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CX600-X1-M4
Hardware Description
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Huawei CX600-X1-M, CX600-X2-M, CX600-X1-M4, CX600-X1-M8, CX600-X1-M16 Hardware Description

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HUAWEI CX600-X1-M/CX600-X2-M Series Metro Services Platform
V800R005C01
Hardware Description
Issue
Date 2014-04-30
HUAWEI TECHNOLOGIES CO., LTD.
03
Copyright © Huawei Technologies Co., Ltd. 2014. All rights reserved.
No part of this document may be reproduced or transmitted in any form or by any means without prior written consent of Huawei Technologies Co., Ltd.
Trademarks and Permissions
and other Huawei trademarks are trademarks of Huawei Technologies Co., Ltd.
All other trademarks and trade names mentioned in this document are the property of their respective holders.
Notice
The purchased products, services and features are stipulated by the contract made between Huawei and the customer. All or part of the products, services and features described in this document may not be within the purchase scope or the usage scope. Unless otherwise specified in the contract, all statements, information, and recommendations in this document are provided "AS IS" without warranties, guarantees or representations of any kind, either express or implied.
The information in this document is subject to change without notice. Every effort has been made in the preparation of this document to ensure accuracy of the contents, but all statements, information, and recommendations in this document do not constitute a warranty of any kind, express or implied.
Huawei Technologies Co., Ltd.
Address: Huawei Industrial Base
Bantian, Longgang Shenzhen 518129 People's Republic of China
Website: http://www.huawei.com
Email: support@huawei.com
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HUAWEI CX600-X1-M/CX600-X2-M Series Metro Services Platform Hardware Description
Purpose
This document describes hardware features of the CX600, which helps intended readers obtain detailed information about each chassis, board, and cable, and rapidly locate specific information through lists of components.

About This Document

About This Document
Note the following precautions:
l Currently, the device supports the AES and SHA2 encryption algorithms. AES is reversible,
while SHA2 is irreversible. A protocol interworking password must be reversible, and a local administrator password must be irreversible.
l If the plain parameter is specified, the password will be saved in plaintext in the configuration
file, which has a high security risk. Therefore, specifying the cipher parameter is recommended. To further improve device security, periodically change the password.
l Do not set both the start and end characters of a password to "%$%$." This causes the
password to be displayed directly in the configuration file.
Related Version
The following table lists the product version related to this document.
Product Name Version
CX600 V800R005C01
NOTICE
U2000 V100R009C00
Intended Audience
This document is intended for:
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HUAWEI CX600-X1-M/CX600-X2-M Series Metro Services Platform Hardware Description
l Network planning engineers
l Hardware installation engineers
l Commissioning engineers
l On-site maintenance engineers
l System maintenance engineers
Symbol Conventions
The symbols that may be found in this document are defined as follows.
Symbol Description
About This Document
Indicates an imminently hazardous situation which, if not avoided, will result in death or serious injury.
Indicates a potentially hazardous situation which, if not avoided, could result in death or serious injury.
Change History
Updates between document issues are cumulative. Therefore, the latest document issue contains all updates made in previous issues.
Indicates a potentially hazardous situation which, if not avoided, may result in minor or moderate injury.
Indicates a potentially hazardous situation which, if not avoided, could result in equipment damage, data loss, performance deterioration, or unanticipated results.
NOTICE is used to address practices not related to personal injury.
Calls attention to important information, best practices and tips.
NOTE is used to address information not related to personal injury, equipment damage, and environment deterioration.
Changes in Issue 03 (2014-04-30)
This issue is the third official release.
Changes in Issue 02 (2013-08-30)
This issue is the second official release.
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HUAWEI CX600-X1-M/CX600-X2-M Series Metro Services Platform Hardware Description About This Document
Changes in Issue 01 (2013-05-30)
This issue is the first official release.
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HUAWEI CX600-X1-M/CX600-X2-M Series Metro Services Platform Hardware Description

