Huawei NetEngine 8000 F Hardware Manual

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HUAWEI NetEngine 8000 F

V800R012C10 and Later Versions

Hardware Guide

Issue

Date

2023-03-31

HUAWEI TECHNOLOGIES CO., LTD.

Table of Contents

Summary of Contents for Huawei NetEngine 8000 F

Page 1 HUAWEI NetEngine 8000 F V800R012C10 and Later Versions Hardware Guide Issue Date 2023-03-31 HUAWEI TECHNOLOGIES CO., LTD.
Page 2 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"...
Page 3: Table Of Contents
3.3.2.1 FAN-031A-B (Fan box(B,FAN panel side exhaust))................... 89 3.3.2.2 FAN-031A-F (Fan Box(F,FAN panel side intake ))....................91 3.3.3 NetEngine 8000 F2A-8K36H Fan Module......................... 93 3.3.3.1 FAN-180D-B (Fan box(B,FAN panel side exhaust))................... 93 Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 4 3.4.6.1 1.25Gbps-eSFP-MMF-850nm-500m-extended....................138 3.4.6.2 1.25Gbps-eSFP-SMF-1310nm-10km-industry....................140 3.4.6.3 1.25Gbps-eSFP-SMF-1310nm-40km-industry....................141 3.4.6.4 1.25Gbps-eSFP-MMF-850nm-500m-industry....................142 3.4.6.5 1.25Gbps-eSFP-SMF-1550nm-80km-commercial.....................143 3.4.6.6 1.25Gbps-eSFP-SMF-1310nm-10km-commercial(34060473)..............145 3.4.6.7 1.25Gbps-eSFP-SMF-1310nm-40km-commercial.....................146 3.4.7 1.25Gbps eSFP BIDI Optical Module........................147 3.4.7.1 1.25Gbps-eSFP-SMF-1310nm(Tx)/1490nm(Rx)-10km-commercial(34060470)........147 3.4.7.2 1.25Gbps-eSFP-SMF-1490nm(Tx)/1310nm(Rx)-10km-commercial............149 3.4.7.3 1.25Gbps-eSFP-SMF-1310nm(Tx)/1490nm(Rx)-40km-commercial............150 3.4.7.4 1.25Gbps-eSFP-SMF-1490nm(Tx)/1310nm(Rx)-40km-commercial............152 3.4.7.5 1.25Gbps-eSFP-SMF-1570nm(Tx)/1490nm(Rx)-80km-commercial............153 Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 5 3.4.9.19 125M~2.67Gbps-eSFP-SMF-1546.12nm-120km-commercial..............191 3.4.9.20 125M~2.67Gbps-eSFP-SMF-1545.32nm-120km-commercial..............192 3.4.9.21 125M~2.67Gbps-eSFP-SMF-1544.53nm-120km-commercial..............194 3.4.9.22 125M~2.67Gbps-eSFP-SMF-1543.73nm-120km-commercial..............195 3.4.9.23 125M~2.67Gbps-eSFP-SMF-1542.94nm-120km-commercial..............196 3.4.9.24 125M~2.67Gbps-eSFP-SMF-1542.14nm-120km-commercial..............197 3.4.9.25 125M~2.67Gbps-eSFP-SMF-1541.35nm-120km-commercial..............199 3.4.9.26 125M~2.67Gbps-eSFP-SMF-1540.56nm-120km-commercial..............200 3.4.9.27 125M~2.67Gbps-eSFP-SMF-1539.77nm-120km-commercial..............201 3.4.9.28 125M~2.67Gbps-eSFP-SMF-1538.98nm-120km-commercial..............202 3.4.9.29 125M~2.67Gbps-eSFP-SMF-1538.19nm-120km-commercial..............204 Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 6 3.4.14 25Gbps SFP28 Optical Module..........................245 3.4.14.1 25Gbps-SFP28-MMF-850nm-0.1km-commercial (02312PDK)..............245 3.4.14.2 25Gbps-SFP28-SMF-1310nm-10km-industry (02312PDL)................. 247 3.4.14.3 25Gbps-SFP28-MMF-850nm-0.1km-commercial (34061254)..............248 3.4.14.4 25Gbps-SFP28-SMF-1310nm-10km-industry (34061618)................249 3.4.14.5 25Gbps-SFP28-MMF-850nm-0.1km-extended....................251 3.4.15 25Gbps SFP28 BIDI Optical Module........................252 Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 7 3.5 Cables..................................... 300 3.5.1 NetEngine 8000 F1A-8H20Q Power Cable......................300 3.5.1.1 DC Power Cable................................300 3.5.1.2 AC Power Cable................................305 3.5.2 NetEngine 8000 F2A-8K36H Power Cable......................310 3.5.2.1 DC Power Cable................................310 Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 8 4.1.4.5.8 Cleaning Optical Fiber Adapters Using Dustfree Absorbent Swabs............398 4.1.4.6 Inspection of power distribution environment....................400 4.1.4.6.1 Introduction to the Power Distribution System..................... 400 4.1.4.6.2 DC Power Distribution Guide..........................401 Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 9 4.1.12.3.2 Grounding Specifications for Equipment Room..................500 4.1.12.3.3 Grounding Specifications for Devices......................500 4.1.12.3.4 Grounding Specifications for Communications Power Supply............... 501 4.1.12.3.5 Grounding Specifications for Signal Cables....................502 4.1.12.3.6 Specifications for Laying Out Grounding Cables..................502 Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd. viii...
Page 10 4.2.5 Installing a chassis in a Cabinet..........................607 4.2.6 Cable Routing Planning..............................610 4.2.7 Installation of cables..............................611 4.2.7.1 Installing Optical Fibers.............................611 4.2.7.2 Installing Network Cables............................613 4.2.7.3 Installing a Cabinet Ground Cable.........................614 Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 11 4.2.12.4.1 Introduction to Labels............................703 4.2.12.4.2 Engineering Labels for Optical Fibers......................710 4.2.12.4.3 Engineering Labels for Network Cables......................712 4.2.12.4.4 Engineering Labels for User Cables......................... 714 4.2.12.4.5 Engineering Labels for Power Cables......................715 Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 12: Document Declaration
Hardware Guide 1 Document Declaration Document Declaration Purpose This document describes hardware features of the NetEngine 8000 F. It helps intended readers obtain detailed information about each chassis, board, and cable, and learn how to install and maintain devices. NO TICE The Hardware Guide includes hardware data of multiple versions.
Page 13 NOTICE is used to address practices not related to personal injury. Supplements the important information in the main text. NOTE is used to address information not related to personal injury, equipment damage, and environment deterioration. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 14 Changes in Issue 03 (2022-07-31) This is the third official release. ● Changes in Issue 02 (2022-05-31) This is the second official release. ● Changes in Issue 01 (2022-03-31) This is the first official release. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 15: Using The Hardware Tool
● 3D model: Using this function, you can query product images, product overview, and component insertion/removal videos, enabling you to quickly obtain product information in one-stop mode. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 16: Hardware Description
Overview Table 3-1 Basic information about the NetEngine 8000 F1A-8H20Q Description Part Number Model First Integrated supported fixed device version NetEngine 02353AES CR8B0BKP03C V800R012C00 8000 F1A-8H20Q Integrated Chassis Components (Port-side Intake) Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 17 8000 F1A-8H20Q Integrated Chassis Components (Port-side Exhaust) NetEngine 02353AGV-00 CR8B0BKP03C V800R021C10 8000 SPC600 F1A-8H20Q Integrated Chassis Components( Port-side Exhaust) NetEngine 02353AGV-00 CR8B0BKP03C V800R022C10 8000 SPC500 F1A-8H20Q Integrated Chassis Components( Port-side Exhaust) Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 18 8000 SPC500 F1A-8H20Q Integrated Chassis Components( Port-side Intake) NetEngine 02355KVY CR8B0BKP03 V800R022C10 8000 SPC500 F1A-8H20Q Integrated Chassis Components( Port-side Exhaust) Appearance Figure 3-1 Appearance of the NetEngine 8000 F1A-8H20Q (port side) Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 19 The huge hardware mapping data is migrated to the Info-Finder hardware center, where you can easily obtain hardware mapping information. The Info-Finder hardware center incorporates comprehensive hardware information and mapping data by sales regions, allowing you to quickly find Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 20 Slot Layout Figure 3-3 Slot Layout of the NetEngine 8000 F1A-8H20Q Table 3-2 Slots on the NetEngine 8000 F1A-8H20Q Slot Type Slot ID Slot Direction Remarks POWER POWER Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 22 The system is not powered on or registered. L/A(MGMT- Management Green Steady on The link is up. ETH) port status Green Blinking Data is being indicator transmitted or received. The link is down. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 23 Data is being transmitted or received. The link is down. 0 to 55 Green Steady on The link is up. Green Blinking Data is being transmitted or received. 0~55 The link is down. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 24 RST button. 3.Wait for no longer than 2 minutes till the STAT indicators blink as orange(the time window is 5 seconds). Then release the RST button immediately. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 25 2. When pressing the RST button to clear the configuration file, you only need to pay attention to the STAT indicators. Other indicators may vary depending on the product model. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 26 WAN and 10GE Optical Module LAN cannot 125M~2.67Gbps coexist. eSFP DWDM 3. 10GE WAN Optical Module interfaces support 155Mbps eSFP only the master BIDI Optical clock. Module 155Mbps eSFP Optical Module Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 27 Module 1.25Gbps eSFP BIDI Optical Module 1.25Gbps eSFP CWDM Optical Module 1.25Gbps eSFP Optical Module 125M~2.67Gbps eSFP DWDM Optical Module 155Mbps eSFP BIDI Optical Module 155Mbps eSFP Optical Module Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 28 Console/AUX RJ45 Port for 8-core shielded hybrid interface connecting to the cables console for onsite system configuration. The default baud rate is 9600 bit/s. (AUX hybrid interface reserved) Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 29 The port numbers of service interfaces on the NetEngine 8000 F1A-8H20Q begin with 0. Port numbering depends on the number of interfaces on the NetEngine 8000 F1A-8H20Q. Figure 3-5 Port number Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 30 This device has more than one power input. input caution Disconnect all power inputs to power off this device. Product The label suggests the product name, nameplate certification and qualification. label Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 31 AC: 100 V to 240 V AC, support 240 V HVDC Input voltage range [V] DC: –40 V to –72 V AC: 90 V to 290 V Maximum input current [A] DC: 30 A AC: 8 A AC: 10 A Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 32 5% to 95% RH, non-condensing [RH] Storage relative humidity [RH] 5% to 95% RH, non-condensing Long-term operating altitude [m(ft.)] < 4000 m (< 13123.4 ft.) Storage altitude [m(ft.)] < 5000 m(< 16404.2 ft.) Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 33 [W] Typical heat dissipation (with 1054.44 BTU/hour configuration) [BTU/hour] MTBF [year] DC: 25.52 AC: 25.65 MTTR [hour] 0.5 hour Availability 0.99999 8-core 2.3 GHz SDRAM 16 GB Storage 16G M.2 flash Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 34 [°C(°F)] 113°F) Restriction on the operating ≤ 30°C/hour (54°F/hour) temperature variation rate [°C(°F)] Storage temperature [°C(°F)] -40°C ~ 70°C(-40°F to 158°F) Long-term operating relative humidity 5% to 90% RH, non-condensing [RH] Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 35 [BTU/hour] MTBF [year] DC: 25.52 AC: 25.65 MTTR [hour] 0.5 hour Availability 0.99999 16-core, 2.0 GHz SDRAM 32 GB Storage 16G M.2 flash Power supply mode ● DC ● AC/HVDC Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 36 –40°C to +70°C (–40°F to +158°F) Long-term operating relative humidity 5% to 90% RH, noncondensing [RH] Short-term operating relative humidity 5% to 95% RH, non-condensing [RH] Storage relative humidity [RH] 5% to 95% RH, non-condensing Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 37 16 GB Storage 4G NAND FLASH Power supply mode ● DC ● AC/HVDC Rated input voltage [V] DC: -48 V/-60 V AC: 100 V to 240 V AC, support 240 V HVDC Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 38 -40°C ~ 70°C(-40°F to 158°F) Long-term operating relative humidity 5% to 90% RH, non-condensing [RH] Short-term operating relative humidity 5% to 95% RH, non-condensing [RH] Storage relative humidity [RH] 5% to 95% RH, non-condensing Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 39 6.8 kg (14.99 lb) Weight without packaging (full DC: 8.9 kg(19.62 lb) configuration) [kg(lb)] AC: 9.2 kg(20.28 lb) Weight with packaging (full DC: 14.08 kg(31.04 lb) configuration) [kg(lb)] AC: 14.2 kg(31.31 lb) Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 40 Back to front: port-side exhaust Noise at normal temperature (acoustic < 72 dB (meeting the ETSI 72 dBA power) [dB(A)] standard) Number of slots Number of service board slots Switching capacity 2.4 Tbit/s Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 41 Dimensions with packaging (H x W x 175 mm x 550 mm x 650 mm (6.89 in. D) [mm(in.)] x 21.65 in. x 25.59 in.) Chassis height [U] Weight without packaging [kg(lb)] 7 kg (15.43 lb) Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 42 10 mm^2 (22-35 m) AC: 2.5 mm^2 Front-end circuit breaker/fuse [A] DC: ≥ 32 A AC: ≥ 10 A Heat dissipation mode Air cooling Airflow direction Back to front: port-side exhaust Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 43 1°C [1.8°F] for every 220 m [721.78 ft.].) Storage altitude [m(ft.)] < 5000 m (< 16404.2 ft.) Table 3-13 Technical specifications of the CR8B0BKP03D0 Item Specification Cabinet installation standards IEC 19-inch Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 45 Specification Cabinet installation standards IEC 19-inch Dimensions without packaging (H x W 43.6 mm x 442 mm x 420 mm (1.72 in. x D) [mm(in.)] x 17.4 in. x 16.54 in.) Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 46 Rated output power [W] DC: 1000 W AC: 600 W Maximum input cable size [mm²] DC: 4 mm^2 (1-14 m), 6 mm^2 (15-21 m), 10 mm^2 (22-35 m) AC: 2.5 mm^2 Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 47 4000 m [5905.44 ft. to 13123.2 ft.], the operating temperature of the device must decrease by 1°C [1.8°F] for every 220 m [721.78 ft.].) Storage altitude [m(ft.)] < 5000 m (< 16404.2 ft.) Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 48: Netengine 8000 F2A-8K36H
