEE 802.3u Fast Ethernet standard
Supported frame format
Ethernet frame
Supported network
IP
protocol
The RAC-PIU-08FE1GE-1SFP board uses SFP optical modules. For a description of the
optical interface properties, refer to Table 9-79.
Table 9-79 Optical Interface Properties of the RAC-PIU-08FE1GE-1SFP Board
Property
Description
Connector type
LC-type SFP optical module interface
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Property
Description
Operational mode
Full duplex
Applied standard
IEEE 802.3z Gigabit Ethernet standard
Supported frame format
Ethernet frame
Supported network
IP
protocol
Indicators
For a description of the indicators of the RAC-PIU-08FE1GE-1SFP board, refer to Table
9-80.
Table 9-80 Description of the Indicators on the Panel of the RAC-PIU-08FE1GE-1SFP
Board
Indicator
Color
Description
RUN
Green
The indicator is lit when the board is operating properly.
ALM
Red
The indicator is lit if the board produces an alarm.
Electrical port
Green/Yellow
Link status/data transmission indicators for four GE electrical
indicator
interfaces:
If the link is normal, the right green indicator is lit.
If data is being transmitted, the left yellow indicator flashes.
If there is no data being transmitted or no connection, the
indicators are not lit.
Link status/data transmission indicators for the GE optical
interface:
LNK/ACT
Green/Yellow
If the link is normal, the indicator is lit in green.
If data is being transmitted, the indicator flashes in yellow.
If there is no data being transmitted or no connection, the
indicator is not lit.
Technical Parameters
For the technical parameters of the RAC-PIU-08FE1GE-1SFP board, refer to Table 9-81.
Table 9-81 Technical Parameters of the RAC-PIU-08FE1GE-1SFP Board
Parameter
Specification
Silk screen name
RAC-PIU-08FE1GE-1SFP
Dimensions (W × H × D)
7.76 in. × 0.79 in. × 6.9 in. (197.2 mm ×19.92 mm ×175 mm)
Power consumption
11 W
Weight
1.19 lb. (0.54 kg)
Rate
1 GE × 1, 1FE × 8
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Chapter 9 Line Interface Boards
9.27 RAC-DPIU-16GE-12SFP4E
Overview
RAC-DPIU-16GE-12SFP4E board provides the following functions:
Provides four GE electrical interfaces and twelve GE optical interface.
The GE electrical interfaces support 10BASE-T/100BASE-TX/1000BASE-T and the
GE optical interfaces support 1000BASE-X/100BASE-FX.
Supports hot swapping.
Supports board information query and temperature monitoring.
Panel
For the panel of the RAC-DPIU-16GE-12SFP4E board, see Figure 9-27.
Figure 9-27 Front Panel of the RAC-DPIU-16GE-12SFP4E Board
Interface Properties
The RAC-DPIU-16GE-12SFP4E board provides electrical and optical interfaces
(GE1–GE16), which are not distinguished by silk screen name. They can be distinguished
by the interface overview and indicators.
For a description of the GE electrical interface
RAC-DPIU-16GE-12SFP4E board, refer to Table 9-82.
properties
of
the
Table 9-82 GE Electrical Interface Properties of the RAC-DPIU-16GE-12SFP4E Board
Property
Description
Connector type
RJ45
Operational mode
Full duplex, Half duplex
Applied standard
IEEE 802.3z Gigabit Ethernet standard
Supported frame format
Ethernet frame
Supported network
IP
protocol
The RAC-DPIU-16GE-12SFP4E board uses SFP optical modules. For a description of the
optical interface properties, refer to Table 9-83.
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Table 9-83 Optical Interface Properties of the RAC-DPIU-16GE-12SFP4E Board
Property
Description
Connector type
LC-type SFP optical module interface
Operational mode
Full duplex
Applied standard
IEEE 802.3z Gigabit Ethernet standard
Supported frame format
Ethernet frame
Supported network
IP
protocol
Indicators
For a description of the indicators of the RAC-DPIU-16GE-12SFP4E board, refer to Table
9-84.
Table 9-84 Description of the Indicators on the Panel of the RAC-DPIU-16GE-12SFP4E
Board
Indicator
Color
Description
RUN
Green
The indicator is lit when the board is operating properly.
ALM
Red
The indicator is lit if the board produces an alarm.
Electrical port
Green/Yellow
Link status/data transmission indicators for four GE electrical
indicator
interfaces:
If the link is normal, the right green indicator is lit.
If data is being transmitted, the left yellow indicator flashes.
If there is no data being transmitted or no connection, the
indicators are not lit.
LNK/ACT
Link status/data transmission indicators for 12 GE optical
interfaces:
Green/Yellow
If the link is normal, the indicator is lit in green.
If data is being transmitted, the indicator flashes in yellow.
If there is no data being transmitted or no connection, the
indicator is not lit.
Technical Parameters
For the technical parameters of the RAC-DPIU-16GE-12SFP4E board, refer to Table 9-85.
Table 9-85 Technical Parameters of the RAC-DPIU-16GE-12SFP4E Board
Parameter
Specification
Silk screen name
RAC-DPIU-16GE-12SFP4E
Dimensions (W × H × D)
7.76 in. × 1.58 in. × 6.9 in. (197.2 mm ×40.24 mm ×175 mm)
Power consumption
36 W
Weight
0.6 kg
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Parameter
Specification
Rate
1 GE×16
9.28 RAC-DPIU-01XGE-SFP+
Overview
The silk screen name of the 1-port XGE interface board is RAC-DPIU-01XGE-SFP+, which
supports 10GE applications. It provides the following functions:
Provides one 10GE LAN/WAN SFP+ optical interface, which supports 10G LAN/10G
WAN.
Supports power ramp on control and hot swapping
Supports temperature measurement and board ID reading.
Panel
For the panel of the RAC-DPIU-01XGE-SFP+ board, see Figure 9-28.
Figure 9-28 Front Panel of the RAC-DPIU-01XGE-SFP+Board
Interface Property
The RAC-DPIU-01XGE-SFP+ board uses SFP+ optical modules. For a description of the
interface properties, refer to Table 9-86.
Table 9-86 Interface Properties of the RAC-DPIU-01XGE-SFP+ Board
Property
Description
Connector type
LC
Optical interface property
Determined by the attributes of the selected SFP+ optical module
Operational mode
Full duplex
Applied standard
IEEE802.3ae
Supported link protocol
Ethernet frame/SONET/SDH
Supported network
IP
protocol
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Indicators
On the panel of the RAC-DPIU-01XGE-SFP+ board, there are two board operation
indicators (RUN and ALM) and one port operation indicators (LNK/ACT, green/yellow).
For a description of the indicators, refer to Table 9-87.
Table 9-87 Description of the Indicators on the Panel of the RAC-DPIU-01XGE-SFP+
Board
Indicator
Color
RUN
Green
Description
The indicator flashes once per second if the board operates
properly.
ALM
Red
The indicator is lit if the board produces an alarm.
Optical port operation indicator.
LNK/ACT
Green/Yellow
The green indicator is lit if the port is in link up status, and
the yellow indicator flashes if there is traffic.
Technical Parameters
For the technical parameters of the RAC-DPIU-01XGE-SFP+ board, refer to Table 9-88.
Table 9-88 Technical Parameters of the RAC-DPIU-01XGE-SFP+ Board
Parameter
Specification
Silk screen name
RAC-DPIU-01XGE-SFP+
Dimensions (H × W × D)
0.78 in. × 7.77 in. × 6.9 in (19.92 mm × 197.2 mm × 175 mm)
Power consumption
16 W
Weight
0.68 kg
Rate
10G×1
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Chapter 10
Cables
For cables commonly used by the ZXR10 ZSR V2 router, refer to Table 10-1.