Contents

Contents
About This Document.....................................................................................................................ii
1 CX600-X1-M4 Hardware Description........................................................................................1
1.1 Overview........................................................................................................................................................................2
1.1.1 System Overview.........................................................................................................................................................2
1.1.2 Main Components and Slot Layout.............................................................................................................................4
1.1.3 CX600-X1-M4 Specifications.....................................................................................................................................6
1.1.4 Board Specifications....................................................................................................................................................8
1.2 Power Supply System.....................................................................................................................................................9
1.2.1 Architecture of the Power Supply System...................................................................................................................9
1.2.2 Diagram of the Power Supply Architecture................................................................................................................9
1.2.3 DC Power Supply System.........................................................................................................................................10
1.2.4 AC Power Supply System.........................................................................................................................................11
1.3 Heat Dissipation System...............................................................................................................................................13
1.3.1 Air Channel................................................................................................................................................................14
1.3.2 Fan Module................................................................................................................................................................14
1.4 Data Plane.....................................................................................................................................................................15
1.4.1 Introduction to the Data Plane...................................................................................................................................15
1.4.2 Introduction to the NPU-50.......................................................................................................................................16
1.4.3 Introduction to the NPU-50-E...................................................................................................................................18
1.4.4 Introduction to the NPU-120.....................................................................................................................................19
1.4.5 Introduction to the NPU-120-E.................................................................................................................................21
1.5 Control Plane................................................................................................................................................................23
1.5.1 Introduction to the Control Plane..............................................................................................................................23
1.5.2 MPUK........................................................................................................................................................................24
2 CX600-X2-M8 Hardware Description......................................................................................28
2.1 Overview......................................................................................................................................................................29
2.1.1 System Overview.......................................................................................................................................................29
2.1.2 Main Components and Slot Layout...........................................................................................................................32
2.1.3 CX600-X2-M8 Specifications...................................................................................................................................36
2.1.4 Board Specifications..................................................................................................................................................39
2.2 Power Supply System...................................................................................................................................................40
2.2.1 Architecture of the Power Supply System.................................................................................................................40
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2.2.2 Diagram of the Power Supply Architecture..............................................................................................................41
2.2.3 DC Power Supply System.........................................................................................................................................41
2.2.4 AC Power Supply System.........................................................................................................................................43
2.3 Heat Dissipation System...............................................................................................................................................44
2.3.1 Air Channel................................................................................................................................................................44
2.3.2 Fan Module................................................................................................................................................................45
2.4 Data Plane.....................................................................................................................................................................47
2.4.1 Introduction to the Data Plane...................................................................................................................................47
2.4.2 Introduction to the NPU-50.......................................................................................................................................47
2.4.3 Introduction to the NPU-50-E...................................................................................................................................49
2.4.4 Introduction to the NPU-120.....................................................................................................................................50
2.4.5 Introduction to the NPU-120-E.................................................................................................................................52
2.5 Control Plane................................................................................................................................................................54
2.5.1 Introduction to the Control Plane..............................................................................................................................54
2.5.2 MPUK........................................................................................................................................................................55
Contents
3 CX600-X2-M16 Hardware Description....................................................................................59
3.1 Overview......................................................................................................................................................................60
3.1.1 System Overview.......................................................................................................................................................60
3.1.2 Main Components and Slot Layout...........................................................................................................................62
3.1.3 CX600-X2-M16 Specifications.................................................................................................................................66
3.1.4 Board Specifications..................................................................................................................................................68
3.2 Power Supply System...................................................................................................................................................69
3.2.1 Architecture of the Power Supply System.................................................................................................................69
3.2.2 Diagram of the Power Supply Architecture..............................................................................................................69
3.2.3 DC Power Supply System.........................................................................................................................................70
3.2.4 AC Power Supply System.........................................................................................................................................71
3.3 Heat Dissipation System...............................................................................................................................................72
3.3.1 Air Channel................................................................................................................................................................73
3.3.2 Fan Module................................................................................................................................................................73
3.4 Data Plane.....................................................................................................................................................................75
3.4.1 Introduction to the Data Plane...................................................................................................................................75
3.4.2 Introduction to the NPU-50.......................................................................................................................................75
3.4.3 Introduction to the NPU-50-E...................................................................................................................................77
3.4.4 Introduction to the NPU-120.....................................................................................................................................79
3.4.5 Introduction to the NPU-120-E.................................................................................................................................80
3.5 Control Plane................................................................................................................................................................82
3.5.1 Introduction to the Control Plane..............................................................................................................................82
3.5.2 MPUK........................................................................................................................................................................83
4 Boards............................................................................................................................................88
4.1 4-Port 10GBase LAN-SFP+ Physical Interface Card(PIC)..........................................................................................89
4.2 1-Port 10GBase LAN/WAN-SFP+ + 8-Port 100/1000Base-X-SFP Physical Interface Card(PIC).............................92
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HUAWEI CX600-X1-M/CX600-X2-M Series Metro Services Platform Hardware Description
4.3 2-Port 10GBase LAN/WAN-SFP+ Physical Interface Card(PIC)...............................................................................99
4.4 8-Port 100/1000Base-X-SFP Physical Interface Card(PIC).......................................................................................103
4.5 8-Port 100/1000Base-RJ45 Physical Interface Card(PIC).........................................................................................107
4.6 4-Port Channelized STM-1c POS-SFP Physical Interface Card(PIC).......................................................................109
4.7 32-Port E1 Physical Interface Card(PIC, 75ohm)......................................................................................................112
4.8 32-Port E1 Physical Interface Card(PIC, 120ohm)....................................................................................................115
4.9 16-Port E1 Physical Interface Card(PIC, 75ohm)......................................................................................................117
4.10 16-Port E1 Physical Interface Card(PIC, 120ohm)..................................................................................................120
4.11 4-Port OC-3c/STM-1c POS-SFP Physical Interface Card(FIC)..............................................................................122
4.12 Auxiliary Flexible Interface Card with 4-Port 100Base-RJ45(FIC, Supporting 1588v2)........................................125
4.13 8-Channel CWDM Multiplexing/Demultiplexing (1471/1491/1511/1531/1551/1571/1591/1611nm) Physical