CR8P0BKP03C V800R021C00 8000 F2A-8K36H Integrated Chassis Components( Port-side Intake) NetEngine 02354GTD CR8P0BKP03C V800R021C00 8000 F2A-8K36H Integrated Chassis Components( Port-side Exhaust) Appearance Figure 3-7 Appearance of the NetEngine 8000 F2A-8K36H (port side) Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 50 Slot Layout Figure 3-9 Slot Layout of the NetEngine 8000 F2A-8K36H Table 3-16 Slots on the NetEngine 8000 F2A-8K36H Slot Type Slot ID Slot Direction Remarks POWER POWER Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 53 L/A (MGMT- Management Green Steady on The link is up. ETH) Ethernet port Green Blinking Data is being status transmitted or indicator received. The link is down. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 54 Blinking Data is being transmitted or received. The link is down. 0–63 Green Steady on The link is up. Green Blinking Data is being transmitted or received. The link is down. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 55 RST button. 3. Wait for no longer than 2 minutes till the STAT indicators blink orange (the time window is 5 seconds). Then release the RST button immediately. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 56 Description Available Components 0–19 QSFP28 Port for inputting 100Gbps QSFP28 and outputting Optical Module 100GE/50GE/ 50Gbps QSFP28 40GE optical Optical Module signals 50Gbps QSFP28 BIDI Optical Module 40Gbps QSFP+ Optical Module Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 57 BIDI Optical Ports 36-51 Module support 4*25G and 4*10G breakout 40Gbps QSFP+ optical module. Optical Module GE0/GE1 Cascading port Reserved used for control panel expansion in scenarios like virtual cluster (reserved) Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 58 8000 F2A-8K36H is fixed as 1. ● Port number The port numbers of service interfaces on the NetEngine 8000 F2A-8K36H begin with 0. Port numbering depends on the number of interfaces on the NetEngine 8000 F2A-8K36H. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 59 14}, {22, 13, 16, and 17}, {23, 15, 18, and 19}, {24, 28, and 29}, and {25, 30, and 31}. 6. Do not use 100GE0/1/0 to 100GE0/1/7 and 100GE0/1/37 to 100GE0/1/46 as trunk member interfaces. Otherwise, the board bandwidth is affected. Figure 3-11 Port description Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 60 This device has more than one power input. Disconnect all power inputs to power off this device. High touch current, earth connection essential before connecting supply. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 61 1100 W configuration) [W] Typical heat dissipation (with 3574 BTU/hour configuration) [BTU/hour] 8-core 2.3 GHz SDRAM 16 GB Flash memory 64 MB Storage 8 GB Power supply mode ● DC ● AC/HVDC Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 62 (23°F to 113°F) Restriction on the operating ≤ 30°C/hour (54°F/hour) temperature variation rate [°C(°F)] Storage temperature [°C(°F)] –40°C to +70°C (–40°F to +158°F) Long-term operating relative humidity 5% to 90% RH, non-condensing [RH] Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 63 36 FlexE clients can be created. Physical ports 25, 30, 31 can be added to the same group. port-id ranges from 1000 to 3000. A maximum of 36 FlexE clients can be created. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 64 AC: 100 V to 130 V (dual-live wire)/200 V to 240 V HVDC: 190 V–240 V Input voltage range [V] DC: –40V to–72V AC: 90V–290V HVDC: 190V–290V Maximum input current [A] DC: 50A AC/HVDC: 16A Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 65 5% to 95% RH, non-condensing Long-term operating altitude [m(ft.)] < 4000 m (< 13123.4 ft.) Storage altitude [m(ft.)] < 5000 m (< 16404.2 ft.) Breakout supported Supported Interface rate auto-sensing supported Supported Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 66: Power
The two power modules work in 1+1 backup mode. The two power supply channels in backup mode are converted by two independent power supply modules and then provided for Control board and fans. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 67: Netengine 8000 F1A-8H20Q Power Module
3.2.2.1 PAC1K2S12-DB (1200W AC Power Module(Back to Front, Power panel side exhaust)) Overview Table 3-24 Basic information about the PAC1K2S12-DB Item Details Description 1200W AC Power Module(Back to Front, Power panel side exhaust) Part Number 02131672 Model PAC1K2S12-DB Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 68 Name Color Status Description STAT Working Green Steady on the power status input is indicator normal. the power module is switched off or the hardware of the power module is faulty. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 69: Pac1K2S12-Df (1200W Ac Power Module(Front To Back,Power Panel Side Intake))
1200 W (input >176V AC) 800 W (input <176V AC) Power supply efficiency Power dissipation Mode Built-in fan Type of power cables C13 cable 3.2.2.2 PAC1K2S12-DF (1200W AC Power Module(Front to Back,Power panel side intake)) Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 70 The Info-Finder hardware center incorporates comprehensive hardware information and mapping data by sales regions, allowing you to quickly find desired information and filter the mapping data for more fine-grained data display. enterprise: https://info.support.huawei.com/info-finder/search-center/en/ enterprise/routers/netengine-8000-pid-252772223/hardwarecenter? keyword=02131674&productModel=PAC1K2S12-DF#matchRelation Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 71 90 V to 290 V AC Maximum input current [A] 10 A Rated output voltage [V] 12 V Rated output current [A] 100 A (input >176V AC) 67 A (input <176V AC) Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 72: Pac600S12-Cb (600W Ac Power Module(Back To Front, Power Panel Side Exhaust))
3.2.2.3 PAC600S12-CB (600W AC Power Module(Back to Front, Power panel side exhaust)) Overview Table 3-32 Basic information about the PAC600S12-CB Item Details Description 600W AC Power Module(Back to Front, Power panel side exhaust) Part Number 02312FFU Model PAC600S12-CB Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 73 Panel Table 3-33 Indicators on the PAC600S12-CB Silkscreen Name Color Status Description STAT Working Green Steady on the power status input is indicator normal. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 74: Pac600S12-Cf (600W Ac Power Module(Front To Back,Power Panel Side Intake))
Rated output power [W] 600 W Power supply efficiency 0.91 Power dissipation Mode Built-in fan Type of power cables C13 cable 3.2.2.4 PAC600S12-CF (600W AC Power Module(Front to Back,Power panel side intake)) Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 75 The Info-Finder hardware center incorporates comprehensive hardware information and mapping data by sales regions, allowing you to quickly find desired information and filter the mapping data for more fine-grained data display. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 76 Input voltage range [V] 90 V to 290 V Maximum input current [A] Rated output voltage [V] 12 V Rated output current [A] 50 A Rated output power [W] 600 W Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 77: Pac600S12-Eb (600W Ac Power Module(Back To Front, Power Panel Side Exhaust))
Table 3-40 Basic information about the PAC600S12-EB Item Details Description 600W AC Power Module(Back to Front, Power panel side exhaust) Part Number 02312FFU-002 Model PAC600S12-EB Appearance Figure 3-18 Appearance of the PAC600S12-EB Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 78 Dimensions without packaging (H x W 39.8 mm x 90 mm x 214.5 mm (1.57 x D) [mm(in.)] in. x 3.54 in. x 8.44 in.) Weight without packaging [kg(lb)] 0.985 kg (2.17 lb) Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 79: Pac600S12-Ef (600W Ac Power Module(Front To Back,Power Panel Side Intake))
3.2.2.6 PAC600S12-EF (600W AC Power Module(Front to Back,Power panel side intake)) Overview Table 3-44 Basic information about the PAC600S12-EF Item Details Description 600W AC Power Module(Front to Back,Power panel side intake) Part Number 02313RMT Model PAC600S12-EF Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 80 Panel Table 3-45 Indicators on the PAC600S12-EF Silkscreen Name Color Status Description STAT Working Green Steady on the power status input is indicator normal. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 81: Pdc1000S12-Cb (1000W Dc Power Module(Back To Front,Power Panel Side Exhaust))
Rated output power [W] 600 W Power supply efficiency 0.91 Power dissipation Mode Built-in fan Type of power cables C13 cable 3.2.2.7 PDC1000S12-CB (1000W DC Power Module(Back to Front,Power panel side exhaust)) Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 82 The Info-Finder hardware center incorporates comprehensive hardware information and mapping data by sales regions, allowing you to quickly find desired information and filter the mapping data for more fine-grained data display. enterprise: https://info.support.huawei.com/info-finder/search-center/en/ enterprise/routers/netengine-8000-pid-252772223/hardwarecenter? keyword=02312JVG&productModel=PDC1000S12-CB#matchRelation Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 83 Input voltage range [V] –40 V to –72 V Maximum input current [A] 30 A Rated output voltage [V] 12 V Rated output current [A] 83.3 A Rated output power [W] 1000 W Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 84: Pdc1000S12-Cf (1000W Dc Power Module(Front To Back,Power Panel Side Intake))
Table 3-52 Basic information about the PDC1000S12-CF Item Details Description 1000W DC Power Module(Front to Back,Power panel side intake) Part Number 02312KAB Model PDC1000S12-CF Appearance Figure 3-21 Appearance of the PDC1000S12-CF Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 85 Table 3-54 Ports on the PDC1000S12-CF Port Description NEG(-) Connects to the negative pole of the DC power cable. RTN(+) Connects to the positive pole of the DC power cable. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 86: Netengine 8000 F2A-8K36H Power Module
Power Module (Back to Front,Power panel side exhaust)) Overview Table 3-56 Basic information about the PAC3KS54-DB Item Details Description AC&240VDC PSU,PAC3KS54-DB,3000W AC 240V DC Power Module (Back to Front,Power panel side exhaust) Part Number 02312TCB Model PAC3KS54-DB Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 87 The Info-Finder hardware center incorporates comprehensive hardware information and mapping data by sales regions, allowing you to quickly find desired information and filter the mapping data for more fine-grained data display. enterprise: https://info.support.huawei.com/info-finder/search-center/en/ enterprise/routers/netengine-8000-pid-252772223/hardwarecenter? keyword=02312TCB&productModel=PAC3KS54-DB#matchRelation Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 88 Steady on The power module encounters a hardware fault. Table 3-58 Ports on the PAC3KS54-DB Port Description AC power cable connector Connects to the AC power cable Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 89: Pac3Ks54-Df (Ac&240Vdc Psu,Pac3Ks54-Df,2500W/3000W Ac&240Vdc Power Module (Front To Back, Power Panel Side Intake))