Table 10-1 Common Cables of the ZXR10 ZSR V2 Router
Classification
Cable Type
Function
Power cables and
DC power cable
Used when DC power is supplied to a device.
AC power cable
Used when AC power is supplied to a device.
Grounding cable
Connects a cabinet, chassis, or cabinet door to the
grounding cables
ground to guarantee safe power supply.
Signal cables
AUX cable
Connects the AUX port of a device to a Modem for
transmitting device configuration data.
Console cable
Connects the Console port of a device to the serial
port of the control console for transmitting device
configuration data.
Ethernet cable
Used for Ethernet communication between devices
or between a device and a terminal.
Optical fiber
Used for high-speed communication between
devices.
SHDSL cable
Transmits multiple types of signals, including voice,
data, and video signals.
Synchronous/Asyn-
Transmits synchronous/asynchronous signals.
chronous serial cable
E1 trunk cable
Transmits E1 trunk signals.
Table of Contents
Power Cables and Grounding Cables.......................................................................10-1
Signal Cables ...........................................................................................................10-4
10.1 Power Cables and Grounding Cables
10.1.1 DC Power Cables
A DC power cable of the ZXR10 ZSR V2 is a black/blue fire-retardant PVC insulated cable,
see Figure 10-1.
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Figure 10-1 DC Power Cable
1. D-type 3-core straight
solder connector (hole +
pin + hole, with protective
edges)
2. 12 A WG blue multi-strand
heat-resistant cable
3. 12 A WG black UL1015
cable
4. Pre-insulated tube terminal
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Chapter 10 Cables
For the relationship between DC power cable core wires and pin positions, refer to Table
10-2.
Table 10-2 Core Wires of a DC Power Cable
End A
Color
End B
Tag
A1
Black
B2
-48 V RTN
A3
Blue
B1
-48 V
Caution!
DC power cables of the ZXR10 ZSR V2 are dedicated cables. It is forbidden to use them
for other purposes.
10.1.2 AC Power Cables
For the overview of an AC power cable of the ZXR10 ZSR V2, see Figure 10-2.
Figure 10-2 AC Power Cable
1. 10 A international standard
3-pin flat male plug
2. 3 × 0.75 mm2 power cable
(with 3C certification)
3. 10 A international standard
T-shaped female plug
For the models and specifications of the AC power cables of the ZXR10 ZSR V2, refer to
Table 10-3.
Table 10-3 Technical Parameters of an AC Power Cable
Item
Description
Terminal model
10 A international standard 3-pin flat male plug
10 A international standard T-shaped female plug
Cable model
3 × 0.0012 sq. in. (0.75 mm2), with 3C certification
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10.1.3 Grounding Cables
Grounding cables connect a cabinet, chassis, or cabinet door to the ground to guarantee
safe power supply.
A grounding cable is a yellow green copper-core cable, see Figure 10-3
Figure 10-3 Overview of a Protective Grounding Cable
10.2 Signal Cables
10.2.1 AUX Cables
The AUX cable is an 8-core shielded cable. One end of the cable is an RJ45 connector
connecting to the MPU AUX interface. The other end connects to the computer serial port.
For an AUX cable connected to the DB9 port, see Figure 10-4.
Figure 10-4 AUX Cable (DB9)
1. D-type 9-core straight
plastic injection mold (hole)
2. CAT 5e network cable
3. 8P8C straight cable crimp
shielded plug
For the relationship between AUX cable (DB9) core wires and pin positions, refer to Table
10-4.
Table 10-4 Core Wires of an AUX Cable
RJ45
PCB AUX
Signal
Pin
Signal
Direction
CTS
←
DTR
DB9 Pin
PC DB9 (Hole)
Modem DB-9
Modem DB-9
Signal
(Pin) Pin
(Pin) Signal
RTS
CTS
→
DSR
DTR
TXD
→
RXD
TXD
DCD
←
DCD
DCD
GND
—
GND
GND
RXD
←
TXD
RXD
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Chapter 10 Cables
RJ45
PCB AUX
Signal
Pin
Signal
Direction
DSR
←
RTS
→
DB9 Pin
PC DB9 (Hole)
Modem DB-9
Modem DB-9
Signal
(Pin) Pin
(Pin) Signal
DTR
DSR
CTS
RTS
10.2.2 Console Cables
Connecting the ZXR10 ZSR V2 console port to the console serial port, the console cable
transmits device configuration data.
The console communication cable is an 8-core shielded cable. One end of the cable is
an RJ45 connector connecting to the MPU console port. The other end connects to the
server serial port.
For the overview of the console cable, see Figure 10-5.
Figure 10-5 Console Cable Structure
1. D-type 9-core plastic
injection molded cable plug
(hole)
2. Label/self-covering winder
laser print (type II)
3. Horizontal twisted pair
SBVVP-2 × 2
4. 8P8C straight cable solder
connector
For the relationship between console cable core wires and pin positions, refer to Table
10-5.
Table 10-5 Core Wires of a Console Cable
RJ45 Pin
PCB CONSOLE
Signal
Signal
Direction
DB9 Pin
PC DB9 (Hole)
No signal in case of
←
RTS
→
DSR
Signal
three wires
No signal in case of
three wires
TXD
→
RXD
GND
←
DCD
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RJ45 Pin
PCB CONSOLE
Signal
Signal
Direction
DB9 Pin
PC DB9 (Hole)
GND
—
GND
RXD
←
TXD
DSR
←
DTR
RTS
→
CTS
Signal
10.2.3 Ethernet Cables
There are two types of Ethernet cables, crossover cables and straight-through cables.
Straight-through Ethernet cables are used in the following cases:
Ethernet connection between ZXR10 ZSR V2 and a line concentrator.
Ethernet connection between ZXR10 ZSR V2 and an Ethernet switch.
Ethernet connection between a computer and a line concentrator.
Ethernet connection between a computer and an Ethernet switch.
Crossover Ethernet cables are used in the following cases:
Ethernet connection between two ZXR10 ZSR V2 devices.
Ethernet connection between ZXR10 ZSR V2 and a computer Ethernet card.
Ethernet connection between two line concentrators.
Ethernet connection between a line concentrator and an Ethernet switch.
Ethernet connection between two Ethernet switches.
Ethernet card connection between two computers.
An Ethernet cable consists of RJ45 connectors and an eight-wire twisted pair cable. For
an overview of the Ethernet cable, see Figure 10-6.
Figure 10-6 Ethernet cable
1. Ethernet cable connector
2. Standard shielded Ethernet
cable
3. Cable label
For the wiring sequence of the straight-through Ethernet cable, refer to Table 10-6.
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Table 10-6 Wiring Sequence of the Straight-Through Ethernet Cable
Color
End A
End B
Color
White/orange
White/orange
Orange
Orange
White/green
White/green
Blue
Blue
White/blue
White/blue
Green
Green
White/brown
White/brown
Brown
Brown
For the wiring sequence of the cross-over Ethernet cable, refer to Table 10-7.
Table 10-7 Wiring Sequence of the Cross-Over Ethernet Cable
Color
End A
End B
Color
White/orange
White/green
Orange
Green
White/green
White/orange
Blue
Blue
White/blue
White/blue
Green
Orange
White/brown
White/brown
Brown
Brown
For the technical parameters of the Ethernet cable, refer to Table 10-8.
Table 10-8 Technical Parameters of the Ethernet Cable
Cable connector
8P8C straight cable crimp connector
Model
E5088-001023
Technical parameter
Rated current: 1.5 A, rated voltage: 125 V, connected to ASG24-28#
gauge round wires
10.2.4 Optical Fibers
Overview
The optical fiber is a communication medium that uses a bundle of thin glass rods to
transmit the modulated light. There are two types of optical fibers, single-mode optical
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fibers and multimode optical fibers. The user may select one in accordance with the
particular situation.
l Multimode optical fiber: Transmits signals by using multiple modes of light (for
short-distance transmission).
l Single-mode optical fiber: Transmits signals by using a single mode of light (for
long-distance transmission).