Interface Card(PIC)..........................................................................................................................................................129
Contents
5 Cables...........................................................................................................................................132
5.1 Power Cable................................................................................................................................................................133
5.1.1 DC Power Cables.....................................................................................................................................................133
5.1.2 AC Power Cables.....................................................................................................................................................134
5.2 Chassis and Cabinet Grounding Cable.......................................................................................................................135
5.2.1 Introduction.............................................................................................................................................................135
5.2.2 Structure...................................................................................................................................................................135
5.2.3 Technical Specifications..........................................................................................................................................135
5.3 Console Port Cable.....................................................................................................................................................136
5.3.1 Introduction.............................................................................................................................................................136
5.3.2 Structure...................................................................................................................................................................136
5.3.3 Technical Specifications..........................................................................................................................................137
5.4 Auxiliary Port Cable...................................................................................................................................................138
5.4.1 Introduction.............................................................................................................................................................138
5.4.2 Structure...................................................................................................................................................................138
5.4.3 Technical Specifications..........................................................................................................................................139
5.5 Clock Cable................................................................................................................................................................140
5.5.1 Introduction.............................................................................................................................................................140
5.5.2 Structure...................................................................................................................................................................140
5.5.3 Technical Specifications..........................................................................................................................................141
5.6 Ethernet Cable............................................................................................................................................................142
5.6.1 Introduction.............................................................................................................................................................142
5.6.2 Structure...................................................................................................................................................................142
5.6.3 Technical Specifications..........................................................................................................................................144
5.7 Optical Fiber...............................................................................................................................................................145
5.7.1 Introduction.............................................................................................................................................................145
5.7.2 Optical Connectors..................................................................................................................................................145
5.7.3 Technical Specifications..........................................................................................................................................146
5.8 16xE1 Cable...............................................................................................................................................................146
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HUAWEI CX600-X1-M/CX600-X2-M Series Metro Services Platform Hardware Description
5.8.1 Overview.................................................................................................................................................................146
5.8.2 Structure...................................................................................................................................................................147
5.8.3 Technical Specifications..........................................................................................................................................150
5.9 75-ohm 155M Electrical Interface Optical Module Cable.........................................................................................151
5.9.1 Overview.................................................................................................................................................................151
5.9.2 Architecture.............................................................................................................................................................152
5.9.3 Technical Specifications..........................................................................................................................................152
5.10 Alarm Input/Output Cables......................................................................................................................................153
5.10.1 Introduction...........................................................................................................................................................153
5.10.2 Structure.................................................................................................................................................................153
5.10.3 Technical Specifications........................................................................................................................................154
Contents
A List of Indicators.......................................................................................................................155
A.1 Indicators on the CX600-X1-M4...............................................................................................................................156
A.1.1 Indicators on a Fan Module....................................................................................................................................156
A.1.2 Indicators on a PSU................................................................................................................................................156
A.1.3 Indicators on an MPU.............................................................................................................................................157
A.1.4 Indicators on an NPU..............................................................................................................................................157
A.1.5 Indicators on a Flexible Card..................................................................................................................................158
A.2 Indicators on the CX600-X2-M8...............................................................................................................................159
A.2.1 Fan Module Indicators............................................................................................................................................159
A.2.2 Power Module Indicators........................................................................................................................................159
A.2.3 MPU Indicators.......................................................................................................................................................160
A.2.4 Forwarding Board Indicators..................................................................................................................................160
A.2.5 FIC Indicators.........................................................................................................................................................161
A.3 Indicators on the CX600-X2-M16.............................................................................................................................162
A.3.1 Fan Module Indicators............................................................................................................................................162
A.3.2 Power Module Indicators........................................................................................................................................162
A.3.3 MPU Indicators.......................................................................................................................................................163
A.3.4 Forwarding Board Indicators..................................................................................................................................163
A.3.5 FIC Indicators.........................................................................................................................................................164
B List of Boards.............................................................................................................................165
B.1 List of Boards.............................................................................................................................................................166
B.2 Board Power Consumption and Weight....................................................................................................................168
C List of Interface Attributes......................................................................................................170
C.1 Interface Attributes of 10Base-TX/100Base-TX/1000Base-T-RJ45.........................................................................171
C.2 Interface Attributes of 1000Base-X-SFP...................................................................................................................171
C.3 Interface Attributes of 10GBase LAN-SFP+.............................................................................................................172
C.4 Interface Attributes of OC-3c/STM-1c cPOS-SFP....................................................................................................174
C.5 Interface Attributes of OC-3c/STM-1c POS-SFP......................................................................................................175
C.6 E1 Interface Attributes...............................................................................................................................................176
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HUAWEI CX600-X1-M/CX600-X2-M Series Metro Services Platform Hardware Description Contents
D Optical Module.........................................................................................................................178
D.1 Instructions on How to Use an Optical Module........................................................................................................179
D.2 155Mbps SFP Electrical Transceiver........................................................................................................................181
D.3 155 Mbit/s SFP/eSFP Optical Module......................................................................................................................183
D.4 1.25 Gbit/s SFP/eSFP Optical Module......................................................................................................................190
D.5 1.25 Gbit/s SFP/eSFP CWDM Optical Module........................................................................................................197
D.6 10-Gbit/s SFP+ Optical Module................................................................................................................................200
D.7 10 Gbit/s SFP+ CWDM Optical Module...................................................................................................................206
D.8 BIDI Optical Module.................................................................................................................................................210
E Glossary...................................................................................................................................... 220
F Acronyms and Abbreviations.................................................................................................222
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HUAWEI CX600-X1-M/CX600-X2-M Series Metro Services Platform Hardware Description 1 CX600-X1-M4 Hardware Description