190V DC to 200 V DC) Power supply efficiency Power dissipation Mode Built-in fan Type of power cables C19 cable 3.2.3.2 PAC3KS54-DF (AC&240VDC PSU,PAC3KS54-DF,2500W/3000W AC&240VDC Power Module (Front to Back, Power panel side intake)) Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 90 Table 3-60 Basic information about the PAC3KS54-DF Item Details Description AC&240VDC PSU,PAC3KS54-DF, 2500W/3000W AC&240VDC Power Module (Front to Back, Power panel side intake) Part Number 02312TCA Model PAC3KS54-DF Appearance Figure 3-23 Appearance of the PAC3KS54-DF Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 91 4. Power 5. Clip hole status hole socket indicator Table 3-61 Indicators on the PAC3KS54-DF Silkscreen Name Color Status Description Working Green Steady on the power status input is indicator normal. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 92 39.6 mm x 66 mm x 349 mm (1.56 in. x D) [mm(in.)] x 2.6 in. x 13.74 in.) Weight without packaging [kg(lb)] < 1.4 kg (< 3.09 lb) Number of inputs Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 93: Pdc2K2S54-Cb (Dc Power Module,Pdc2K2S54-Cb,2200W Dc Power Module(Back To Front , Power Panel Side Exhaust))
Module(Back to Front , Power panel side exhaust)) Overview Table 3-64 Basic information about the PDC2K2S54-CB Item Details Description DC Power Module,PDC2K2S54-CB, 2200W DC Power Module(Back to Front , Power panel side exhaust) Part Number 02312YCP Model PDC2K2S54-CB Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 94 The Info-Finder hardware center incorporates comprehensive hardware information and mapping data by sales regions, allowing you to quickly find desired information and filter the mapping data for more fine-grained data display. enterprise: https://info.support.huawei.com/info-finder/search-center/en/ enterprise/routers/netengine-8000-pid-252772223/hardwarecenter? keyword=02312YCP&productModel=PDC2K2S54-CB#matchRelation Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 95 Table 3-66 Ports on the PDC2K2S54-CB Port Description NEG(-) Connects to the negative pole of the DC power cable. RTN(+) Connects to the positive pole of the DC power cable. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 96: Pdc2K2S54-Cf (Dc Power Module,Pdc2K2S54-Cf,2200W Dc Power Module(Front To Back, Power Panel Side Intake))
Module(Front to Back, Power panel side intake)) Overview Table 3-68 Basic information about the PDC2K2S54-CF Item Details Description DC Power Module,PDC2K2S54-CF, 2200W DC Power Module(Front to Back, Power panel side intake) Part Number 02312VSW Model PDC2K2S54-CF Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 97 The Info-Finder hardware center incorporates comprehensive hardware information and mapping data by sales regions, allowing you to quickly find desired information and filter the mapping data for more fine-grained data display. enterprise: https://info.support.huawei.com/info-finder/search-center/en/ enterprise/routers/netengine-8000-pid-252772223/hardwarecenter? keyword=02312VSW&productModel=PDC2K2S54-CF#matchRelation Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 99: Fan
Maximum input current [A] 50 A Rated output voltage [V] 53.5 V Rated output current [A] 41 A Rated output power [W] 2200 W Power supply efficiency Power dissipation Mode Built-in fan 3.3 Fan Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 100: System Air Channel
3.3.2 NetEngine 8000 F1A-8H20Q Fan Module 3.3.2.1 FAN-031A-B (Fan box(B,FAN panel side exhaust)) Overview Table 3-72 Basic information about the FAN-031A-B Item Details Description Fan box(B,FAN panel side exhaust) Part Number 02352CAB Model FAN-031A-B Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 101 The Info-Finder hardware center incorporates comprehensive hardware information and mapping data by sales regions, allowing you to quickly find desired information and filter the mapping data for more fine-grained data display. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 102: Fan-031A-F (Fan Box(F,Fan Panel Side Intake ))
Typical power consumption [W] 4.8 W 3.3.2.2 FAN-031A-F (Fan Box(F,FAN panel side intake )) Overview Table 3-75 Basic information about the FAN-031A-F Item Details Description Fan Box(F,FAN panel side intake ) Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 103 Model FAN-031A-F Appearance Figure 3-31 Appearance of the FAN-031A-F Version Mapping The huge hardware mapping data is migrated to the Info-Finder hardware center, where you can easily obtain hardware mapping information. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 104: Netengine 8000 F2A-8K36H Fan Module
1.57 in. x 3.95 in.) Weight without packaging [kg(lb)] 0.15 kg (0.33 lb) Number of fans Typical power consumption [W] 4.8 W 3.3.3 NetEngine 8000 F2A-8K36H Fan Module 3.3.3.1 FAN-180D-B (Fan box(B,FAN panel side exhaust)) Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 105 3 Hardware Description Overview Table 3-78 Basic information about the FAN-180D-B Item Details Description Fan box(B,FAN panel side exhaust) Part Number 02353KQP Model FAN-180D-B Appearance Figure 3-32 Appearance of the FAN-180D-B Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 106 82 mm x 82 mm x 129.5 mm (3.23 in. x D) [mm(in.)] x 3.23 in. x 5.10 in.) Weight without packaging [kg(lb)] 0.86 kg (1.90 lb) Number of fans Typical power consumption [W] 35 W Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 107: Fan-180D-F (Fan Box(F,Fan Panel Side Intake ))
3 Hardware Description 3.3.3.2 FAN-180D-F (Fan box(F,FAN panel side intake )) Overview Table 3-82 Basic information about the FAN-180D-F Item Details Description Fan box(F,FAN panel side intake ) Part Number 02354EUF Model FAN-180D-F Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 108 Figure 3-33 Appearance of the FAN-180D-F Version Mapping Table 3-83 Mappings between FAN-180D-F and product Product First Unsupported Limitations IDs of Supported Model available Version slots NetEngine V800R021C00 CR8P0BKP03C 4–6 8000 SPC100 F2A-8K36H Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 109: Optical Module
0.86 kg (1.90 lb) Number of fans Typical power consumption [W] 35 W 3.4 Optical Module 3.4.1 Understanding Pluggable Optical Modules 3.4.1.1 Appearance and structure Figure1 shows the structure of an optical module. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 110: Types Of Optical Modules
(EMI) because they have a higher rate. To reduce EMI, SFP+ modules have more springs than SFP modules and the cages for SFP+ modules on a card are tighter. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 111 – Multimode optical modules are used with multimode fibers. Multimode fibers have lower transmission performance than single-mode fibers Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 112: Instruction
The following lists some common optical modules, which may not be supported by this product. The figures are for reference only. Table 3-86 Commonly used optical modules Encaps Interface Appearance ulatio type n type Single-fiber-bidirectional transceiver Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 113 HUAWEI NetEngine 8000 F Hardware Guide 3 Hardware Description Encaps Interface Appearance ulatio type n type eSFP Two-fiber bidirectional Single-fiber-bidirectional transceiver SFP+ Two-fiber bidirectional Single-fiber-bidirectional transceiver Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 114 HUAWEI NetEngine 8000 F Hardware Guide 3 Hardware Description Encaps Interface Appearance ulatio type n type Two-fiber bidirectional Single-fiber-bidirectional transceiver SFP28 Two-fiber bidirectional Single-fiber-bidirectional transceiver QSFP2 LC/MPO Two-fiber bidirectional Single-fiber-bidirectional transceiver Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 116 HUAWEI NetEngine 8000 F Hardware Guide 3 Hardware Description Encaps Interface Appearance ulatio type n type LC/MPO CFP2 CFP4 CFP8 Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 117: Instructions On How To Use An Optical Module
This section describes instructions on how to use an optical module. NO TE Only optical modules matching Huawei products can be used. These optical modules are strictly tested by Huawei. If non-matching optical modules are used, device requirements may fail to be met, and services may fail to run properly. To replace optical modules, see Parts Replacement-Replacing an Optical Module.
Page 118 Open the buckle and slowly take out the optical apparatus. Do not drag the optical fiber to forcibly take out the optical fiber. Ensure that the optical fiber is connected to and removed from the interface horizontally. Figure 3-38 The tab is closed Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 119 If the black plastic latch falls off, use an auxiliary tool, such as a pair of tweezers, to press the cage buckle, as shown in the following figure. Then, hold the two sides of the electrical module to remove it. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 120 When removing a CFP optical module, loosen the two screw rods of the module and then remove the module slowly. Do not directly drag the optical fiber to pull out the optical module or forcibly pull out the optical module. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 121 After the CFP optical module is securely inserted, tighten the two screw rods of the module alternately. To prevent the module from getting loosened due to vibration or collision, you are advised to use a screwdriver to tighten the screw rods. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 122 Cover an optical module with an optical connector ● Lay the optical fibers on the Optical-fiber Distribution Frame (ODF) or coil them up in a fiber management tray. Make sure that the optical fibers are not squeezed. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 123 For example, if the transmitting optical power is X dBm and the optical attenuation is Y dB, the receiving optical power is X-Y, which must be smaller than -7dBm (X-Y<-7 dBm). Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 124 0.3 dB, the loss of a connector should be less than 0.75 dB, and the reflection of a connector should be less than -30 dB.) If the test result is not within the required range, process the abnormal port. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 125 (1) If a cabinet with a door is used, a sufficient distance must be reserved between the optical module and the cabinet door to prevent the puller or patch cord from bumping on the door. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 126 Wipe the end face along one direction only. ● Any part of a lint-free wipe can be used only once, and a small piece of lint- free wipe can be used to clean only one connector. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 128: Configuring An Optical Attenuator
If P(out)max – S x Attenuation coefficient > P(in)max, an attenuator needs to be configured. The optical attenuation is calculated in the following formula: T= P(out)max - S x Attenuation coefficient - P(in)max. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 129: Optical Amplifier Overview
Table 3-94 OA functions Function Description Basic function Amplifies optical signals over C-band wavelengths in the range from 1535 nm to 1547 nm. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 130: Appearance And Structure
● Monitors the pump drive current, cooling current, pump laser temperature, and ambient temperature of the board. 3.4.2.2 Appearance and Structure Figure 3-43 Optical amplifier appearance Figure 3-44shows the structure of an optical amplifier. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 131: Application Scenario
When a router uses an 80 km QSFP-DD optical module, an OA is required. Configure OAs as follows according to the transmission distance between the router interfaces to be interconnected and the insertion loss of optical links. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 132: Guide To Using Optical Amplifier
Figure 3-45 Configuring an OA at the transmit end Figure2 shows how to configure an OA at the receive end. Figure 3-46 Configuring an OA at the receive end 3.4.2.4 Guide to Using Optical Amplifier Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 133 400GE optical modules can be installed on the same board or span over different boards. ● Only optical modules matching Huawei products can be used. If non-matching optical modules are used, device requirements may fail to be met, and services may fail to run properly.