Each optical fiber is composed of the fiber core, cladding layer, buffer layer, strengthening
layer, and the outer jacket. For the physical cross-sectional area of a fiber cable, see
Figure 10-7.
Figure 10-7 Optical Fiber Cross-sectional Area
The fiber core is the optical transmission component located at the core. It is made of
silicon or glass. The chemical compositions of a fiber core are partially different from those
of the cladding layer, so that the light entering at a specified angle is reflected continuously
by the fiber core and cladding layer. Therefore, light remains in the fiber core during the
whole transmission process.
Optical Fiber Connectors
Selection of optical fiber connectors depends on the operating environment and devices.
The ZXR10 ZSR V2 router uses the following types of optical fiber connectors:
LC connector
SC connector
FC connector
Connectors at the two ends of the optical fiber can be of the same type or different types.
For the connector pairing and usage, refer to Table 10-9.
Table 10-9 Optical Fiber Connector Pairing and Usage
Device-end
Opposite-end
Connector type
Connector type
LC
FC
Cable Type
Cable Usage
Single-mode
Connection between a device
indoor optical fiber
interface line card and ODF
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Device-end
Opposite-end
Connector type
Connector type
LC
LC
LC
SC
LC
SC
LC
LC
Cable Type
Cable Usage
Single-mode
Connection between interface line
indoor optical fiber
cards
Multimode indoor
Connection between interface line
optical fiber
cards
Single-mode
Connection between an interface line
indoor optical fiber
card and other types of devices
Multimode indoor
Connection between an interface line
optical fiber
card and other types of devices
Interface boards of the ZXR10 ZSR V2 mainly use LC-type connectors, see Figure 10-8.
Figure 10-8 LC-type Fiber Connector
10.2.5 SHDSL Cables
An SHDSL cable is an eight-core CAT5e 100-ohm non-shielded twisted pair cable. One
end is connected to one RJ45 connector, and the other end is connected to four RJ11
connectors. The SHDSL cables can be used for transmitting multiple types of signals,
including voice, data, and video signals.
For an overview of the SHDSL cable, see Figure 10-9.
Figure 10-9 SHDSL Cable
1. RJ45 connector
2. Eight-core CAT5e 100-ohm
non-shielded twisted pair
cable
3. RJ11 connector
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An SHDSL cable provides four ports (two wires for each port) at the RJ11 connector side.
For the wiring sequence of the SHDSL cable, refer to Table 10-10.
Table 10-10 Wiring Sequence of the SHDSL Cable
Pin Number at
Color
Pin Number at End B
Label
4 (Line0 A)
White/green
B1
port 1
5 (Line0 B)
Green
1 (Line1 A)
White/orange
B2
port 2
2 (Line1 B)
Orange
3 (Line2 A)
White/blue
B3
port 3
6 (Line2 B)
Blue
7 (Line3 A)
White/brown
B4
port 4
8 (Line3 B)
Brown
End A
For the technical parameters of the SHDSL cable, refer to Table 10-11.
Table 10-11 Technical Parameters of the SHDSL Cable
Parameter
Specification
Impedance
100 ohms
Cable type
Symmetric CAT5e twisted pair cable
Wire gauge (inner conductor)
24AWG
Core
10.2.6 Synchronous/Asynchronous Serial Cable
The ZXR10 ZSR V2 series routers use synchronous or asynchronous serial cables to
transmit synchronous or asynchronous signals. The serial cables can be divided into the
following types:
V.35/V.24 DTE cable (RA-DTE-DB50-DB25): A DB25 male connector is used at the
network end.
V.35/V.24 DCE cable (RA-DCE-DB50-DB25): A DB25 female connector is used at
the network end.
V.35/V.24 DTE cable (RA-DTE-DB50-34pole): A 34pole male connector is used at the
network end.
V.35/V.24 DCE cable (RA-DCE-DB50-34pole): A 34pole female connector is used at
the network end.
For an overview of the V.35/V.24 DTE cable (RA-DTE-DB50-DB25), see Figure 10-10.
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Figure 10-10 V.35/V.24 DTE Cable (RA-DTE-DB50-DB25)
1. Device-end connector
DB50
2. Network-end connector
DB25 (male)
For an overview of the V.35/V.24 DCE cable (RA-DCE-DB50-DB25), see Figure 10-11.
Figure 10-11 V.35/V.24 DCE Cable (RA-DCE-DB50-DB25)
1. Device-end connector
DB50
2. Network-end connector
DB25 (female)
For an overview of the V.35/V.24 DTE cable (RA-DTE-DB50-34pole), see Figure 10-12.
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Figure 10-12 V.35/V.24 DTE Cable (RA-DTE-DB50-34pole)
1. Device-end connector
DB50
2. Network-end connector
34pole (male)
For an overview of the V.35/V.24 DCE cable (RA-DCE-DB50-34pole), see Figure 10-13.
Figure 10-13 V.35/V.24 DCE Cable (RA-DCE-DB50-34pole)
1. Device-end connector
DB50
2. Network-end connector
34pole (female)
For a description of the synchronous/asynchronous serial cable types, refer to Table 10-12.
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Table 10-12 Synchronous/Asynchronous Serial Cable Types
Synchronous/Asynchronous Serial
Device-End Connector
Network-End Connector
DB50
DB25 male connector
DB50
DB25 female connector
DB50
34pole male connector
DB50
34pole female connector
Cable
V.35/V.24 DTE cable (RA-DTE-DB50DB25)
V.35/V.24 DCE cable (RA-DCEDB50-DB25)
V.35/V.24 DTE cable (RA-DTE-DB5034pole)
V.35/V.24 DCE cable (RA-DCEDB50-34pole)
10.2.7 E1 Trunk Cable
Overview
The E1 trunk cables that the RAC-PIU-16CE1 and RAC-PIU-16CE1-CES boards of the
ZXR10 ZSR V2 series routers use can be divided into the following types:
75 Ω unbalanced coaxial cable
If the interface resistance of the RAC-PIU-16CE1 or RAC-PIU-16CE1-CES board is
configured to 75 Ω , the 75 Ω unbalanced coaxial cable is used as the E1 trunk cable.
120 Ω balanced twisted-pair cable
If the interface resistance of the RAC-PIU-16CE1 or RAC-PIU-16CE1-CES board is
configured to 120 Ω , the 120 Ω balanced twisted-pair cable is used as the E1 trunk
cable.
For the E1 trunk cable connections, refer to Table 10-13.
Table 10-13 E1 Trunk Cable Connections
Synchronous/Asyn-
Device-End Connector
Network-End Connector
DB50
Sixteen coaxial cables in two groups,
chronous Serial Cable
75 Ω unbalanced coaxial
cable
120 Ω balanced
connected to the connectors as required
DB50
Sixteen twisted-pair cables in two groups,
twisted-pair cable
connected to the connectors as required
75 Ω Unbalanced Coaxial Cable
For an overview of the 75 Ω unbalanced coaxial cable, see Figure 10-14.
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Figure 10-14 75 Ω Unbalanced Coaxial Cable
1. Device-end DB 50
connector
2. 8-core micro-coaxial A
3. 8-core micro-coaxial B
4. Pin 1 at end A
5. Pin 25 at end A
6. Pin 50 at end A
7. Pin 26 at end A
For the correspondence relationships between the end-A pins and the end-B1 cores of the
75 Ω unbalanced coaxial cable, refer to Table 10-14.