1 CX600-X1-M4 Hardware Description

About This Chapter
1.1 Overview
1.2 Power Supply System
1.3 Heat Dissipation System
1.4 Data Plane
1.5 Control Plane
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HUAWEI CX600-X1-M/CX600-X2-M Series Metro Services Platform Hardware Description

1.1 Overview

The CX600-X1-M4 is a high-end network device developed by Huawei. This device is based on the VRP and applies to the access, convergence, and transmission of Metro services.
The CX600-X1-M4 has great capabilities for network access, Layer 2 switching, and EoMPLS transmission, and supports a wide range of high-speed and low-speed interfaces. In addition, the CX600-X1-M4 supports triple-play of voice, video, and data services and can bear 2G, 3G, and LTE services simultaneously. The CX600-X1-M4 can be deployed together with Huawei NE, CX, and ME series products to build a hierarchical Metro Ethernet network that offers extensive services.

1.1.1 System Overview

System Overview
Being equipped with a centralized routing engine and NP forwarding structure, the CX600-X1­M4 has a great capacity and can provide diverse services.
1 CX600-X1-M4 Hardware Description
The CX600-X1-M4 has an integrated chassis that can be installed independently. The main parts of the CX600-X1-M4 such as MPUs, NPUs, PICs, fan modules, and PSUs are hot-swappable.
Figure 1-1 shows the outline of the CX600-X1-M4. The CX600-X1-M4 provides one slot for
the NPU and four slots for PICs. The network process unit on the CX600-X1-M4 is NPU. All the PICs switch data with each other through the NPU.
Figure 1-1 Outline of the CX600-X1-M4
System Architecture
The logical architecture of the CX600 consists of the following planes: data plane, control and management plane, and monitoring plane, as shown in Figure 1-2. The data plane processes and switches data packets quickly and smoothly; the control and management plane, as the core of the system, controls and manages the system; the monitoring plane monitors the ambient operating conditions.
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Monitoring plane
Control and management plane
Data plane
MPU
NPU
PIC *N
Management
unit
NPU
Forwarding
unit
System
monitoring unit
MPU
Data channel
System
monitoring unit
System
monitoring unit
System
monitoring unit
Management
unit
PIC
management
unit
Forwarding
unit
HUAWEI CX600-X1-M/CX600-X2-M Series Metro Services Platform Hardware Description
Figure 1-2 Diagram of the system architecture
1 CX600-X1-M4 Hardware Description
Main System Features
NOTE
CX600-X2-M8/M16 has two NPU boards, and CX600-X1-M4 has only one NPU board.
The main features of the system include:
l NP-based forwarding which enables fast service deployment
l Compact structure which increases the port density
l Separation of the control channels, service channels, and monitoring channels, which
ensures the connectivity of control channels and monitoring channels
l High-level carrier-class reliability and manageability
l Module-level shielding which meets Electro Magnetic Compatibility (EMC) requirements
l Hot-swappable boards, PSUs, and fan modules
l 1:1 backup of MPUs
l Backup for key parts such as PSUs, clocks, and management buses
l Protection against incorrect insertion of boards
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10
FAN
8 PSU 9 PSU
5 NPU
1 PIC
4 PIC
3 PIC
6 MPU 7 MPU
2 PIC
HUAWEI CX600-X1-M/CX600-X2-M Series Metro Services Platform Hardware Description
l Queries about alarm prompts, alarm indications, running status, and alarm status of PSUs
l Queries about alarm prompts, alarm indications, running status, and alarm status of the
voltage and ambient temperature

1.1.2 Main Components and Slot Layout

Main Components
The CX600-X1-M4 has an integrated chassis with main parts that all support hot swapping.
Figure 1-3 shows the outline and parts of the CX600-X1-M4.
Figure 1-3 Outline and parts of the CX600-X1-M4
1 CX600-X1-M4 Hardware Description
Slot Layout
1. PSU
5. NPU 6. Rack-mounting ear 7. ESD jack 8. Grounding Terminal
9. Air intake vent 10. Fan module 11. Grounding Terminal
Figure 1-4 shows the slot layout of the CX600-X1-M4.
Figure 1-4 Slot layout of the CX600-X1-M4
2. MPU 3. PIC 4. Cable tray
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10
8 9
5
4 3
2
6 7
1
g0/4/1
g0/1/2
HUAWEI CX600-X1-M/CX600-X2-M Series Metro Services Platform Hardware Description 1 CX600-X1-M4 Hardware Description
Table 1-1 Number and layout of slots on the CX600-X1-M4
Slot No. QuantityRemarks
1,2, 3, and 4 4 For sub-cards.
5 1 For NPUs.
6 and 7 2 For MPUs, which work in 1:1 backup.
8 and 9 2 For PSUs, which work in 1+1 backup mode.
10 1 For a fan module.
Numbering Rule of Service Interfaces on the CX600-X1-M4
Service interfaces on the CX600-X1-M4 are numbered in the following format: 0/subcard slot number/interface number on the subcard.
l A subcard slot number is the number of the slot where an interface's subcard resides. A
subcard slot number ranges from 1 to 4.
l An interface number on the subcard starts with 0, and its maximum value is determined by
the actual number of interfaces on the subcard.
The following figure shows how a service interface is numbered on the CX600-X1-M4.
Figure 1-5 Numbering rule of service interfaces on the CX600-X1-M4
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Table 1-2 CX600-X1-M4 slot description
Slot QuantityRemarks
1, 2, 3, and 4 4 Slots for high-speed and low-speed subcards
5 1 Slot for the NPU
6 and 7 2 Slots for MPUs in 1:1 backup mode
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HUAWEI CX600-X1-M/CX600-X2-M Series Metro Services Platform Hardware Description 1 CX600-X1-M4 Hardware Description
Slot QuantityRemarks
8 and 9 2 Slots for DC power modules in 1+1 backup mode
10 1 Slot for a fan module