Page 134 Generally, one cleaning tissue is used for cleaning an optical connector. ● To prevent contamination, the optical amplifier should be covered with either a dust cap or an optical connector. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 135: 155Mbps Esfp Optical Module
When performing a self-loop test, use an optical attenuator. Do not loosen the optical connector. Other precautions The optical connector should be horizontally inserted in the receptacle to avoid damages to the receptacle. 3.4.3 155Mbps eSFP Optical Module Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 136: 155Mbps-Esfp-Smf-1550Nm-80Km-Commercial
0 dBm [dBm] Maximum Tx optical power (OMA) [dBm] Minimum Tx optical power (AVG) -5 dBm [dBm] Minimum Tx optical power (OMA) [dBm] Minimum extinction ratio [dB] 10.5 dB Receiver Optical Characteristics Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 137: 155Mbps-Esfp-Smf-1310Nm-15Km-Industry
500 V Transmission rate [bit/s] 155 Mbit/s Target transmission distance [km] 15 km Transmitter Optical Characteristics Center wavelength [nm] 1310 nm Tx operating wavelength range [nm] 1261 nm - 1360 nm Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 138: 155Mbps-Esfp-Smf-1310Nm-40Km-Industry
Form factor eSFP Application standard ITU-T G.957, STM-1 Connector type Optical fiber type Bit error ratio (BER) <1x10E-12 Working case temperature [°C(°F)] -40°C to 85°C(-40°F to 185°F) DDM options SFF-8472 Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 139: 155Mbps-Esfp-Smf-1550Nm-80Km-Industry
Rx sensitivity (OMA) [dBm] Overload power (AVG) [dBm] -10 dBm Overload power (OMA) [dBm] 3.4.3.4 155Mbps-eSFP-SMF-1550nm-80km-industry Table 3-98 155Mbps-eSFP-SMF-1550nm-80km-industry specifications Item Value Basic Information Module name 155Mbps-eSFP-SMF-1550nm-80km- industry Part Number 34060309 Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 140 Receiver Optical Characteristics Rx operating wavelength range [nm] 1263 nm - 1580 nm Rx sensitivity (AVG) [dBm] -34 dBm Rx sensitivity (OMA) [dBm] Overload power (AVG) [dBm] -10 dBm Overload power (OMA) [dBm] Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 141: 155Mbps-Esfp-Smf-1310Nm-40Km-Commercial
0 dBm [dBm] Maximum Tx optical power (OMA) [dBm] Minimum Tx optical power (AVG) -5 dBm [dBm] Minimum Tx optical power (OMA) [dBm] Minimum extinction ratio [dB] 10.5 dB Receiver Optical Characteristics Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 142: 155Mbps-Esfp-Mmf-1310Nm-2Km-Commercial
500 V Transmission rate [bit/s] 155 Mbit/s Target transmission distance [km] 2 km Transmitter Optical Characteristics Center wavelength [nm] 1310 nm Tx operating wavelength range [nm] 1270 nm - 1380 nm Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 143: 155Mbps-Esfp-Smf-1310Nm-15Km-Commercial
Form factor eSFP Application standard ITU-T G.957, STM-1 Connector type Optical fiber type Bit error ratio (BER) <1x10E-12 Working case temperature [°C(°F)] 0°C to 70°C(32°F to 158°F) DDM options SFF-8472 Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 144: 155Mbps Esfp Bidi Optical Module
Rx sensitivity (OMA) [dBm] Overload power (AVG) [dBm] -8 dBm Overload power (OMA) [dBm] -8 dBm 3.4.4 155Mbps eSFP BIDI Optical Module 3.4.4.1 155Mbps-eSFP-SM-1310nm(Tx)/1550nm(Rx)-15km-commercial Table 3-102 155Mbps-eSFP-SM-1310nm(Tx)/1550nm(Rx)-15km-commercial specifications Item Value Basic Information Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 145 Minimum Tx optical power (OMA) [dBm] Minimum extinction ratio [dB] 8.5 dB Receiver Optical Characteristics Rx operating wavelength range [nm] 1480 nm - 1580 nm Rx sensitivity (AVG) [dBm] -32 dBm Rx sensitivity (OMA) [dBm] Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 146: 155Mbps-Esfp-Sm-1550Nm(Tx)/1310Nm(Rx)-15Km-Commercial
Transmitter Optical Characteristics Center wavelength [nm] 1550 nm Tx operating wavelength range [nm] 1480 nm - 1580 nm Maximum Tx optical power (AVG) -8 dBm [dBm] Maximum Tx optical power (OMA) [dBm] Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 147: 1Gbps Electrical Module
RJ45 Bit error ratio (BER) <1x10E-12 Working case temperature [°C(°F)] -40°C to 85°C(-40°F to 185°F) Environment standard RoHS Security standard FCC Class B, IEC 60825-1 Class 1 ESD(HBM1) [V] 500 V Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 148: 1Gbps-Sfp-100M-Industry (02310Vpt)
FCC Class B, IEC 60825-1 Class 1 ESD(HBM1) [V] 500 V Transmission rate [bit/s] 10 Mbit/s 100 Mbit/s 1000 Mbit/s Target transmission distance [km] 0.1 km Receiver Optical Characteristics Overload power (OMA) [dBm] Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 149: 1Gbps-Sfp-100M-Industry (02314Fnp)
Target transmission distance [km] 0.1 km Receiver Optical Characteristics Overload power (OMA) [dBm] 3.4.6 1.25Gbps eSFP Optical Module 3.4.6.1 1.25Gbps-eSFP-MMF-850nm-500m-extended Table 3-107 1.25Gbps-eSFP-MMF-850nm-500m-extended specifications Item Value Basic Information Module name 1.25Gbps-eSFP-MMF-850nm-500m- extended Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 150 Receiver Optical Characteristics Rx operating wavelength range [nm] 760 nm - 860 nm Rx sensitivity (AVG) [dBm] -17 dBm Rx sensitivity (OMA) [dBm] Overload power (AVG) [dBm] 0 dBm Overload power (OMA) [dBm] Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 151: Gbps-Esfp-Smf-1310Nm-10Km-Industry
1260 nm - 1360 nm Maximum Tx optical power (AVG) -3 dBm [dBm] Maximum Tx optical power (OMA) [dBm] Minimum Tx optical power (AVG) -9 dBm [dBm] Minimum Tx optical power (OMA) [dBm] Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 152: Gbps-Esfp-Smf-1310Nm-40Km-Industry
SFF-8472 Environment standard RoHS Security standard FCC Class B, IEC 60825-1 Class 1 ESD(HBM1) [V] 500 V Transmission rate [bit/s] 1.25 Gbit/s Target transmission distance [km] 40 km Transmitter Optical Characteristics Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 153: Gbps-Esfp-Mmf-850Nm-500M-Industry
Item Value Basic Information Module name 1.25Gbps-eSFP-MMF-850nm-500m- industry Part Number 34060321 Model eSFP-850nm-1000Base-Sx Form factor eSFP Application standard IEEE 802.3, 1000BASE-SX Connector type Optical fiber type Bit error ratio (BER) <1x10E-12 Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 154: Gbps-Esfp-Smf-1550Nm-80Km-Commercial
760 nm - 860 nm Rx sensitivity (AVG) [dBm] -17 dBm Rx sensitivity (OMA) [dBm] Overload power (AVG) [dBm] 0 dBm Overload power (OMA) [dBm] 3.4.6.5 1.25Gbps-eSFP-SMF-1550nm-80km-commercial Table 3-111 1.25Gbps-eSFP-SMF-1550nm-80km-commercial specifications Item Value Basic Information Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 155 Minimum Tx optical power (OMA) [dBm] Minimum extinction ratio [dB] 9 dB Receiver Optical Characteristics Rx operating wavelength range [nm] 1260 nm - 1580 nm Rx sensitivity (AVG) [dBm] -23 dBm Rx sensitivity (OMA) [dBm] Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 156: Gbps-Esfp-Smf-1310Nm-10Km-Commercial(34060473)
Target transmission distance [km] 10 km Transmitter Optical Characteristics Center wavelength [nm] 1310 nm Tx operating wavelength range [nm] 1270 nm - 1355 nm Maximum Tx optical power (AVG) -3 dBm [dBm] Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 157: Gbps-Esfp-Smf-1310Nm-40Km-Commercial
Optical fiber type Bit error ratio (BER) <1x10E-12 Working case temperature [°C(°F)] 0°C to 70°C(32°F to 158°F) DDM options SFF-8472 Environment standard RoHS Security standard FCC Class B, IEC 60825-1 Class 1 Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 158: Gbps Esfp Bidi Optical Module
Rx sensitivity (OMA) [dBm] Overload power (AVG) [dBm] -3 dBm Overload power (OMA) [dBm] -3 dBm 3.4.7 1.25Gbps eSFP BIDI Optical Module 3.4.7.1 1.25Gbps-eSFP-SMF-1310nm(Tx)/1490nm(Rx)-10km- commercial(34060470) Table 3-114 1.25Gbps-eSFP-SMF-1310nm(Tx)/1490nm(Rx)-10km- commercial(34060470) specifications Item Value Basic Information Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 159 Minimum Tx optical power (OMA) [dBm] Minimum extinction ratio [dB] 6 dB Receiver Optical Characteristics Rx operating wavelength range [nm] 1480 nm - 1500 nm Rx sensitivity (AVG) [dBm] -19.5 dBm Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 160: Gbps-Esfp-Smf-1490Nm(Tx)/1310Nm(Rx)-10Km-Commercial
500 V Transmission rate [bit/s] 1.25 Gbit/s Target transmission distance [km] 10 km Transmitter Optical Characteristics Center wavelength [nm] 1490 nm Tx operating wavelength range [nm] 1480 nm - 1500 nm Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 161: Gbps-Esfp-Smf-1310Nm(Tx)/1490Nm(Rx)-40Km-Commercial
Item Value Basic Information Module name 1.25Gbps-eSFP-SMF-1310nm(Tx)/ 1490nm(Rx)-40km-commercial Part Number 34060539 Model OGEBIDI41 Form factor eSFP Application standard IEEE 802.3ah, 1000Base-BX40-U Connector type Optical fiber type Bit error ratio (BER) <1x10E-12 Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 162 1480 nm - 1500 nm Rx sensitivity (AVG) [dBm] Rx sensitivity (OMA) [dBm] -23 dBm Overload power (AVG) [dBm] -3 dBm Overload power (OMA) [dBm] NOTE Used in pair with 34060540. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 163: Gbps-Esfp-Smf-1490Nm(Tx)/1310Nm(Rx)-40Km-Commercial
Maximum Tx optical power (AVG) 3 dBm [dBm] Maximum Tx optical power (OMA) [dBm] Minimum Tx optical power (AVG) -2 dBm [dBm] Minimum Tx optical power (OMA) [dBm] Minimum extinction ratio [dB] 9 dB Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 164: Gbps-Esfp-Smf-1570Nm(Tx)/1490Nm(Rx)-80Km-Commercial
0°C to 70°C(32°F to 158°F) DDM options SFF-8472 Environment standard RoHS Security standard FCC Class B, IEC 60825-1 Class 1 ESD(HBM1) [V] 500 V Transmission rate [bit/s] 1.25 Gbit/s Target transmission distance [km] 80 km Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 165: Gbps-Esfp-Smf-1490Nm(Tx)/1570Nm(Rx)-80Km-Commercial
Used in pair with 34060596. 3.4.7.6 1.25Gbps-eSFP-SMF-1490nm(Tx)/1570nm(Rx)-80km-commercial Table 3-119 1.25Gbps-eSFP-SMF-1490nm(Tx)/1570nm(Rx)-80km-commercial specifications Item Value Basic Information Module name 1.25Gbps-eSFP-SMF-1490nm(Tx)/ 1570nm(Rx)-80km-commercial Part Number 34060596 Model OGEBIDI81 Form factor eSFP Application standard IEEE 802.3ah, 1000Base-BX80-U Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 166 1560 nm - 1580 nm Rx sensitivity (AVG) [dBm] -26 dBm Rx sensitivity (OMA) [dBm] Overload power (AVG) [dBm] -3 dBm Overload power (OMA) [dBm] NOTE Used in pair with 34060595. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 167: 1.25Gbps-Esfp-Smf-1310Nm(Tx)/1550Nm(Rx)-40Km-Commercial