Table 10-14 Correspondence Relationships Between the End-A Pins and End-B1 Cores
of the 75 Ω Unbalanced Coaxial Cable
Pin at End A
End B1 (Eight-Core
Signal
Micro-Coaxial A)
25
A-1 core
R1+
50
A-1 shield
R1–
24
A-2 core
T1+
49
A-2 shield
T1–
23
A-3 core
R2+
48
A-3 shield
R2–
22
A-4 core
T2+
47
A-4 shield
T2–
21
A-5 core
R3+
46
A-5 shield
R3–
20
A-6 core
T3+
45
A-6 shield
T3–
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Pin at End A
End B1 (Eight-Core
Signal
Micro-Coaxial A)
19
A-7 core
R4+
44
A-7 shield
R4–
18
A-8 core
T4+
43
A-8 shield
T4–
For the correspondence relationships between the end-A pins and the end-B2 cores of the
75 Ω unbalanced coaxial cable, refer to Table 10-15.
Table 10-15 Correspondence Relationships Between the End-A Pins and End-B2 Cores
of the 75 Ω Unbalanced Coaxial Cable
Pin at End A
End B2 (Eight-Core
Signal
Micro-Coaxial B)
17
B-1 core
R5+
42
B-1 shield
R5–
16
B-2 core
T5+
41
B-2 shield
T5–
15
B-3 core
R6+
40
B-3 shield
R6–
14
B-4 core
T6+
39
B-4 shield
T6–
13
B-5 core
R7+
38
B-5 shield
R7–
12
B-6 core
T7+
37
B-6 shield
T7–
11
B-7 core
R8+
36
B-7 shield
R8–
10
B-8 core
T8+
35
B-8 shield
T8–
120 Ω Balanced Twisted-Pair Cable
For an overview of the 120 Ω balanced twisted-pair cable, see Figure 10-15.
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Figure 10-15 120 Ω Balanced Twisted-Pair Cable
1. Device-end connector
DB50
2. 8-core micro-coaxial A
3. 8-core micro-coaxial B
4. Pin 1 at end A
5. Pin 25 at end A
6. Pin 50 at end A
7. Pin 26 at end A
For the correspondence relationships between the end-A pins and the end-B1 cores of the
120 Ω balanced twisted-pair cable, refer to Table 10-16.
Table 10-16 Correspondence Relationships Between the End-A Pins and End-B1 Cores
of the 120 Ω Balanced Twisted-Pair Cable
Pin at End A
End B1 (16-Core Cable A)
Signal
25
Blue
R1+
50
White
24
Orange
49
White
23
Green
48
White
22
Brown
47
White
21
Grey
46
White
20
Blue
45
Red
19
Orange
44
Red
Twisted pair
R1–
Twisted pair
T1+
T1–
Twisted pair
R2+
R2–
Twisted pair
T2+
T2–
Twisted pair
R3+
R3–
Twisted pair
T3+
T3–
Twisted pair
R4+
R4–
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Pin at End A
End B1 (16-Core Cable A)
Signal
18
Green
T4+
43
Red
Twisted pair
T4–
For the correspondence relationships between the end-A pins and the end-B2 cores of the
120 Ω balanced twisted-pair cable, refer to Table 10-17.
Table 10-17 Correspondence Relationships Between the End-A Pins and End-B2 Cores
of the 120 Ω Balanced Twisted-Pair Cable
Pin at End A
End B2 (16-Core Cable B)
Signal
17
Blue
R5+
42
White
16
Orange
41
White
15
Green
40
White
14
Brown
39
White
13
Grey
38
White
12
Blue
37
Red
11
Orange
36
Red
10
Green
35
Red
Twisted pair
R5–
Twisted pair
T5+
T5–
Twisted pair
R6+
R6–
Twisted pair
T6+
T6–
Twisted pair
R7+
R7–
Twisted pair
T7+
T7–
Twisted pair
R8+
R8–
Twisted pair
T8+
T8–
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Appendix A
Board Quick Table (Weight
and Power Consumption)
For the weight and power consumption of the boards supported by the ZXR10 ZSR V2
series routers, refer to Table A-1.
Table A-1 Board Weight and Power Consumption of the ZXR10 ZSR V2 Series Routers
Board Type
Silk Screen Name
Weight
Power Consumption
MPFU
RAC-2838-MPFU-A
2.38 lb. (1.08 kg)
35 W
RAC-2838-MPFU-B
2.38 lb. (1.08 kg)
35 W
RAC-2838-MPFU-C
2.38 lb. (1.08 kg)
35 W
RAE-DPIU-OSU-A1
2.71 lb. (1.23 kg)
40 W
RAE-DPIU-OSU-A2
2.71 lb. (1.23 kg)
40 W
RAE-DPIU-FW-A
2.31 lb. (1.05 kg)
35 W
RAC-SPIU-02CE1-75
0.53 lb. (0.24 kg)
6W
RAC-SPIU-02CE1-120
0.53 lb. (0.24 kg)
6W
RAC-SPIU-02UE1-75
0.53 lb. (0.24 kg)
6W
RAC-SPIU-02UE1-120
0.53 lb. (0.24 kg)
6W
RAC-SPIU-02HS
0.46 lb. (0.21 kg)
7W
RAC-SPIU-04GE
0.22 lb. (0.1 kg)
7W
RAC-PIU-LTE
1.23 lb. (0.56 kg)
7W
RAC-PIU-01DSLB
0.88 lb. (0.4 kg)
16 W
RAC-PIU-04SHDSL
1.19 lb. (0.54 kg)
10 W
RAC-PIU-04HS
1.19 lb. (0.54 kg)
10 W
RAC-PIU-04CE1-75
1.19 lb. (0.54 kg)
11 W
RAC-PIU-04CE1-120
1.19 lb. (0.54 kg)
11 W
RAC-PIU-04UE1-75
1.19 lb. (0.54 kg)
11 W
RAC-PIU-04UE1-120
1.19 lb. (0.54 kg)
11 W
RAC-PIU-16CE1
1.19 lb. (0.54 kg)
16 W
RAC-PIU-16CE1-CES
1.19 lb. (0.54 kg)
16 W
RAC-PIU-01P12-SFP
1.19 lb. (0.54 kg)
16 W
General
processing board
PIU
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Board Type
Silk Screen Name
Weight
Power Consumption
RAC-PIU-02P3-SFP
1.19 lb. (0.54 kg)
16.5 W
RAC-PIU-04P3-SFP
1.19 lb. (0.54 kg)
18 W
RAC-PIU-02CP3-SFP
1.19 lb. (0.54 kg)
16.5 W
RAC-PIU-04CP3-SFP
1.19 lb. (0.54 kg)
18 W
RAC-PIU-04GE-SFP
1.19 lb. (0.54 kg)
13 W
RAC-PIU-08GE-SFP
1.19 lb. (0.54 kg)
15 W
RAC-PIU-05GE-4E1SFP
0.88 lb. (0.4 kg)
11 W
RAC-PIU-09GE-8E1SFP
1.19 lb. (0.54 kg)
12 W
RAC-PIU-08FE1GE-1SFP
1.19 lb. (0.54 kg)
11 W
RAC-DPIU-16GE-12SFP4E
1.32 lb. (0.6 kg)
36 W
RAC-DPIU-01XGE-SFP+
1.50 lb. (0.68 kg)
16 W
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Appendix B
Optical Modules Quick Table
Overview
ZXR10 ZSR V2 routers use the SFP optical modules , refer to Table B-1.
Table B-1 SFP Optical Modules
Type
Example
SFP (Small Form-factor Pluggable)
Indicators
An optical module always has the ACT and LNK indicators. For indicator descriptions,
refer to Table B-2.
Table B-2 Optical Module Indicator Descriptions
Indicator
Color
Description
ACT
Green
Transmission status indicator of an optical port. When data is
being transmitted, this indicator flashes.