1.1.3 CX600-X1-M4 Specifications

Chassis Specifications
Table 1-3 Physical specifications of the CX600-X1-M4
Item Specification
Dimensions (H x W x D) 132 mm x 442 mm x 220 mm (5.20 in. x 17.40 in. x 8.66 in.)
Installation Can be installed in an N63B cabinet, a 19-inch standard
cabinet, or a 23-inch rack that complies with the North American standard
Weight Full configuration: 13 kg (28.67 lb)
Typical power consumption 350 W
Heat dissipation 1135 BTU/hour
DC input voltage
System reliability
Ambient temperature
Rated voltage
Maximum voltage range
MTBF (year)
MTTR (hour)
Long-term Ordinary mode: 0°C to +45°C (32°F to 113°F)
-48 V
-38 V to -72 V
31.07
0.5
Enhancement mode: -40°C to +65°C (-40°F to 149°F)
NOTE
The use of optical components may limit the ambient temperature range.
Short-term -5°C to +55°C (23°F to 131°F) (Short-term refers to a period
of not more than 96 consecutive hours and a total of not more than 15 days in 1 year.)
Remarks Temperature change rate limit: 30°C/hour (86°F/hour)
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HUAWEI CX600-X1-M/CX600-X2-M Series Metro Services Platform Hardware Description
Item Specification
Storage temperature -40°C to +70°C (-40°F to 158°F)
1 CX600-X1-M4 Hardware Description
Ambient relative humidity
Storage relative humidity 0% RH to 95% RH, noncondensing
Long-term working altitude Lower than 3000 m (9842.4 ft)
Storage altitude Lower than 5000 m (16404 ft)
NOTE
In the dimensions shown in the table, the width (W) does not include the rack-mounting ears.
Temperature and humidity are measured at 1.5 m (4.92 ft.) above the floor and 0.4 m (1.31 ft.) in front of the cabinet. There should be no protection board on the front or back of the cabinet.
"Short-term" refers to continuous working time that does not exceed 96 hours and accumulated working time per year that does not exceed 15 days. If the working time exceeds either of these values, it is considered "long­term".
The device cannot start at an ambient temperature lower than -20°C (-4°F).
Product Specifications
Long-term 5% RH to 85% RH, noncondensing
Short-term 5% RH to 95% RH, noncondensing
Table 1-4 System configuration list of the CX600-X1-M4
Item Description
Processing unit Main frequency: 1.2 GHz
SDRAM 2 GB
Flash 16 MB
eUSB 2 GB
Switching capacity 240 Gbit/s (NPU-120\120-E)
100 Gbit/s (NPU-50\50-E)
Interface capacity NPU-120\120-E:240 Gbit/s
NPU-50\50-E: 100 Gbit/s
Number of NPU slots 1
Number of PIC slots 4
Number of MPU slots 2
Maximum port rate supported by
10 Gbit/s
PICs or NPU
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HUAWEI CX600-X1-M/CX600-X2-M Series Metro Services Platform Hardware Description 1 CX600-X1-M4 Hardware Description

1.1.4 Board Specifications

Type Board Name Silkscreen Print
MPU MPUK CX-MPUK
Network Processing Unit NPU-50
NPU-50-E
Network Processing Unit NPU-120
NPU-120-E
Physical Interface Card 4-Port 10GBase LAN-SFP+ Physical
Interface Card(PIC)
1-Port 10GBase LAN/WAN-SFP+ + 8-Port 100/1000Base-X-SFP Physical Interface Card(PIC)
Physical Interface Card 2-Port 10GBase LAN/WAN-SFP+
Physical Interface Card(PIC)
8-Port 100/1000Base-X-SFP Physical Interface Card(PIC)
8-Port 100/1000Base-RJ45 Physical Interface Card(PIC)
32-Port E1 Physical Interface Card
(PIC, 120ohm)
NPU-50
NPU-50-E
NPU-120
NPU-120-E
4x10GE-SFP+
1x10GE-8xGE­SFP
2x10GE-SFP+
8xFE/GE-SFP
8xFE/GE-RJ
32xE1-120
16-Port E1 Physical Interface Card (PIC, 75ohm)
16-Port E1 Physical Interface Card (PIC, 120ohm)
Physical Interface Card 4-Port OC-3c/STM-1c POS-SFP
Physical Interface Card(PIC)
Physical Interface Card 4-Port Channelized OC-3c/STM-1c
POS-SFP Physical Interface Card (PIC)
Physical Interface Card 4-Port OC-3c/STM-1c POS-SFP
Physical Interface Card(PIC)
PIC 8-Port CWDM Multiplexer/
Demultiplexer (1471/1491/1511/1531/1551/1571/159 1/1611 nm) Physical Interface Card (PIC)
16xE1-75
16xE1-120
4xSTM1-POS
4xSTM1-cPOS
4xSTM1-POS
MD8A-CWDM
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HUAWEI CX600-X1-M/CX600-X2-M Series Metro Services Platform Hardware Description
Type Board Name Silkscreen Print
1 CX600-X1-M4 Hardware Description
FIC Auxiliary Flexible Interface Card
with 4-Port 100Base-RJ45 (FIC,Supporting 1588v2)