Maximum Tx optical power (AVG) 2 dBm [dBm] Maximum Tx optical power (OMA) [dBm] Minimum Tx optical power (AVG) -3 dBm [dBm] Minimum Tx optical power (OMA) [dBm] Minimum extinction ratio [dB] 9 dB Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 168: 1.25Gbps-Esfp-Smf-1550Nm(Tx)/1310Nm(Rx)-40Km-Commercial
-5°C to 70°C(23°F to 158°F) DDM options SFF-8472 Environment standard RoHS Security standard FCC Class B, IEC 60825-1 Class 1 ESD(HBM1) [V] 500 V Transmission rate [bit/s] 0.1~1.25 Gbit/s Target transmission distance [km] 40 km Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 169: Gbps Esfp Cwdm Optical Module
When an optical module is used on the OptiX PTN equipment, the rate of the optical module cannot exceed 155 Mbit/s. 3.4.8 1.25Gbps eSFP CWDM Optical Module 3.4.8.1 1.25Gbps-eSFP-SMF-1571nm-80km-commercial Table 3-122 1.25Gbps-eSFP-SMF-1571nm-80km-commercial specifications Item Value Basic Information Module name 1.25Gbps-eSFP-SMF-1571nm-80km- commercial Part Number 34060476 Model eSFP-LH80-SM1571 Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 170 Receiver Optical Characteristics Rx operating wavelength range [nm] 1260 nm - 1620 nm Rx sensitivity (AVG) [dBm] -28 dBm Rx sensitivity (OMA) [dBm] Overload power (AVG) [dBm] -9 dBm Overload power (OMA) [dBm] Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 171: Gbps-Esfp-Smf-1591Nm-80Km-Commercial
5 dBm [dBm] Maximum Tx optical power (OMA) [dBm] Minimum Tx optical power (AVG) 0 dBm [dBm] Minimum Tx optical power (OMA) [dBm] Minimum extinction ratio [dB] 8.5 dB Receiver Optical Characteristics Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 172: Gbps-Esfp-Smf-1551Nm-80Km-Commercial
500 V Transmission rate [bit/s] 1.25 Gbit/s Target transmission distance [km] 80 km Transmitter Optical Characteristics Center wavelength [nm] 1551 nm Tx operating wavelength range [nm] 1544.5 nm - 1557.5 nm Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 173: Gbps-Esfp-Smf-1511Nm-80Km-Commercial
Form factor eSFP Application standard ITU-T G.957, STM-16 Connector type Optical fiber type Bit error ratio (BER) <1x10E-12 Working case temperature [°C(°F)] 0°C to 70°C(32°F to 158°F) DDM options SFF-8472 Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 174: Gbps-Esfp-Smf-1611Nm-80Km-Commercial
Rx sensitivity (OMA) [dBm] Overload power (AVG) [dBm] -9 dBm Overload power (OMA) [dBm] 3.4.8.5 1.25Gbps-eSFP-SMF-1611nm-80km-commercial Table 3-126 1.25Gbps-eSFP-SMF-1611nm-80km-commercial specifications Item Value Basic Information Module name 1.25Gbps-eSFP-SMF-1611nm-80km- commercial Part Number 34060480 Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 175 Receiver Optical Characteristics Rx operating wavelength range [nm] 1260 nm - 1620 nm Rx sensitivity (AVG) [dBm] -28 dBm Rx sensitivity (OMA) [dBm] Overload power (AVG) [dBm] -9 dBm Overload power (OMA) [dBm] Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 176: Gbps-Esfp-Smf-1491Nm-80Km-Commercial
5 dBm [dBm] Maximum Tx optical power (OMA) [dBm] Minimum Tx optical power (AVG) 0 dBm [dBm] Minimum Tx optical power (OMA) [dBm] Minimum extinction ratio [dB] 8.5 dB Receiver Optical Characteristics Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 177: Gbps-Esfp-Smf-1531Nm-80Km-Commercial
500 V Transmission rate [bit/s] 1.25 Gbit/s Target transmission distance [km] 80 km Transmitter Optical Characteristics Center wavelength [nm] 1531 nm Tx operating wavelength range [nm] 1524.5 nm - 1537.5 nm Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 178: Gbps-Esfp-Smf-1471Nm-80Km-Commercial
Form factor eSFP Application standard ITU-T G.957, STM-16 Connector type Optical fiber type Bit error ratio (BER) <1x10E-12 Working case temperature [°C(°F)] 0°C to 70°C(32°F to 158°F) DDM options SFF-8472 Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 179: 2.67Gbps Esfp Dwdm Optical Module
-28 dBm Rx sensitivity (OMA) [dBm] Overload power (AVG) [dBm] -9 dBm Overload power (OMA) [dBm] 3.4.9 125M~2.67Gbps eSFP DWDM Optical Module 3.4.9.1 125M~2.67Gbps-eSFP-SMF-1560.61nm-120km-commercial Table 3-130 125M~2.67Gbps-eSFP-SMF-1560.61nm-120km-commercial specifications Item Value Basic Information Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 180 8.2 dB Receiver Optical Characteristics Rx operating wavelength range [nm] 1520 nm - 1570 nm Rx sensitivity (AVG) [dBm] -28 dBm Rx sensitivity (OMA) [dBm] Overload power (AVG) [dBm] -8 dBm Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 181: 2.67Gbps-Esfp-Smf-1559.79Nm-120Km-Commercial
120 km Transmitter Optical Characteristics Center wavelength [nm] 1559.79 nm Maximum Tx optical power (AVG) 4 dBm [dBm] Maximum Tx optical power (OMA) [dBm] Minimum Tx optical power (AVG) 0 dBm [dBm] Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 182: 2.67Gbps-Esfp-Smf-1558.98Nm-120Km-Commercial
0°C to 70°C(32°F to 158°F) DDM options SFF-8472 Environment standard RoHS Security standard FCC Class B, IEC 60825-1 Class 1 ESD(HBM1) [V] 500 V Transmission rate [bit/s] 155 Mbit/s ~ 2.67 Gbit/s Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 183: 2.67Gbps-Esfp-Smf-1558.17Nm-120Km-Commercial
3.4.9.4 125M~2.67Gbps-eSFP-SMF-1558.17nm-120km-commercial Table 3-133 125M~2.67Gbps-eSFP-SMF-1558.17nm-120km-commercial specifications Item Value Basic Information Module name 125M~2.67Gbps-eSFP- SMF-1558.17nm-120km-commercial Part Number 34060374 Model eSFP-LH120-SM192.40 Form factor eSFP Application standard SONET OC-48 LR-2, Gigabit Ethernet Connector type Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 184 Receiver Optical Characteristics Rx operating wavelength range [nm] 1520 nm - 1570 nm Rx sensitivity (AVG) [dBm] -28 dBm Rx sensitivity (OMA) [dBm] Overload power (AVG) [dBm] -8 dBm Overload power (OMA) [dBm] Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 185: 2.67Gbps-Esfp-Smf-1557.36Nm-120Km-Commercial
4 dBm [dBm] Maximum Tx optical power (OMA) [dBm] Minimum Tx optical power (AVG) 0 dBm [dBm] Minimum Tx optical power (OMA) [dBm] Minimum extinction ratio [dB] 8.2 dB Receiver Optical Characteristics Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 186: 2.67Gbps-Esfp-Smf-1556.55Nm-120Km-Commercial
FCC Class B, IEC 60825-1 Class 1 ESD(HBM1) [V] 500 V Transmission rate [bit/s] 155 Mbit/s ~ 2.67 Gbit/s Target transmission distance [km] 120 km Transmitter Optical Characteristics Center wavelength [nm] 1556.55 nm Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 187: 2.67Gbps-Esfp-Smf-1555.75Nm-120Km-Commercial
Model eSFP-LH120-SM192.70 Form factor eSFP Application standard SONET OC-48 LR-2, Gigabit Ethernet Connector type Optical fiber type Bit error ratio (BER) <1x10E-12 Working case temperature [°C(°F)] 0°C to 70°C(32°F to 158°F) Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 188: 2.67Gbps-Esfp-Smf-1554.94Nm-120Km-Commercial
Rx sensitivity (AVG) [dBm] -28 dBm Rx sensitivity (OMA) [dBm] Overload power (AVG) [dBm] -8 dBm Overload power (OMA) [dBm] 3.4.9.8 125M~2.67Gbps-eSFP-SMF-1554.94nm-120km-commercial Table 3-137 125M~2.67Gbps-eSFP-SMF-1554.94nm-120km-commercial specifications Item Value Basic Information Module name 125M~2.67Gbps-eSFP- SMF-1554.94nm-120km-commercial Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 189 Receiver Optical Characteristics Rx operating wavelength range [nm] 1520 nm - 1570 nm Rx sensitivity (AVG) [dBm] -28 dBm Rx sensitivity (OMA) [dBm] Overload power (AVG) [dBm] -8 dBm Overload power (OMA) [dBm] Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 190: 2.67Gbps-Esfp-Smf-1554.13Nm-120Km-Commercial
4 dBm [dBm] Maximum Tx optical power (OMA) [dBm] Minimum Tx optical power (AVG) 0 dBm [dBm] Minimum Tx optical power (OMA) [dBm] Minimum extinction ratio [dB] 8.2 dB Receiver Optical Characteristics Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 191: 2.67Gbps-Esfp-Smf-1553.33Nm-120Km-Commercial
FCC Class B, IEC 60825-1 Class 1 ESD(HBM1) [V] 500 V Transmission rate [bit/s] 155 Mbit/s ~ 2.67 Gbit/s Target transmission distance [km] 120 km Transmitter Optical Characteristics Center wavelength [nm] 1553.33 nm Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 192: 2.67Gbps-Esfp-Smf-1552.52Nm-120Km-Commercial
Model eSFP-LH120-SM193.10 Form factor eSFP Application standard SONET OC-48 LR-2, Gigabit Ethernet Connector type Optical fiber type Bit error ratio (BER) <1x10E-12 Working case temperature [°C(°F)] 0°C to 70°C(32°F to 158°F) Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 193: 2.67Gbps-Esfp-Smf-1551.72Nm-120Km-Commercial
Rx sensitivity (AVG) [dBm] -28 dBm Rx sensitivity (OMA) [dBm] Overload power (AVG) [dBm] -8 dBm Overload power (OMA) [dBm] 3.4.9.12 125M~2.67Gbps-eSFP-SMF-1551.72nm-120km-commercial Table 3-141 125M~2.67Gbps-eSFP-SMF-1551.72nm-120km-commercial specifications Item Value Basic Information Module name 125M~2.67Gbps-eSFP- SMF-1551.72nm-120km-commercial Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 194 Receiver Optical Characteristics Rx operating wavelength range [nm] 1520 nm - 1570 nm Rx sensitivity (AVG) [dBm] -28 dBm Rx sensitivity (OMA) [dBm] Overload power (AVG) [dBm] -8 dBm Overload power (OMA) [dBm] Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 195: 2.67Gbps-Esfp-Smf-1550.92Nm-120Km-Commercial
4 dBm [dBm] Maximum Tx optical power (OMA) [dBm] Minimum Tx optical power (AVG) 0 dBm [dBm] Minimum Tx optical power (OMA) [dBm] Minimum extinction ratio [dB] 8.2 dB Receiver Optical Characteristics Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 196: 2.67Gbps-Esfp-Smf-1550.12Nm-120Km-Commercial
FCC Class B, IEC 60825-1 Class 1 ESD(HBM1) [V] 500 V Transmission rate [bit/s] 155 Mbit/s ~ 2.67 Gbit/s Target transmission distance [km] 120 km Transmitter Optical Characteristics Center wavelength [nm] 1550.12 nm Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 197: 2.67Gbps-Esfp-Smf-1549.32Nm-120Km-Commercial
Model eSFP-LH120-SM193.50 Form factor eSFP Application standard SONET OC-48 LR-2, Gigabit Ethernet Connector type Optical fiber type Bit error ratio (BER) <1x10E-12 Working case temperature [°C(°F)] 0°C to 70°C(32°F to 158°F) Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 198: 2.67Gbps-Esfp-Smf-1548.51Nm-120Km-Commercial
Rx sensitivity (AVG) [dBm] -28 dBm Rx sensitivity (OMA) [dBm] Overload power (AVG) [dBm] -8 dBm Overload power (OMA) [dBm] 3.4.9.16 125M~2.67Gbps-eSFP-SMF-1548.51nm-120km-commercial Table 3-145 125M~2.67Gbps-eSFP-SMF-1548.51nm-120km-commercial specifications Item Value Basic Information Module name 125M~2.67Gbps-eSFP- SMF-1548.51nm-120km-commercial Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 199 Receiver Optical Characteristics Rx operating wavelength range [nm] 1520 nm - 1570 nm Rx sensitivity (AVG) [dBm] -28 dBm Rx sensitivity (OMA) [dBm] Overload power (AVG) [dBm] -8 dBm Overload power (OMA) [dBm] Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 200: 2.67Gbps-Esfp-Smf-1547.72Nm-120Km-Commercial