LNK
Green
Physical connection status indicator of an optical port. If the
physical connection of the optical port is normal, this indicator is
on. Otherwise, this indicator is off.
SFP Attributes
For the attributes of an 155 M SFP optical module, refer to Table B-3.
Table B-3 155 M SFP Attributes
Attribute
Parameters
Transmission distance
15
40
80
100
1310
1310
1310
1550
1310
1260~1570
1261~1360
1263~1360
1480~1580
1480~1580
-19~-14
-15~-8
-5~0
-5~0
0~5
(km)
Central wavelength
(nm)
Reference wavelength
range (nm)
Transmitting optical
power range (dBm)
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Attribute
Parameters
Receiving sensitivity
-30
-28
-34
-34
-34
-10
-8
-10
-10
-10
Multi mode
Single mode
Single mode
Single mode
Single
(dBm)
Overload optical power
(dBm)
Fiber type
mode
Interface type
LC-SFP
LC-SFP
LC-SFP
LC-SFP
LC-SFP
For the attributes of an 622 M SFP optical module, refer to Table B-4.
Table B-4 622 M SFP Attributes
Attribute
Parameters
Transmission distance
15
40
80
1310
1310
1550
1274~1356
1280~1335
1480~1580
-15~-8
-3~2
-3~2
-28
-28
-28
-8
-8
-8
Fiber type
Single mode
Single mode
Single mode
Interface type
LC-SFP
LC-SFP
LC-SFP
(km)
Central wavelength
(nm)
Reference wavelength
range (nm)
Transmitting optical
power range (dBm)
Receiving sensitivity
(dBm)
Overload optical power
(dBm)
For the attributes of an 1.25 G SFP optical module, refer to Table B-5.
Table B-5 1.25 G SFP Attributes
Attribute
Parameters
Transmission
0.5
10
40
40
80
120
850
1310
1310
1550
1550
1550
770~860
1260~136
1260~136
1480~158
1480~158
1480~158
distance (km)
Central wavelength
(nm)
Reference
wavelength range
(nm)
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Attribute
Parameters
Transmitting optical
-9.5~-3
-11.5~-3
-4.5~5
-5~0
-2~5
0~5
-17
-19
-22
-22
-22
-30
-3
-5
-3
-5
-9
Multi mode
Single
Single
Single
Single
Single
mode
mode
mode
mode
mode
LC-SFP
LC-SFP
LC-SFP
LC-SFP
LC-SFP
power range (dBm)
Receiving
sensitivity (dBm)
Overload optical
power (dBm)
Fiber type
Interface type
LC-SFP
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Figures
Figure 2-1 Main Components on the Front Side of the ZXR10 3800-8 Chassis ........... 2-1
Figure 2-2 Front View of the ZXR10 3800-8 Chassis................................................. 2-2
Figure 2-3 Front View of the ZXR10 3800-8 Chassis................................................. 2-2
Figure 2-4 Panel of the AC Power Supply Module..................................................... 2-4
Figure 2-5 Panel of the DC Power Supply Module .................................................... 2-5
Figure 3-1 Main Components on the Front Side of the ZXR10 2800-4 Chassis ........... 3-1
Figure 3-2 Front View of the ZXR10 2800-4 Chassis................................................. 3-2
Figure 3-3 Front View of the ZXR10 2800-4 Chassis................................................. 3-2
Figure 3-4 Panel of the AC Power Supply Module..................................................... 3-4
Figure 3-5 Panel of the DC Power Supply Module .................................................... 3-5
Figure 4-1 ZXR10 1800-2S Front View ..................................................................... 4-2
Figure 4-2 ZXR10 1800-2S Front Panel .................................................................... 4-2
Figure 4-3 ZXR10 1800-2S Rear Panel .................................................................... 4-3
Figure 4-4 Front View of the ZXR10 1800-2S Chassis .............................................. 4-4
Figure 4-5 Power Button ........................................................................................... 4-6
Figure 5-1 Front Structure Graph for a ZXR10 2800-3E Chassis............................... 5-2
Figure 5-2 Front Panel of a ZXR10 2800-3E Chassis................................................ 5-2
Figure 5-3 Back Panel of a ZXR10 2800-3E Chassis ................................................ 5-3
Figure 5-4 Slots on the Back of a ZXR10 2800-3E Chassis....................................... 5-3
Figure 5-5 Panel of the AC Power Module ................................................................ 5-5
Figure 5-6 Panel of the DC Power Module ................................................................ 5-6
Figure 6-1 Front View of a ZXR10 1800-2E Chassis ................................................. 6-2
Figure 6-2 Front Panel of a ZXR10 1800-2E Chassis................................................ 6-2
Figure 6-3 Back Panel of a ZXR10 1800-2E Chassis ................................................ 6-3
Figure 6-4 Slots on the Back of a ZXR10 1800-2E Chassis....................................... 6-3
Figure 6-5 Panel of the AC Power Module ................................................................ 6-5
Figure 6-6 Panel of the DC Power Module ................................................................ 6-6
Figure 7-1 Panel of the RAC-2838-MPFU-A ............................................................. 7-2
Figure 7-2 RAC-2838-MPFU-B and RAC-2838-MPFU-C .......................................... 7-3
Figure 8-1 Panel of an RAC-DPIU-OSU-A1 Board .................................................... 8-1
Figure 8-2 Panel of an RAC-DPIU-OSU-A2 Board .................................................... 8-3
Figure 8-3 Panel of an RAC-DPIU-FW-A Board ........................................................ 8-5
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Figure 9-1 Front Panel of the RAC-SPIU-02CE1-75 Board ....................................... 9-2
Figure 9-2 Front Panel of the RAC-SPIU-02UE1-75 Board ....................................... 9-4
Figure 9-3 Front Panel of the RAC-SPIU-02CE1-120 Board ..................................... 9-5
Figure 9-4 Front Panel of the RAC-SPIU-02UE1-120 Board ..................................... 9-7
Figure 9-5 Front Panel of the RAC-SPIU-02HS Board .............................................. 9-8
Figure 9-6 Front Panel of an RAC-SPIU-04GE Board ............................................. 9-10
Figure 9-7 RAC-PIU-LTE Board Panel .................................................................... 9-11
Figure 9-8 Front Panel of the RAC-PIU-01DSLB Board .......................................... 9-13
Figure 9-9 Front Panel of the RAC-PIU-04SHDSL board ........................................ 9-15
Figure 9-10 Front Panel of the RAC-PIU-04HS Board............................................. 9-17
Figure 9-11 Front Panel of the RAC-PIU-04CE1-75 Board ...................................... 9-18
Figure 9-12 Front Panel of the RAC-PIU-04CE1-120 Board.................................... 9-20
Figure 9-13 Front Panel of the RAC-PIU-04UE1-75 Board...................................... 9-21
Figure 9-14 Front Panel of the RAC-PIU-04UE1-120 Board.................................... 9-22
Figure 9-15 Front Panel of the RAC-PIU-16CE1 Board........................................... 9-24
Figure 9-16 Front Panel of the RAC-PIU-16CE1-CES Board .................................. 9-25
Figure 9-17 Front Panel of the RAC-PIU-01P12-SFP Board ................................... 9-27
Figure 9-18 Front Panel of the RAC-PIU-02P3-SFP Board ..................................... 9-28
Figure 9-19 Front Panel of the RAC-PIU-04P3-SFP Board ..................................... 9-29
Figure 9-20 Front Panel of the RAC-PIU-02CP3-SFP Board................................... 9-31
Figure 9-21 Front Panel of the RAC-PIU-04CP3-SFP Board................................... 9-32
Figure 9-22 Front Panel of the RAC-PIU-04GE-SFP Board..................................... 9-34
Figure 9-23 Front Panel of the RAC-PIU-08GE-SFP Board..................................... 9-35
Figure 9-24 Front Panel of the RAC-PIU-05GE-4E1SFP Board .............................. 9-37
Figure 9-25 Front Panel of the RAC-PIU-09GE-8E1SFP Board .............................. 9-39
Figure 9-26 Front Panel of the RAC-PIU-08FE1GE-1SFP Board ............................ 9-41
Figure 9-27 Front Panel of the RAC-DPIU-16GE-12SFP4E Board.......................... 9-43
Figure 9-28 Front Panel of the RAC-DPIU-01XGE-SFP+Board............................... 9-45
Figure 10-1 DC Power Cable .................................................................................. 10-2
Figure 10-2 AC Power Cable .................................................................................. 10-3
Figure 10-3 Overview of a Protective Grounding Cable........................................... 10-4
Figure 10-4 AUX Cable (DB9)................................................................................. 10-4
Figure 10-5 Console Cable Structure ...................................................................... 10-5