1.2 Power Supply System

1.2.1 Architecture of the Power Supply System

The device supports DC power input of -48 V DC or -60 V DC and outside AC power input of 85 V AC or 220 V AC.
The device is powered by two PSUs, which work in 1+1 backup mode. When one PSU fails or is removed, the other one can still supply adequate power for the device. The PSUs are installed in the two top slots of the chassis and supply power for the MPUs, NPU, PICs, and fan module.
In the case of an AC power supply system, one AC power frame is placed outside the chassis (Huawei ETP48120-F1 is configured compliant to the standards) and installed with rectifier modules based on system power. The AC power frames are then connected to the input terminals on the DC-PEMs to supply power for the system. (In short, external AC power frames are added to the DC power supply system to constitute an AC power supply system.)
AUX/4xFE-A
The following measures are taken to ensure that the PSUs can supply stable and safe power for the system:
l Protection against output overcurrent
l Protection against output overvoltage
l Protection against input undervoltage
l Protection against overtemperature
l Protection against short circuit
l Alarm generation

1.2.2 Diagram of the Power Supply Architecture

A power supply system consists of two power modules working in 1+1 redundancy mode.
Figure 1-6 shows the diagram of the power supply architecture. Each power module provides
a 48 V power input and a 3.3 V power input to the boards. The two 48 V power inputs are integrated in the boards and the two 3.3 V power inputs are integrated in the backplane and then input to the boards. Each power module provides a 48 V power input to the fans. The two 48 V power inputs are integrated in the backplane and then input to the fans.
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PEM A
PEM B
FAN
MPU/NPU/PIC
48V-fan48V-A-fan
48V-B-fan 48V-A
48V-B
48V-A
48V-B
3.3V-A
3.3V-B 3.3V
Backplane
3.3V
HUAWEI CX600-X1-M/CX600-X2-M Series Metro Services Platform Hardware Description
Figure 1-6 Diagram of the power supply architecture
1 CX600-X1-M4 Hardware Description

1.2.3 DC Power Supply System

The device uses two PSUs, which work in 1+1 backup mode, for power supply. Figure 1-7 shows the outline of a PSU.
Figure 1-7 Outline of a PSU
Table 1-5 Specifications of the PSUs
Item Specification
Dimensions (H x W x D) 20 mm x 194 mm x 226 mm (0.79 in. x 7.64
in. x 8.90 in.)
Weight 1 kg (2.21 lb)
Rated voltage -48 V DC or -60 V DC
Input voltage range -38.4 V DC to -72 V DC
Maximum input current 25 A
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Maximum output power 1200 W
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HUAWEI CX600-X1-M/CX600-X2-M Series Metro Services Platform Hardware Description
Table 1-6 Description of the indicators on the PSUs
Indicator Name Description
OUT When the indicator is steady green, the PSUs are working properly
and supply stable power.
When the indicator is steady red, the hardware of the PSUs fails or the device is not supplied with power ranging from -48 V or -60 V or the input voltage is lower or higher than the normal range.
When the indicator is off, the PSUs are switched off or the hardware of the PSUs is faulty.
IN When the indicator is steady green, the power input is normal.
When the indicator is off, the device is not supplied with power ranging from -48 V or -60 V.
l Notes on DC power monitoring:
The DC power monitoring channel can implement real-time monitoring on power supply. In addition, the DC power monitoring channel allows you to query the manufacturing ID, input voltage, and temperature of the PSUs in real time, and supports real-time reporting of power supply alarms.
l Notes on the configuration of DC power cables:
You do not need to connect protection ground cables to the PSUs, but the protection ground cable for the chassis must be properly grounded. DC power cables include a -48 V power cable and a return (RTN) ground cable. The required cable length depends on the distance between the cabinet and the power distribution cabinet for the device. The DC power cables need to be prepared according to the required lengths on site. For details about DC power cables, see 5.1.1 DC Power Cables.
1 CX600-X1-M4 Hardware Description

1.2.4 AC Power Supply System

Working principles of the ETP48120-F1 AC power supply system are as follows:
The ETP48120-F1 uses single-phase power input.
The ETP48120-F1 supplies power for AC-DC rectifiers using the system backplane.
The DC output of the AC-DC rectifiers is congregated by the bus and then divided to multiple power-supplying channels.
The SMU01A monitoring module monitors the operating parameters of the ETP48120-F1 in real time, analyzes the operating status, and reports alarms.
Figure 1-8 shows the outline of an AC power supply system.
Figure 1-8 Outline of an AC Power Supply System
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HUAWEI CX600-X1-M/CX600-X2-M Series Metro Services Platform Hardware Description 1 CX600-X1-M4 Hardware Description
Figure 1-9 shows the panel of an AC power supply system.
Figure 1-9 Panel of an AC Power Supply System
1. AC input module
2. R4815G1 rectification module
3. SMU01A monitoring module
4. PDM213 power distribution module
(two)
Table 1-7 Specifications of the AC Power Supply Systems
Item Specification
Dimensions (H x W x D) 43.6 mm x 442 mm x 255 mm (1.72 in. x
17.40 in. x 10.04 in.)
Weight 7 kg (15.44 lb)
Rated voltage 100 V AC to 120 V AC (low-voltage)
200 V AC to 240 V AC (high-voltage)
Input voltage range 90 V AC to 276 V AC
Maximum input current 10 A
Maximum output power 870 W/module
Table 1-8 LED Description
LED ColorNor
mal Stat us
Abn orm al Stat
Exception Cause Suggestion
us
Running
Greenon off No AC input exists. Ensure that the AC input
LED
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voltage is normal.
12
HUAWEI CX600-X1-M/CX600-X2-M Series Metro Services Platform Hardware Description
1 CX600-X1-M4 Hardware Description
LED ColorNor
mal Stat us
Protection LED
Yellowoff on Overtemperature
Abn orm al Stat us
Blink ing
Blink ing
Exception Cause Suggestion
The input fuse is damaged.
Being queried manually.
pre-alarm.
An AC input undervoltage or overvoltage occurs.
Communication between the rectifier and an external side is interrupted.
Replace the rectifier.
Exit the query state.
Ensure that the vent of the rectifier is unblocked.
Ensure that the AC input voltage is normal.
Clean the golden finger connection. If the protection LED is still blinking, rectify the fault on the external module.
Fault LED Red off on Output overvoltage