4 dBm [dBm] Maximum Tx optical power (OMA) [dBm] Minimum Tx optical power (AVG) 0 dBm [dBm] Minimum Tx optical power (OMA) [dBm] Minimum extinction ratio [dB] 8.2 dB Receiver Optical Characteristics Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 201: 2.67Gbps-Esfp-Smf-1546.92Nm-120Km-Commercial
FCC Class B, IEC 60825-1 Class 1 ESD(HBM1) [V] 500 V Transmission rate [bit/s] 155 Mbit/s ~ 2.67 Gbit/s Target transmission distance [km] 120 km Transmitter Optical Characteristics Center wavelength [nm] 1546.92 nm Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 202: 2.67Gbps-Esfp-Smf-1546.12Nm-120Km-Commercial
Model eSFP-LH120-SM193.90 Form factor eSFP Application standard SONET OC-48 LR-2, Gigabit Ethernet Connector type Optical fiber type Bit error ratio (BER) <1x10E-12 Working case temperature [°C(°F)] 0°C to 70°C(32°F to 158°F) Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 203: 2.67Gbps-Esfp-Smf-1545.32Nm-120Km-Commercial
Rx sensitivity (AVG) [dBm] -28 dBm Rx sensitivity (OMA) [dBm] Overload power (AVG) [dBm] -8 dBm Overload power (OMA) [dBm] 3.4.9.20 125M~2.67Gbps-eSFP-SMF-1545.32nm-120km-commercial Table 3-149 125M~2.67Gbps-eSFP-SMF-1545.32nm-120km-commercial specifications Item Value Basic Information Module name 125M~2.67Gbps-eSFP- SMF-1545.32nm-120km-commercial Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 204 Receiver Optical Characteristics Rx operating wavelength range [nm] 1520 nm - 1570 nm Rx sensitivity (AVG) [dBm] -28 dBm Rx sensitivity (OMA) [dBm] Overload power (AVG) [dBm] -8 dBm Overload power (OMA) [dBm] Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 205: 2.67Gbps-Esfp-Smf-1544.53Nm-120Km-Commercial
4 dBm [dBm] Maximum Tx optical power (OMA) [dBm] Minimum Tx optical power (AVG) 0 dBm [dBm] Minimum Tx optical power (OMA) [dBm] Minimum extinction ratio [dB] 8.2 dB Receiver Optical Characteristics Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 206: 2.67Gbps-Esfp-Smf-1543.73Nm-120Km-Commercial
FCC Class B, IEC 60825-1 Class 1 ESD(HBM1) [V] 500 V Transmission rate [bit/s] 155 Mbit/s ~ 2.67 Gbit/s Target transmission distance [km] 120 km Transmitter Optical Characteristics Center wavelength [nm] 1543.73 nm Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 207: 2.67Gbps-Esfp-Smf-1542.94Nm-120Km-Commercial
Model eSFP-LH120-SM194.30 Form factor eSFP Application standard SONET OC-48 LR-2, Gigabit Ethernet Connector type Optical fiber type Bit error ratio (BER) <1x10E-12 Working case temperature [°C(°F)] 0°C to 70°C(32°F to 158°F) Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 208: 2.67Gbps-Esfp-Smf-1542.14Nm-120Km-Commercial
Rx sensitivity (AVG) [dBm] -28 dBm Rx sensitivity (OMA) [dBm] Overload power (AVG) [dBm] -8 dBm Overload power (OMA) [dBm] 3.4.9.24 125M~2.67Gbps-eSFP-SMF-1542.14nm-120km-commercial Table 3-153 125M~2.67Gbps-eSFP-SMF-1542.14nm-120km-commercial specifications Item Value Basic Information Module name 125M~2.67Gbps-eSFP- SMF-1542.14nm-120km-commercial Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 209 Receiver Optical Characteristics Rx operating wavelength range [nm] 1520 nm - 1570 nm Rx sensitivity (AVG) [dBm] -28 dBm Rx sensitivity (OMA) [dBm] Overload power (AVG) [dBm] -8 dBm Overload power (OMA) [dBm] Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 210: 2.67Gbps-Esfp-Smf-1541.35Nm-120Km-Commercial
4 dBm [dBm] Maximum Tx optical power (OMA) [dBm] Minimum Tx optical power (AVG) 0 dBm [dBm] Minimum Tx optical power (OMA) [dBm] Minimum extinction ratio [dB] 8.2 dB Receiver Optical Characteristics Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 211: 2.67Gbps-Esfp-Smf-1540.56Nm-120Km-Commercial
FCC Class B, IEC 60825-1 Class 1 ESD(HBM1) [V] 500 V Transmission rate [bit/s] 155 Mbit/s ~ 2.67 Gbit/s Target transmission distance [km] 120 km Transmitter Optical Characteristics Center wavelength [nm] 1540.56 nm Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 212: 2.67Gbps-Esfp-Smf-1539.77Nm-120Km-Commercial
Model eSFP-LH120-SM194.70 Form factor eSFP Application standard SONET OC-48 LR-2, Gigabit Ethernet Connector type Optical fiber type Bit error ratio (BER) <1x10E-12 Working case temperature [°C(°F)] 0°C to 70°C(32°F to 158°F) Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 213: 2.67Gbps-Esfp-Smf-1538.98Nm-120Km-Commercial
Rx sensitivity (AVG) [dBm] -28 dBm Rx sensitivity (OMA) [dBm] Overload power (AVG) [dBm] -8 dBm Overload power (OMA) [dBm] 3.4.9.28 125M~2.67Gbps-eSFP-SMF-1538.98nm-120km-commercial Table 3-157 125M~2.67Gbps-eSFP-SMF-1538.98nm-120km-commercial specifications Item Value Basic Information Module name 125M~2.67Gbps-eSFP- SMF-1538.98nm-120km-commercial Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 214 Receiver Optical Characteristics Rx operating wavelength range [nm] 1520 nm - 1570 nm Rx sensitivity (AVG) [dBm] -28 dBm Rx sensitivity (OMA) [dBm] Overload power (AVG) [dBm] -8 dBm Overload power (OMA) [dBm] Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 215: 2.67Gbps-Esfp-Smf-1538.19Nm-120Km-Commercial
4 dBm [dBm] Maximum Tx optical power (OMA) [dBm] Minimum Tx optical power (AVG) 0 dBm [dBm] Minimum Tx optical power (OMA) [dBm] Minimum extinction ratio [dB] 8.2 dB Receiver Optical Characteristics Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 216: 2.67Gbps-Esfp-Smf-1537.40Nm-120Km-Commercial
FCC Class B, IEC 60825-1 Class 1 ESD(HBM1) [V] 500 V Transmission rate [bit/s] 155 Mbit/s ~ 2.67 Gbit/s Target transmission distance [km] 120 km Transmitter Optical Characteristics Center wavelength [nm] 1537.4 nm Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 217: 2.67Gbps-Esfp-Smf-1536.61Nm-120Km-Commercial
Model eSFP-LH120-SM195.10 Form factor eSFP Application standard SONET OC-48 LR-2, Gigabit Ethernet Connector type Optical fiber type Bit error ratio (BER) <1x10E-12 Working case temperature [°C(°F)] 0°C to 70°C(32°F to 158°F) Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 218: 2.67Gbps-Esfp-Smf-1535.82Nm-120Km-Commercial
Rx sensitivity (AVG) [dBm] -28 dBm Rx sensitivity (OMA) [dBm] Overload power (AVG) [dBm] -8 dBm Overload power (OMA) [dBm] 3.4.9.32 125M~2.67Gbps-eSFP-SMF-1535.82nm-120km-commercial Table 3-161 125M~2.67Gbps-eSFP-SMF-1535.82nm-120km-commercial specifications Item Value Basic Information Module name 125M~2.67Gbps-eSFP- SMF-1535.82nm-120km-commercial Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 219 Receiver Optical Characteristics Rx operating wavelength range [nm] 1520 nm - 1570 nm Rx sensitivity (AVG) [dBm] -28 dBm Rx sensitivity (OMA) [dBm] Overload power (AVG) [dBm] -8 dBm Overload power (OMA) [dBm] Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 220: 2.67Gbps-Esfp-Smf-1535.04Nm-120Km-Commercial
4 dBm [dBm] Maximum Tx optical power (OMA) [dBm] Minimum Tx optical power (AVG) 0 dBm [dBm] Minimum Tx optical power (OMA) [dBm] Minimum extinction ratio [dB] 8.2 dB Receiver Optical Characteristics Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 221: 2.67Gbps-Esfp-Smf-1534.25Nm-120Km-Commercial
FCC Class B, IEC 60825-1 Class 1 ESD(HBM1) [V] 500 V Transmission rate [bit/s] 155 Mbit/s ~ 2.67 Gbit/s Target transmission distance [km] 120 km Transmitter Optical Characteristics Center wavelength [nm] 1534.25 nm Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 222: 2.67Gbps-Esfp-Smf-1533.47Nm-120Km-Commercial
Model eSFP-LH120-SM195.50 Form factor eSFP Application standard SONET OC-48 LR-2, Gigabit Ethernet Connector type Optical fiber type Bit error ratio (BER) <1x10E-12 Working case temperature [°C(°F)] 0°C to 70°C(32°F to 158°F) Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 223: 2.67Gbps-Esfp-Smf-1532.68Nm-120Km-Commercial
Rx sensitivity (AVG) [dBm] -28 dBm Rx sensitivity (OMA) [dBm] Overload power (AVG) [dBm] -8 dBm Overload power (OMA) [dBm] 3.4.9.36 125M~2.67Gbps-eSFP-SMF-1532.68nm-120km-commercial Table 3-165 125M~2.67Gbps-eSFP-SMF-1532.68nm-120km-commercial specifications Item Value Basic Information Module name 125M~2.67Gbps-eSFP- SMF-1532.68nm-120km-commercial Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 224 Receiver Optical Characteristics Rx operating wavelength range [nm] 1520 nm - 1570 nm Rx sensitivity (AVG) [dBm] -28 dBm Rx sensitivity (OMA) [dBm] Overload power (AVG) [dBm] -8 dBm Overload power (OMA) [dBm] Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 225: 2.67Gbps-Esfp-Smf-1531.90Nm-120Km-Commercial
4 dBm [dBm] Maximum Tx optical power (OMA) [dBm] Minimum Tx optical power (AVG) 0 dBm [dBm] Minimum Tx optical power (OMA) [dBm] Minimum extinction ratio [dB] 8.2 dB Receiver Optical Characteristics Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 226: 2.67Gbps-Esfp-Smf-1531.12Nm-120Km-Commercial
FCC Class B, IEC 60825-1 Class 1 ESD(HBM1) [V] 500 V Transmission rate [bit/s] 155 Mbit/s ~ 2.67 Gbit/s Target transmission distance [km] 120 km Transmitter Optical Characteristics Center wavelength [nm] 1531.12 nm Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 227: 2.67Gbps-Esfp-Smf-1530.33Nm-120Km-Commercial
Model eSFP-LH120-SM195.90 Form factor eSFP Application standard SONET OC-48 LR-2, Gigabit Ethernet Connector type Optical fiber type Bit error ratio (BER) <1x10E-12 Working case temperature [°C(°F)] 0°C to 70°C(32°F to 158°F) Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 228: 2.67Gbps-Esfp-Smf-1529.55Nm-120Km-Commercial
Rx sensitivity (AVG) [dBm] -28 dBm Rx sensitivity (OMA) [dBm] Overload power (AVG) [dBm] -8 dBm Overload power (OMA) [dBm] 3.4.9.40 125M~2.67Gbps-eSFP-SMF-1529.55nm-120km-commercial Table 3-169 125M~2.67Gbps-eSFP-SMF-1529.55nm-120km-commercial specifications Item Value Basic Information Module name 125M~2.67Gbps-eSFP- SMF-1529.55nm-120km-commercial Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 229 Receiver Optical Characteristics Rx operating wavelength range [nm] 1520 nm - 1570 nm Rx sensitivity (AVG) [dBm] -28 dBm Rx sensitivity (OMA) [dBm] Overload power (AVG) [dBm] -8 dBm Overload power (OMA) [dBm] Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 230: 10Gbps Sfp+ Optical Module
Tx operating wavelength range [nm] 1530 nm - 1565 nm Maximum Tx optical power (AVG) 4 dBm [dBm] Maximum Tx optical power (OMA) [dBm] Minimum Tx optical power (AVG) 0 dBm [dBm] Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 231: 10Gbps-Sfp+-Smf-1310Nm-10Km-Industry
Rx sensitivity (OMA) [dBm] Overload power (AVG) [dBm] -7 dBm Overload power (OMA) [dBm] NOTE The interface standard is Huawei-specific. Self-loop is not supported. An optical attenuator must be added if self-loop is required. 3.4.10.2 10Gbps-SFP+-SMF-1310nm-10km-industry Table 3-171 10Gbps-SFP+-SMF-1310nm-10km-industry specifications Item...