Figure 10-6 Ethernet cable...................................................................................... 10-6
Figure 10-7 Optical Fiber Cross-sectional Area....................................................... 10-8
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Figures
Figure 10-8 LC-type Fiber Connector...................................................................... 10-9
Figure 10-9 SHDSL Cable ...................................................................................... 10-9
Figure 10-10 V.35/V.24 DTE Cable (RA-DTE-DB50-DB25) ................................... 10-11
Figure 10-11 V.35/V.24 DCE Cable (RA-DCE-DB50-DB25)................................... 10-11
Figure 10-12 V.35/V.24 DTE Cable (RA-DTE-DB50-34pole) ................................. 10-12
Figure 10-13 V.35/V.24 DCE Cable (RA-DCE-DB50-34pole)................................. 10-12
Figure 10-14 75 Ω Unbalanced Coaxial Cable ...................................................... 10-14
Figure 10-15 120 Ω Balanced Twisted-Pair Cable................................................. 10-16
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Tables
Table 1-1 Component Models ................................................................................... 1-1
Table 2-1 Description of the Main Components of the ZXR10 3800-8 Chassis ........... 2-2
Table 2-2 System Parameters of the ZXR10 3800-8 ................................................. 2-3
Table 2-3 Indicator Descriptions for the ZXR10 3800-8 AC Power Supply
Module..................................................................................................... 2-4
Table 2-4 Power Button Description for the ZXR10 3800-8 AC Power Supply
Module..................................................................................................... 2-5
Table 2-5 Technical Parameters of the AC Power Rectifier of the ZXR10
3800-8 ..................................................................................................... 2-5
Table 2-6 Indicator Descriptions for the ZXR10 3800-8 DC Power Supply
Module..................................................................................................... 2-6
Table 2-7 Power Button Description for the ZXR10 3800-8 DC Power Supply
Module..................................................................................................... 2-6
Table 2-8 Technical Parameters of the DC Power Supply Module of the ZXR10
3800-8 ..................................................................................................... 2-6
Table 2-9 ZXR10 3800-8 Fan Specifications ............................................................. 2-7
Table 3-1 Description of the Main Components of the ZXR10 2800-4 Chassis ........... 3-2
Table 3-2 System Parameters of the ZXR10 2800-4 ................................................. 3-3
Table 3-3 Indicator Descriptions for the ZXR10 2800-4 AC Power Supply
Module..................................................................................................... 3-4
Table 3-4 Power Button Description for the ZXR10 2800-4 AC Power Supply
Module..................................................................................................... 3-4
Table 3-5 Technical Parameters of the AC Power Rectifier of the ZXR10
2800-4 ..................................................................................................... 3-5
Table 3-6 Indicator Descriptions for the ZXR10 2800-4 DC Power Supply
Module..................................................................................................... 3-5
Table 3-7 Power Button Description for the ZXR10 2800-4 DC Power Supply
Module..................................................................................................... 3-6
Table 3-8 Technical Parameters of the DC Power Supply Module of the ZXR10
2800-4 ..................................................................................................... 3-6
Table 3-9 ZXR10 2800-4 Fan Specifications ............................................................. 3-6
Table 4-1 Descriptions of the Main Components of the ZXR10 1800-2S ................... 4-1
Table 4-2 ZXR10 1800-2S Front Panel Descriptions ................................................. 4-2
Table 4-3 ZXR10 1800-2S Rear Panel Descriptions.................................................. 4-4
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Table 4-4 System Parameters of the ZXR10 1800-2S ............................................... 4-5
Table 4-5 Power Button Description for the ZXR10 1800-2S AC Power Supply
Module..................................................................................................... 4-6
Table 4-6 Technical Parameters of the AC Power Rectifier of the ZXR10
1800-2S ................................................................................................... 4-6
Table 4-7 Technical Parameters of the DC Power Rectifier of the ZXR10
1800-2S ................................................................................................... 4-7
Table 5-1 Main Components of a ZXR10 2800-3E Chassis ....................................... 5-1
Table 5-2 Descriptions of Interfaces on the Front Panel of a ZXR10 2800-3E
Chassis.................................................................................................... 5-2
Table 5-3 System Parameters of a ZXR10 2800-3E Chassis..................................... 5-4
Table 5-4 Functions of the Indicators on the Panel of the AC Power Module of the
ZXR10 2800-3E Chassis.......................................................................... 5-5
Table 5-5 Functions of the Power Buttons of the AC Power Module of the ZXR10
2800-3E Chassis...................................................................................... 5-6
Table 5-6 Technical Parameters of the AC Power of the ZXR10 2800-3E
Chassis.................................................................................................... 5-6
Table 5-7 Functions of the Indicators on the Panel of the DC Power Module of the
ZXR10 2800-3E Chassis.......................................................................... 5-7
Table 5-8 Functions of the Power Buttons of the DC Power Module of the ZXR10
2800-3E Chassis...................................................................................... 5-7
Table 5-9 Technical Parameters of the DC Power Module of the ZXR10 2800-3E
Chassis.................................................................................................... 5-7
Table 6-1 Main Components of a ZXR10 1800-2E Chassis ....................................... 6-1
Table 6-2 Descriptions of Interfaces on the Front Panel of a ZXR10 1800-2E
Chassis.................................................................................................... 6-2
Table 6-3 System Parameters of a ZXR10 1800-2E Chassis..................................... 6-4
Table 6-4 Functions of the Indicators on the Panel of the AC Power Module of the
ZXR10 1800-2E Chassis.......................................................................... 6-5
Table 6-5 Functions of the Power Buttons of the AC Power Module of the ZXR10
1800-2E Chassis...................................................................................... 6-5
Table 6-6 Technical Parameters of the AC Power of the ZXR10 1800-2E
Chassis.................................................................................................... 6-6
Table 6-7 Functions of the Indicators on the Panel of the DC Power Module of the
ZXR10 1800-2E Chassis.......................................................................... 6-6
Table 6-8 Functions of the Power Buttons of the DC Power Module of the ZXR10
1800-2E Chassis...................................................................................... 6-7
Table 6-9 Technical Parameters of the DC Power Module of the ZXR10 1800-2E
Chassis.................................................................................................... 6-7
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Tables
Table 7-1 Description of the Interfaces of the RAC-2838-MPFU-A ............................ 7-2
Table 7-2 Indicator Descriptions for the RAC-2838-MPFU-A ..................................... 7-2
Table 7-3 RST Button Description for the RAC-2838-MPFU-A .................................. 7-3
Table 7-4 Technical Parameters of the RAC-2838-MPFU-A ...................................... 7-3
Table 7-5 Description of the Interfaces of the
RAC-2838-MPFU-B/RAC-2838-MPFU-C ................................................. 7-4
Table 7-6 Description of the Indicators on the Panel of the
RAC-2838-MPFU-B/RAC-2838-MPFU-C ................................................. 7-4