1.3 Heat Dissipation System

The heat dissipation system is responsible for the heat dissipation of the entire device. Heat generated by the boards is dissipated through the heat dissipation system. In this manner, the temperatures of the components on the boards are controlled within a normal range, enabling the boards to work stably. The heat dissipation system is composed of a fan frame, an air intake vent, an air exhaust vent, and an air channel. All the fans in the fan frame work simultaneously, and their rotation speeds can be adjusted by area. When one fan fails, the heat dissipation system can still allow the device to work at an ambient temperature of 40°C (104°F) for a short period. The temperature sensors, which are located on the air exhaust vent and boards, monitor the temperatures of the components on the boards and adjust the fan rotation speeds according to the commands delivered by the MPU to control the board temperatures.
Blink ing
occurs.
No output exists because of a fault inside the rectifier.
Software is being loaded.
Remove the rectifier and install it again. If there is still no output, replace the rectifier.
Replace the rectifier.
The LED stops blinking when the loading is complete.
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HUAWEI CX600-X1-M/CX600-X2-M Series Metro Services Platform Hardware Description 1 CX600-X1-M4 Hardware Description

1.3.1 Air Channel

The CX600-X1-M4 dissipates heat by blowing air in a left-to-right direction. Figure 1-10 shows the air flow in the CX600-X1-M4.
Figure 1-10 Air flow in the CX600-X1-M4

1.3.2 Fan Module

The air intake vent of the CX600-X1-M4 is 3U (133.35 mm or 5.25 in.) high and 220 mm (8.67 in.) deep.
There are six fans in the fan frame of the CX600-X1-M4. When one fan fails, the device can still work at an ambient temperature of 40°C (104°F) for a short period.
The rotation speeds of the fans can automatically be adjusted based on the device temperature.
Figure 1-11 Outline of the fan module for the CX600-X1-M4
Table 1-9 Technical specifications of the fan module for the CX600-X1-M4
Item Specification
Dimensions (H x W x D)
Weight 1.1 kg (2.43 lb)
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130 mm x 50 mm x 226 mm (5.12 in. x 1.97 in. x 8.90 in.)
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HUAWEI CX600-X1-M/CX600-X2-M Series Metro Services Platform Hardware Description
Item Specification
1 CX600-X1-M4 Hardware Description
Maximum power consumption
Maximum wind pressure
Maximum wind rate
Noise 56.5 dB
Table 1-10 Description of the indicators on the fan module
Indicator/Button Description
FAN indicator When the indicator is steady green, the fan module is working
118 W
569 Pa
135 cubic feet per minute (CFM)
properly.
When the indicator is off, the fan module is unregistered, powered off, or has a hardware fault.
When the indicator is steady red, the fan module fails.

1.4 Data Plane

1.4.1 Introduction to the Data Plane

As key parts of the CX600-X1-M4, Network Processing Units (NPUs) are responsible for data processing and data exchange between Physical Interface Cards (PICs) and NPUs.
The procedure for data processing is as follows:
1. The IP packets sent from PICs converge at a convergence module.
2. The Network Processor (NP) processes the IP packets.
3. The Traffic Management (TM) module performs traffic management on the IP packets.
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B a
c k p l
a n e
OVER
SUBSCRI
BED
NP
TM
NPU
P H Y
SFP
RJ45
INTERFACE
CONVERSION
MODULE
P H Y
SFP
RJ45
INTERFACE
CONVERSION
MODULE
HUAWEI CX600-X1-M/CX600-X2-M Series Metro Services Platform Hardware Description
Figure 1-12 Data plane architecture of the CX600-X1-M4
1 CX600-X1-M4 Hardware Description