Page 232: 10Gbps-Sfp+-Smf-1550Nm-40Km-Industry
Overload power (AVG) [dBm] 0.5 dBm Overload power (OMA) [dBm] 3.4.10.3 10Gbps-SFP+-SMF-1550nm-40km-industry Table 3-172 10Gbps-SFP+-SMF-1550nm-40km-industry specifications Item Value Basic Information Module name 10Gbps-SFP+-SMF-1550nm-40km- industry Part Number 34060684 Model OSX040N05 Form factor SFP+ Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 233 Rx sensitivity (OMA) [dBm] -14.1 dBm Overload power (AVG) [dBm] -1 dBm Overload power (OMA) [dBm] NOTE Self-loop is not supported. An optical attenuator must be added if self-loop is required. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 234: 10Gbps-Sfp+-Mmf-850Nm-0.3Km-Commercial
Maximum Tx optical power (AVG) -1 dBm [dBm] Maximum Tx optical power (OMA) [dBm] Minimum Tx optical power (AVG) -7.3 dBm [dBm] Minimum Tx optical power (OMA) [dBm] Minimum extinction ratio [dB] 3 dB Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 235: 10Gbps-Sfp+-Smf-1310Nm-10Km-Commercial
FCC Class B, IEC 60825-1 Class 1 ESD(HBM1) [V] 500 V Transmission rate [bit/s] 9.953 Gbit/s 10.3125 Gbit/s Target transmission distance [km] 10 km Transmitter Optical Characteristics Center wavelength [nm] 1310 nm Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 236: 10Gbps-Sfp+-Smf-1550Nm-40Km-Commercial
Part Number S4017484 Model OMXD30002 Form factor SFP+ Application standard IEEE 802.3ae, 10GBASE-ER/EW Connector type Optical fiber type Bit error ratio (BER) <1x10E-12 Working case temperature [°C(°F)] 0°C to 70°C(32°F to 158°F) Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 237: 9.953/10.3125Gbps Sfp+ Optical Module
Overload power (AVG) [dBm] -1 dBm Overload power (OMA) [dBm] -1 dBm NOTE Self-loop is not supported. An optical attenuator must be added if self-loop is required. 3.4.11 1.25/9.953/10.3125Gbps SFP+ Optical Module Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 238 Center wavelength [nm] 1310 nm Tx operating wavelength range [nm] 1260 nm - 1360 nm Maximum Tx optical power (AVG) GE: 0.5 dBm [dBm] 10GE: 0.5 dBm Maximum Tx optical power (OMA) [dBm] Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 239 Form factor SFP+ Application standard IEEE 802.3ae, 10GBASE-ER/EW, 1000BASE-LX Connector type Optical fiber type Bit error ratio (BER) <1x10E-12 Working case temperature [°C(°F)] 0°C to 70°C(32°F to 158°F) DDM options SFF-8472 Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 240: 10Gbps Sfp+ Cwdm Optical Module
Rx sensitivity (AVG) [dBm] GE: -15.8 dBm 10GE: -15.8 dBm Rx sensitivity (OMA) [dBm] Overload power (AVG) [dBm] -1 dBm Overload power (OMA) [dBm] -1 dBm 3.4.12 10Gbps SFP+ CWDM Optical Module Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 241: 10Gbps-Sfp+-Smf-1511Nm-70Km-Commercial
Maximum Tx optical power (AVG) 4 dBm [dBm] Maximum Tx optical power (OMA) [dBm] Minimum Tx optical power (AVG) 0 dBm [dBm] Minimum Tx optical power (OMA) [dBm] Minimum extinction ratio [dB] 8.2 dB Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 242: 10Gbps-Sfp+-Smf-1471Nm-70Km-Commercial
FCC Class B, IEC 60825-1 Class 1 ESD(HBM1) [V] 500 V Transmission rate [bit/s] 9.953 Gbit/s 10.3125 Gbit/s Target transmission distance [km] 70 km Transmitter Optical Characteristics Center wavelength [nm] 1471 nm Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 243: 10Gbps-Sfp+-Smf-1491Nm-70Km-Commercial
Part Number 34060688 Model OSX070003 Form factor SFP+ Application standard IEEE 802.3ae, 10GBASE-X Connector type Optical fiber type Bit error ratio (BER) <1x10E-12 Working case temperature [°C(°F)] 0°C to 70°C(32°F to 158°F) Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 244: 10Gbps-Sfp+-Smf-1531Nm-70Km-Commercial
1460 nm - 1620 nm Rx sensitivity (AVG) [dBm] -23 dBm Rx sensitivity (OMA) [dBm] Overload power (AVG) [dBm] -7 dBm Overload power (OMA) [dBm] 3.4.12.4 10Gbps-SFP+-SMF-1531nm-70km-commercial Table 3-181 10Gbps-SFP+-SMF-1531nm-70km-commercial specifications Item Value Basic Information Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 245 Minimum Tx optical power (OMA) [dBm] Minimum extinction ratio [dB] 8.2 dB Receiver Optical Characteristics Rx operating wavelength range [nm] 1460 nm - 1620 nm Rx sensitivity (AVG) [dBm] -23 dBm Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 246: 10Gbps-Sfp+-Smf-1551Nm-70Km-Commercial
Target transmission distance [km] 70 km Transmitter Optical Characteristics Center wavelength [nm] 1551 nm Tx operating wavelength range [nm] 1544.5 nm - 1557.5 nm Maximum Tx optical power (AVG) 4 dBm [dBm] Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 247: 10Gbps-Sfp+-Smf-1571Nm-70Km-Commercial
Optical fiber type Bit error ratio (BER) <1x10E-12 Working case temperature [°C(°F)] 0°C to 70°C(32°F to 158°F) DDM options SFF-8472 Environment standard RoHS Security standard FCC Class B, IEC 60825-1 Class 1 Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 248: 10Gbps-Sfp+-Smf-1591Nm-70Km-Commercial
Rx sensitivity (OMA) [dBm] Overload power (AVG) [dBm] -7 dBm Overload power (OMA) [dBm] 3.4.12.7 10Gbps-SFP+-SMF-1591nm-70km-commercial Table 3-184 10Gbps-SFP+-SMF-1591nm-70km-commercial specifications Item Value Basic Information Module name 10Gbps-SFP+-SMF-1591nm-70km- commercial Part Number 34060692 Model OSX070007 Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 249 Receiver Optical Characteristics Rx operating wavelength range [nm] 1460 nm - 1620 nm Rx sensitivity (AVG) [dBm] -21 dBm Rx sensitivity (OMA) [dBm] Overload power (AVG) [dBm] -7 dBm Overload power (OMA) [dBm] Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 250: 10Gbps-Sfp+-Smf-1611Nm-70Km-Commercial
Maximum Tx optical power (AVG) 4 dBm [dBm] Maximum Tx optical power (OMA) [dBm] Minimum Tx optical power (AVG) 0 dBm [dBm] Minimum Tx optical power (OMA) [dBm] Minimum extinction ratio [dB] 8.2 dB Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 251: 10Gbps Sfp+ Bidi Optical Module
0°C to 70°C(32°F to 158°F) DDM options SFF-8472 Environment standard RoHS Security standard FCC Class B, IEC 60825-1 Class 1 ESD(HBM1) [V] 500 V Transmission rate [bit/s] 9.953 Gbit/s 10.3125 Gbit/s Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 252: 10Gbps-Sfp+-Smf-1330Nm(Tx)/1270Nm(Rx)-40Km-Commercial
Overload power (OMA) [dBm] 3.4.13.2 10Gbps-SFP+-SMF-1330nm(Tx)/1270nm(Rx)-40km-commercial Table 3-187 10Gbps-SFP+-SMF-1330nm(Tx)/1270nm(Rx)-40km-commercial specifications Item Value Basic Information Module name 10Gbps-SFP+-SMF-1330nm(Tx)/ 1270nm(Rx)-40km-commercial Part Number 02311JNQ Model OSX040B11 Form factor SFP+ Application standard IEEE 802.3ae, 10GBASE-BX40-D Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 253 Receiver Optical Characteristics Rx operating wavelength range [nm] 1260 nm - 1280 nm Rx sensitivity (AVG) [dBm] -18 dBm Rx sensitivity (OMA) [dBm] Overload power (AVG) [dBm] -9 dBm Overload power (OMA) [dBm] Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 254: 10Gbps-Sfp+-Smf-1270Nm(Tx)/1330Nm(Rx)-10Km-Industry
1260 nm - 1280 nm Maximum Tx optical power (AVG) 0.5 dBm [dBm] Maximum Tx optical power (OMA) [dBm] Minimum Tx optical power (AVG) -8.2 dBm [dBm] Minimum Tx optical power (OMA) -5.2 dBm [dBm] Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 255: 10Gbps-Sfp+-Smf-1330Nm(Tx)/1270Nm(Rx)-10Km-Industry
DDM options SFF-8472 Environment standard RoHS Security standard FCC Class B, IEC 60825-1 Class 1 ESD(HBM1) [V] 500 V Transmission rate [bit/s] 9.953 Gbit/s 10.3125 Gbit/s Target transmission distance [km] 10 km Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 256: 25Gbps Sfp28 Optical Module
3.4.14 25Gbps SFP28 Optical Module 3.4.14.1 25Gbps-SFP28-MMF-850nm-0.1km-commercial (02312PDK) Table 3-190 25Gbps-SFP28-MMF-850nm-0.1km-commercial specifications Item Value Basic Information Module name 25Gbps-SFP28-MMF-850nm-0.1km- commercial Part Number 02312PDK Model SFP28-25G-850nm-0.1km-MM Form factor SFP28 Application standard IEEE802.3-2012, 25GBASE-SR Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 257 Receiver Optical Characteristics Rx operating wavelength range [nm] 840 nm - 860 nm Rx sensitivity (AVG) [dBm] -10.3 dBm Rx sensitivity (OMA) [dBm] Overload power (AVG) [dBm] 2.4 dBm Overload power (OMA) [dBm] Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 258: 25Gbps-Sfp28-Smf-1310Nm-10Km-Industry (02312Pdl)
1295 nm - 1325 nm Maximum Tx optical power (AVG) 2 dBm [dBm] Maximum Tx optical power (OMA) [dBm] Minimum Tx optical power (AVG) -7 dBm [dBm] Minimum Tx optical power (OMA) [dBm] Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 259: 25Gbps-Sfp28-Mmf-850Nm-0.1Km-Commercial (34061254)
SFF-8472 Environment standard RoHS Security standard FCC Class B, IEC 60825-1 Class 1 ESD(HBM1) [V] 1000 V Transmission rate [bit/s] 25.78125 Gbit/s Target transmission distance [km] 0.1 km Transmitter Optical Characteristics Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 260: 25Gbps-Sfp28-Smf-1310Nm-10Km-Industry (34061618)