Table 7-7 Description of the RST Button on the Panel of the
RAC-2838-MPFU-B/RAC-2838-MPFU-C ................................................. 7-4
Table 7-8 Technical Parameters of the
RAC-2838-MPFU-B/RAC-2838-MPFU-C ................................................. 7-5
Table 8-1 Descriptions of Interfaces on the RAC-DPIU-OSU-A1 Board ..................... 8-2
Table 8-2 Functions of the Indicators on the Panel of the RAC-DPIU-OSU-A1
Board ....................................................................................................... 8-2
Table 8-3 Functions of the Buttons on the Panel of the RAC-DPIU-OSU-A1
Board ....................................................................................................... 8-2
Table 8-4 Technical Parameters of the RAC-DPIU-OSU-A1 Board............................ 8-2
Table 8-5 Description of Interfaces on the RAC-DPIU-OSU-A2 Board....................... 8-3
Table 8-6 Functions of the Indicators on the Panel of the RAC-DPIU-OSU-A2
Board ....................................................................................................... 8-4
Table 8-7 Functions of the Buttons on the Panel of the RAC-DPIU-OSU-A2
Board ....................................................................................................... 8-4
Table 8-8 Technical Parameters of the RAC-DPIU-OSU-A2 Board............................ 8-4
Table 8-9 Description of Interfaces on an RAC-DPIU-FW-A Board ............................ 8-5
Table 8-10 Functions of Indicators on the Panel of an RAC-DPIU-FW-A
Board ....................................................................................................... 8-5
Table 8-11 Functions of Buttons on the Panel of an RAC-DPIU-FW-A Board ............ 8-5
Table 8-12 Technical Parameters of an RAC-DPIU-FW-A Board ............................... 8-6
Table 9-1 Line Interface Board Types........................................................................ 9-1
Table 9-2 Interface Properties of the RAC-SPIU-02CE1-75 Board ............................ 9-3
Table 9-3 Description of the Indicators on the Panel of the RAC-SPIU-02CE1-75
Board ....................................................................................................... 9-3
Table 9-4 Technical Parameters of the RAC-SPIU-02CE1-75 Board ......................... 9-3
Table 9-5 Interface Properties of the RAC-SPIU-02UE1-75 Board ............................ 9-4
Table 9-6 Description of the Indicators on the Panel of the RAC-SPIU-02UE1-75
Board ....................................................................................................... 9-4
Table 9-7 Technical Parameters of the RAC-SPIU-02UE1-75 Board ......................... 9-5
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Table 9-8 Interface Properties of the RAC-SPIU-02CE1-120 Board .......................... 9-5
Table 9-9 Description of the Indicators on the Panel of the RAC-SPIU-02CE1-120
Board ....................................................................................................... 9-6
Table 9-10 Technical Parameters of the RAC-SPIU-02CE1-120 Board ..................... 9-6
Table 9-11 Interface Properties of the RAC-SPIU-02UE1-120 Board......................... 9-7
Table 9-12 Description of the Indicators on the Panel of the RAC-SPIU-02UE1-120
Board ....................................................................................................... 9-7
Table 9-13 Technical Parameters of the RAC-SPIU-02UE1-120 Board ..................... 9-7
Table 9-14 Interface Properties of the RAC-SPIU-02HS Board ................................. 9-8
Table 9-15 Description of the Indicators on the Panel of the RAC-SPIU-02HS
Board ....................................................................................................... 9-9
Table 9-16 Technical Parameters of the RAC-SPIU-02HS Board .............................. 9-9
Table 9-17 Attributes of Interfaces on an RAC-SPIU-04GE Board........................... 9-10
Table 9-18 Description of Functions of the Indicators on the Panel of the
RAC-SPIU-04GE Board ......................................................................... 9-10
Table 9-19 Technical Parameters of an RAC-SPIU-04GE Board ............................. 9-10
Table 9-20 RAC-PIU-LTE Board Indicator Descriptions ........................................... 9-12
Table 9-21 RAC-PIU-LTE Board Technical Specifications ....................................... 9-13
Table 9-22 Interface Properties of the RAC-PIU-01DSLB Board.............................. 9-13
Table 9-23 Description of the Indicators on the Panel of the RAC-PIU-01DSLB
Board ..................................................................................................... 9-14
Table 9-24 Technical Parameters of the RAC-PIU-01DSLB Board .......................... 9-14
Table 9-25 Interface Properties of the RAC-PIU-04SHDSL Board ........................... 9-15
Table 9-26 Description of the Indicators on the Panel of the RAC-PIU-04SHDSL
Board ..................................................................................................... 9-16
Table 9-27 Technical Parameters of the RAC-PIU-04SHDSL Board ........................ 9-16
Table 9-28 Interface Properties of the RAC-PIU-04HS Board.................................. 9-17
Table 9-29 Description of the Indicators on the Panel of the RAC-PIU-04HS
Board ..................................................................................................... 9-17
Table 9-30 Technical Parameters of the RAC-PIU-04HS Board............................... 9-18
Table 9-31 Interface Properties of the RAC-PIU-04CE1-75 Board........................... 9-18
Table 9-32 Description of the Indicators on the Panel of the RAC-PIU-04CE1-75
Board ..................................................................................................... 9-19
Table 9-33 Technical Parameters of the RAC-PIU-04CE1-75 Board........................ 9-19
Table 9-34 Interface Properties of the RAC-PIU-04CE1-120 Board......................... 9-20
Table 9-35 Description of the Indicators on the Panel of the RAC-PIU-04CE1-120
Board ..................................................................................................... 9-20
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Tables
Table 9-36 Technical Parameters of the RAC-PIU-04CE1-120 Board...................... 9-20
Table 9-37 Interface Properties of the RAC-PIU-04UE1-75 Board........................... 9-21
Table 9-38 Description of the Indicators on the Panel of the RAC-PIU-04UE1-75
Board ..................................................................................................... 9-21
Table 9-39 Technical Parameters of the RAC-PIU-04UE1-75 Board........................ 9-22
Table 9-40 Interface Properties of the RAC-PIU-04UE1-120 Board......................... 9-23
Table 9-41 Description of the Indicators on the Panel of the RAC-PIU-04UE1-120
Board ..................................................................................................... 9-23
Table 9-42 Technical Parameters of the RAC-PIU-04UE1-120 Board...................... 9-23
Table 9-43 Interface Properties of the RAC-PIU-16CE1 Board................................ 9-24
Table 9-44 Description of the Indicators on the Panel of the RAC-PIU-16CE1
Board ..................................................................................................... 9-25
Table 9-45 Technical Parameters of the RAC-PIU-16CE1 Board............................. 9-25
Table 9-46 Interface Properties of the RAC-PIU-16CE1-CES Board ....................... 9-26
Table 9-47 Description of the Indicators on the Panel of the RAC-PIU-16CE1-CES
Board ..................................................................................................... 9-26
Table 9-48 Technical Parameters of the RAC-PIU-16CE1-CES Board .................... 9-26
Table 9-49 Interface Properties of the RAC-PIU-01P12-SFP Board ........................ 9-27
Table 9-50 Description of the Indicators on the Panel of the RAC-PIU-01P12-SFP
Board ..................................................................................................... 9-27
Table 9-51 Technical Parameters of the RAC-PIU-01P12-SFP Board ..................... 9-27
Table 9-52 Interface Properties of the RAC-PIU-02P3-SFP Board .......................... 9-28
Table 9-53 Description of the Indicators on the Panel of the RAC-PIU-02P3-SFP
Board ..................................................................................................... 9-29
Table 9-54 Technical Parameters of the RAC-PIU-02P3-SFP Board ....................... 9-29
Table 9-55 Interface Properties of the RAC-PIU-04P3-SFP Board .......................... 9-30