1.4.2 Introduction to the NPU-50

NOTE
NPU-50 must not be installed in an outdoor cabinet.
The NPU-50 on the CX600-X1-M4 processes service data of the entire system.
The NPU-50 has a 50-Gbit/s forwarding capability in each direction, and all subcards exchange data through the NPU-50.
You can install only one NPU-50 on the chassis of the CX600-X1-M4.
The NPU-50 consists of the following planes:
l Control and management plane
Through the management channels between MPUs and the NPU-50, the MPUs can manage the subcards, and transmit routing protocol data.
l Data forwarding plane
The NPU-50 is responsible for service processing in the entire system, and is connected to all subcards through data channels.
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Table 1-11 NPU-50 parameters
Item Description Remarks
Forwarding capability 50 Gbit/s (bidirectional) -
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HUAWEI CX600-X1-M/CX600-X2-M Series Metro Services Platform Hardware Description
Figure 1-13 Appearance of the NPU on the CX600-X1-M4
1. STAT indicator 2. ACT indicator 3. OFL button
Table 1-12 describes the buttons and indicators on the NPU panel.
Table 1-12 Description of the buttons and indicators on the NPU panel
1 CX600-X1-M4 Hardware Description
Specifications
Indicator/
Description
Button
STAT indicator
If the indicator is on, the NPU is working properly.
If the indicator blinks green, theNPU is being registered.
If the indicator is off, the NPU is faulty, not powered on, or fails to be registered.
ACT indicator
OFL button
If the indicator is steady green, the NPU is in the master state.
If the indicator is off, the NPU is in the slave state or fails to be registered.
This button indicates the removal of the NPU. Before removing the NPU, press and hold the OFL button for 6s until the OFL indicator comes on. Then, you can remove the NPU.
Table 1-13 lists the specifications of the NPU.
Table 1-13 Specifications of the NPU
Item Specification
Silkscreen of the board
NPU-50
name
Typical power
165 W
consumption
Heat dissipation 535.3 BTU/hour
Weight 2.6 kg (5.73 lb)
Dimensions (H x W x D) 20 mm x 194 mm x 226 mm (0.79 in. x 7.64 in. x 8.90 in.)
Earliest Software Version V800R005C01
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HUAWEI CX600-X1-M/CX600-X2-M Series Metro Services Platform Hardware Description 1 CX600-X1-M4 Hardware Description

1.4.3 Introduction to the NPU-50-E

NOTE
NPU-50-E can be installed in an outdoor cabinet.
The NPU-50-E on the CX600-X1-M4 processes service data of the entire system.
The NPU-50-E has the 50-Gbit/s forwarding capability in each direction, and all subcards exchange data through the NPU-50-E.
You can install only one NPU-50-E on the chassis of the CX600-X1-M4.
The NPU-50-E consists of the following planes:
l Control and management plane
Through the management channels between MPUs and the NPU-50-E, the MPUs can manage the subcards, and transmit routing protocol data.
l Data forwarding plane
The NPU-50-E is responsible for service processing in the entire system, and is connected to all subcards through data channels.
Table 1-14 NPU-50-E parameters
Item Description Remarks
Forwarding capability 50 Gbit/s (bidirectional) -
Figure 1-14 Appearance of the NPU on the CX600-X1-M4
1. STAT indicator
2. ACT indicator 3. OFL button
Table 1-15 describes the buttons and indicators on the NPU panel.
Table 1-15 Description of the buttons and indicators on the NPU panel
Indicator/
Description
Button
STAT indicator
If the indicator is on, the NPU is working properly.
If the indicator blinks green, theNPU is being registered.
If the indicator is off, the NPU is faulty, not powered on, or fails to be registered.
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HUAWEI CX600-X1-M/CX600-X2-M Series Metro Services Platform Hardware Description
1 CX600-X1-M4 Hardware Description
Specifications
Indicator/ Button
ACT indicator
OFL button
Table 1-16 lists the specifications of the NPU.
Table 1-16 Specifications of the NPU
Item Specification
Silkscreen of the board name
Typical power consumption
Description
If the indicator is steady green, the NPU is in the master state.
If the indicator is off, the NPU is in the slave state or fails to be registered.
This button indicates the removal of the NPU. Before removing the NPU, press and hold the OFL button for 6s until the OFL indicator comes on. Then, you can remove the NPU.
NPU-50-E
165 W
Heat dissipation 535.3 BTU/hour
Weight 2.6 kg ( 5.73 lb )
Dimensions (H x W x D) 20 mm x 194 mm x 226 mm (0.79 in. x 7.64 in. x 8.90 in.)
Earliest Software Version V800R005C01

1.4.4 Introduction to the NPU-120

NOTE
NPU-120 must not be installed in an outdoor cabinet.
The NPU-120 has a 120-Gbit/s forwarding capability in each direction, and all subcards switch data through the NPU-120.
You can install only one NPU-120 on the chassis of the CX600-X1-M4. The NPU-120 is connected to the four PICs.
The NPU-120 consists of the following planes:
l Control and management plane
Through the management channels between MPUs and NPUs, the MPUs can manage NPUs and associated subcards, and transmit routing protocol data.
l Data forwarding plane
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HUAWEI CX600-X1-M/CX600-X2-M Series Metro Services Platform Hardware Description
The NPUs are responsible for service processing in the entire system, and are connected to all subcards through data channels.
Table 1-17 NPU parameters
Item Description Remarks
Forwarding capability 120 Gbit/s (bidirectional) -
Figure 1-15 Appearance of the NPU panel
1 CX600-X1-M4 Hardware Description
1. STAT indicator
2. ACT indicator 3. OFL button
Table 1-18 describes the buttons and indicators on the NPU panel.
Table 1-18 Description of the buttons and indicators on the NPU panel
Indicator/
Description
Button
STAT indicator
If the indicator is steady green, the NPU is working properly.
If the indicator is steady red, the hardware of the NPU is faulty.
If the indicator blinks green, theNPU is being registered.
If the indicator is off, the NPU is not powered on or fails to be registered.
ACT indicator
OFL indicator
If the indicator is steady green, the NPU is in the master state.
If the indicator is off, the NPU is in the slave state or fails to be registered.
If the indicator is steady red, the NPU is powered off and can be safely removed.
If the indicator is off, the NPU is working properly.
OFL button
This button indicates the removal of the NPU. Before removing the NPU, press and hold the OFL button for 6s until the OFL indicator comes on. Then, you can remove the NPU.
Specifications
Table 1-19 lists the specifications of the NPU.
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