Table 9-56 Description of the Indicators on the Panel of the RAC-PIU-04P3-SFP
Board ..................................................................................................... 9-30
Table 9-57 Technical Parameters of the RAC-PIU-04P3-SFP Board ....................... 9-30
Table 9-58 Interface Properties of the RAC-PIU-02CP3-SFP Board ........................ 9-31
Table 9-59 Description of the Indicators on the Panel of the RAC-PIU-02CP3-SFP
Board ..................................................................................................... 9-31
Table 9-60 Technical Parameters of the RAC-PIU-02CP3-SFP Board..................... 9-32
Table 9-61 Interface Properties of the RAC-PIU-04CP3-SFP Board ........................ 9-33
Table 9-62 Description of the Indicators on the Panel of the RAC-PIU-04CP3-SFP
Board ..................................................................................................... 9-33
Table 9-63 Technical Parameters of the RAC-PIU-04CP3-SFP Board..................... 9-33
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ZXR10 ZSR V2 Hardware Description
Table 9-64 Interface Properties of the RAC-PIU-04GE-SFP Board.......................... 9-34
Table 9-65 Description of the Indicators on the Panel of the RAC-PIU-04GE-SFP
Board ..................................................................................................... 9-34
Table 9-66 Technical Parameters of the RAC-PIU-04GE-SFP Board....................... 9-35
Table 9-67 Interface Properties of the RAC-PIU-08GE-SFP Board.......................... 9-36
Table 9-68 Description of the Indicators on the Panel of the RAC-PIU-08GE-SFP
Board ..................................................................................................... 9-36
Table 9-69 Technical Parameters of the RAC-PIU-08GE-SFP Board....................... 9-36
Table 9-70 GE Electrical Interface Properties of the RAC-PIU-05GE-4E1SFP
Board ..................................................................................................... 9-37
Table 9-71 Optical Interface Properties of the RAC-PIU-05GE-4E1SFP
Board ..................................................................................................... 9-37
Table 9-72 Description of the Indicators on the Panel of the
RAC-PIU-05GE-4E1SFP Board ............................................................. 9-38
Table 9-73 Technical Parameters of the RAC-PIU-05GE-4E1SFP Board ................ 9-38
Table 9-74 GE Electrical Interface Properties of the RAC-PIU-09GE-8E1SFP
Board ..................................................................................................... 9-39
Table 9-75 Optical Interface Properties of the RAC-PIU-09GE-8E1SFP
Board ..................................................................................................... 9-39
Table 9-76 Description of the Indicators on the Panel of the
RAC-PIU-09GE-8E1SFP Board ............................................................. 9-40
Table 9-77 Technical Parameters of the RAC-PIU-09GE-8E1SFP Board ................ 9-40
Table 9-78 GE Electrical Interface Properties of the RAC-PIU-08FE1GE-1SFP
Board ..................................................................................................... 9-41
Table 9-79 Optical Interface Properties of the RAC-PIU-08FE1GE-1SFP
Board ..................................................................................................... 9-41
Table 9-80 Description of the Indicators on the Panel of the
RAC-PIU-08FE1GE-1SFP Board ........................................................... 9-42
Table 9-81 Technical Parameters of the RAC-PIU-08FE1GE-1SFP Board .............. 9-42
Table 9-82 GE Electrical Interface Properties of the RAC-DPIU-16GE-12SFP4E
Board ..................................................................................................... 9-43
Table 9-83 Optical Interface Properties of the RAC-DPIU-16GE-12SFP4E
Board ..................................................................................................... 9-44
Table 9-84 Description of the Indicators on the Panel of the
RAC-DPIU-16GE-12SFP4E Board......................................................... 9-44
Table 9-85 Technical Parameters of the RAC-DPIU-16GE-12SFP4E Board............ 9-44
Table 9-86 Interface Properties of the RAC-DPIU-01XGE-SFP+ Board................... 9-45
Table 9-87 Description of the Indicators on the Panel of the
RAC-DPIU-01XGE-SFP+ Board............................................................. 9-46
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Tables
Table 9-88 Technical Parameters of the RAC-DPIU-01XGE-SFP+ Board................ 9-46
Table 10-1 Common Cables of the ZXR10 ZSR V2 Router ..................................... 10-1
Table 10-2 Core Wires of a DC Power Cable .......................................................... 10-3
Table 10-3 Technical Parameters of an AC Power Cable ........................................ 10-3
Table 10-4 Core Wires of an AUX Cable ................................................................. 10-4
Table 10-5 Core Wires of a Console Cable ............................................................. 10-5
Table 10-6 Wiring Sequence of the Straight-Through Ethernet Cable ..................... 10-7
Table 10-7 Wiring Sequence of the Cross-Over Ethernet Cable .............................. 10-7
Table 10-8 Technical Parameters of the Ethernet Cable ......................................... 10-7
Table 10-9 Optical Fiber Connector Pairing and Usage ........................................... 10-8
Table 10-10 Wiring Sequence of the SHDSL Cable............................................... 10-10
Table 10-11 Technical Parameters of the SHDSL Cable........................................ 10-10
Table 10-12 Synchronous/Asynchronous Serial Cable Types ............................... 10-13
Table 10-13 E1 Trunk Cable Connections ............................................................. 10-13
Table 10-14 Correspondence Relationships Between the End-A Pins and End-B1
Cores of the 75 Ω Unbalanced Coaxial Cable ...................................... 10-14
Table 10-15 Correspondence Relationships Between the End-A Pins and End-B2
Cores of the 75 Ω Unbalanced Coaxial Cable ...................................... 10-15
Table 10-16 Correspondence Relationships Between the End-A Pins and End-B1
Cores of the 120 Ω Balanced Twisted-Pair Cable ................................. 10-16
Table 10-17 Correspondence Relationships Between the End-A Pins and End-B2
Cores of the 120 Ω Balanced Twisted-Pair Cable ................................. 10-17
Table A-1 Board Weight and Power Consumption of the ZXR10 ZSR V2 Series
Routers ....................................................................................................A-1
Table B-1 SFP Optical Modules ................................................................................B-1
Table B-2 Optical Module Indicator Descriptions .......................................................B-1
Table B-3 155 M SFP Attributes ................................................................................B-1
Table B-4 622 M SFP Attributes ................................................................................B-2
Table B-5 1.25 G SFP Attributes ...............................................................................B-2
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Glossary
ATM
- Asynchronous Transfer Mode
CLI
- Command Line Interface
DCE
- Data Circuit-terminating Equipment
DSL
- Digital Subscriber Line
DSLAM
- Digital Subscriber Line Access Multiplexer
DTE
- Data Terminal Equipment
EFM
- Ethernet in the First Mile
ETSI
- European Telecommunications Standards Institute
FR
- Frame Relay
HDLC
- High-level Data Link Control
IEC
- International Electrotechnical Commission
IEEE
- Institute of Electrical and Electronics Engineers
IP
- Internet Protocol
ITU-T
- International Telecommunication Union - Telecommunication Standardization
Sector
ML-PPP
- Multilink-Point to Point Protocol
ODF
- Optical Distribution Frame
POS
- Packet Over SONET/SDH
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ZXR10 ZSR V2 Hardware Description
PPP
- Point to Point Protocol
RSSI
- Received Signal Strength Indicator
SDH
- Synchronous Digital Hierarchy
SHDSL
- Single-pair High Digital Subscriber Line
SNMP
- Simple Network Management Protocol
SONET
- Synchronous Optical Network
TDM
- Time Division Multiplexing
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Creator                         : Arbortext 5.4
Create Date                     : 2015:04:10 17:58:24+08:00
Producer                        : PDFlib+PDI 7.0.4 (Win32)

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