Table 3-193 25Gbps-SFP28-SMF-1310nm-10km-industry specifications Item Value Basic Information Module name 25Gbps-SFP28-SMF-1310nm-10km- industry Part Number 34061618 Model SFP28-25G-1310nm-10km-SM Form factor SFP28 Application standard IEEE 802.3 by-2016, 25GBASE-LR, 10GBASE-LR Connector type Optical fiber type Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 261 Receiver Optical Characteristics Rx operating wavelength range [nm] 1295 nm - 1325 nm Rx sensitivity (AVG) [dBm] Rx sensitivity (OMA) [dBm] -11.3 dBm Overload power (AVG) [dBm] 2 dBm Overload power (OMA) [dBm] Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 262: 25Gbps-Sfp28-Mmf-850Nm-0.1Km-Extended
840 nm - 860 nm Maximum Tx optical power (AVG) 2.4 dBm [dBm] Maximum Tx optical power (OMA) [dBm] Minimum Tx optical power (AVG) -8.4 dBm [dBm] Minimum Tx optical power (OMA) [dBm] Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 263: 25Gbps Sfp28 Bidi Optical Module
IEEE 802.3 by-2016, 25GBASE-LR, 10GBASE-LR Connector type Optical fiber type Bit error ratio (BER) <5x10E-5(24.33024G,25.78125G) <1x10E-12(9.8304G,10.1376G, 10.3125G) Working case temperature [°C(°F)] -40°C to 85°C(-40°F to 185°F) DDM options SFF-8472 Environment standard RoHS Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 264: 25Gbps-Sfp28-Smf-1330Nm(Tx)/1270Nm(Rx)-10Km-Commercial
Rx sensitivity (OMA) [dBm] -12 dBm Overload power (AVG) [dBm] 2 dBm Overload power (OMA) [dBm] 3.4.15.2 25Gbps-SFP28-SMF-1330nm(Tx)/1270nm(Rx)-10km-commercial Table 3-196 25Gbps-SFP28-SMF-1330nm(Tx)/1270nm(Rx)-10km-commercial specifications Item Value Basic Information Module name 25Gbps-SFP28-SMF-1330nm(Tx)/ 1270nm(Rx)-10km-commercial Part Number 02312TXG Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 265 Minimum Tx optical power (OMA) [dBm] Minimum extinction ratio [dB] 3 dB Receiver Optical Characteristics Rx operating wavelength range [nm] 1260 nm - 1280 nm Rx sensitivity (AVG) [dBm] Rx sensitivity (OMA) [dBm] -12 dBm Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 266: 40Gbps Qsfp+ Optical Module
SFF-8436 Environment standard RoHS Security standard FCC Class B, IEC 60825-1 Class 1 ESD(HBM1) [V] 500 V Transmission rate [bit/s] 41.25 Gbit/s Target transmission distance [km] 10 km Transmitter Optical Characteristics Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 267: 40Gbps(4*10.3)-Qsfp+-Mmf-850Nm-0.1Km-Commercial
Overload power (AVG) [dBm] per lane: 2.3 dBm Overload power (OMA) [dBm] NOTE The optical power calculation is based on the OMA value. 3.4.16.2 40Gbps(4*10.3)-QSFP+-MMF-850nm-0.1km-commercial Table 3-198 40Gbps(4*10.3)-QSFP+-MMF-850nm-0.1km-commercial specifications Item Value Basic Information Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 268 Minimum Tx optical power (OMA) per lane: -5.6 dBm [dBm] Minimum extinction ratio [dB] 3 dB Receiver Optical Characteristics Rx operating wavelength range [nm] 840 nm - 860 nm Rx sensitivity (AVG) [dBm] Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 269: 40Gbps(4*10.3)-Qsfp+-Smf-1310Nm-10Km-Commercial
Transmission rate [bit/s] 4x9.95328 Gbit/s 4x10.3125 Gbit/s Target transmission distance [km] 10 km Transmitter Optical Characteristics Center wavelength [nm] 1310 nm Tx operating wavelength range [nm] 1260 nm - 1355 nm Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 270: Qsfp-40G-Lx4-Mm (02313Nug)
QSFP+ Application standard 40GBASE-LX4 Connector type Optical fiber type Working case temperature [°C(°F)] 0°C to 70°C (32°F to 158°F) Transmission rate [bit/s] 40Gbit/s Target transmission distance [km] 150m Transmitter Optical Characteristics Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 271: Qsfp-40G-Lx4-Mm (02314Mwg)
QSFP+ Application standard 40GBASE-LX4 Connector type Optical fiber type Working case temperature [°C(°F)] 0°C to 70°C (32°F to 158°F) Transmission rate [bit/s] 40Gbit/s Target transmission distance [km] 150m Transmitter Optical Characteristics Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 272: 50Gbps Qsfp28 Optical Module
Item Value Basic Information Module name 50Gbps-QSFP28-SMF-1311nm-10km- commercial Part Number 02311YNR Model OSL010N01 Form factor QSFP28 Application standard IEEE 802.3cd, 50GBASE-LR Connector type Optical fiber type Bit error ratio (BER) <1x10E-12 Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 273 3. When this type of optical module is used to interconnect with a WDM device, the 1+1 protection switching duration on the client side of the WDM device is longer than 50 ms. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 274: 50Gbps-Qsfp28-Smf-1311Nm-40Km-Commercial
[dBm] Maximum Tx optical power (OMA) 9 dBm [dBm] Minimum Tx optical power (AVG) 1.5 dBm [dBm] Minimum Tx optical power (OMA) 4.5 dBm [dBm] Minimum extinction ratio [dB] 6 dB Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 275: 50Gbps-Qsfp28-Smf-1295.56~1300.05Nm-80Km-Commercial
WDM device is longer than 50 ms. 3.4.17.3 50Gbps-QSFP28-SMF-1295.56~1300.05nm-80km-commercial Table 3-204 50Gbps-QSFP28-SMF-1295.56~1300.05nm-80km-commercial specifications Item Value Basic Information Module name 50Gbps-QSFP28- SMF-1295.56~1300.05nm-80km- commercial Part Number 02312MLF Model QSFP28-50G-1310nm-80km-SM-01 Form factor QSFP28 Application standard Huawei Define Connector type Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 276 1294.53 nm - 1296.59 nm 1299.02 nm - 1301.09 nm Rx sensitivity (AVG) [dBm] per lane: -28 dBm Rx sensitivity (OMA) [dBm] Overload power (AVG) [dBm] per lane: -3.5 dBm Overload power (OMA) [dBm] Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 277: 50Gbps Qsfp28 Bidi Optical Module
SFF-8636 Environment standard RoHS Security standard FCC Class B, IEC 60825-1 Class 1 ESD(HBM1) [V] 1000 V Transmission rate [bit/s] 53.125 Gbit/s Target transmission distance [km] 10 km Transmitter Optical Characteristics Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 278: 50Gbps-Qsfp28-Smf-1271Nm(Tx)/1331Nm(Rx)-10Km-Commercial
WDM device is longer than 50 ms. 3.4.18.2 50Gbps-QSFP28-SMF-1271nm(Tx)/1331nm(Rx)-10km-commercial Table 3-206 50Gbps-QSFP28-SMF-1271nm(Tx)/1331nm(Rx)-10km-commercial specifications Item Value Basic Information Module name 50Gbps-QSFP28-SMF-1271nm(Tx)/ 1331nm(Rx)-10km-commercial Part Number 02312EVW Model QSFP28-50G-BIDI-10km-SM-2 Form factor QSFP28 Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 279 Receiver Optical Characteristics Rx operating wavelength range [nm] 1324.5 nm - 1337.5 nm Rx sensitivity (AVG) [dBm] Rx sensitivity (OMA) [dBm] -8.9 dBm Overload power (AVG) [dBm] 4.2 dBm Overload power (OMA) [dBm] Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 280: 50Gbps-Qsfp28-Smf-1295Nm(Tx)/1309Nm(Rx)-40Km-Commercial
1000 V Transmission rate [bit/s] 53.125 Gbit/s Target transmission distance [km] 40 km Transmitter Optical Characteristics Center wavelength [nm] 1295 nm Tx operating wavelength range [nm] 1294.53 nm - 1296.59 nm Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 281 4. When this type of optical module is used to interconnect with a WDM device, the 1+1 protection switching duration on the client side of the WDM device is longer than 50 ms. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 282: 50Gbps-Qsfp28-Smf-1309Nm(Tx)/1295Nm(Rx)-40Km-Commercial
Maximum Tx optical power (AVG) 8 dBm [dBm] Maximum Tx optical power (OMA) 9 dBm [dBm] Minimum Tx optical power (AVG) 1.5 dBm [dBm] Minimum Tx optical power (OMA) 4.5 dBm [dBm] Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 283: 100Gbps Qsfp28 Optical Module
WDM device is longer than 50 ms. 3.4.19 100Gbps QSFP28 Optical Module 3.4.19.1 100Gbps(4*25.7)-QSFP28-MMF-850nm-0.1km-commercial Table 3-209 100Gbps(4*25.7)-QSFP28-MMF-850nm-0.1km-commercial specifications Item Value Basic Information Module name 100Gbps(4*25.7)-QSFP28- MMF-850nm-0.1km-commercial Part Number 02311NTY Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 284 Rx operating wavelength range [nm] 840 nm - 860 nm Rx sensitivity (AVG) [dBm] Rx sensitivity (OMA) [dBm] per lane: -10.3 dBm Overload power (AVG) [dBm] per lane: 2.4 dBm Overload power (OMA) [dBm] Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 285: 100Gbps(4*25.7)-Qsfp28-Smf-1271~1331Nm-2Km-Commercial
FCC Class B, IEC 60825-1 Class 1 ESD(HBM1) [V] 500 V Transmission rate [bit/s] 103.125 Gbit/s Target transmission distance [km] 2 km Transmitter Optical Characteristics Center wavelength [nm] 1271 nm 1291 nm 1311 nm 1331 nm Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 286: 100Gbps(4*25.7)-Qsfp28-Smf-1310Nm-30Km(No Fec)-40Km(Fec)-Commercial
2. The BER 5x10E - 5 is the data that is not enabled by FEC, so that 1x10E - 12 can be reached after FEC . 3.4.19.3 100Gbps(4*25.7)-QSFP28-SMF-1310nm-30km(NO FEC)-40km(FEC)- commercial Table 3-211 100Gbps(4*25.7)-QSFP28-SMF-1310nm-30km(NO FEC)-40km(FEC)- commercial specifications Item Value Basic Information Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 287 1308.09 nm - 1310.19 nm Maximum Tx optical power (AVG) per lane: 2.9 dBm [dBm] Maximum Tx optical power (OMA) per lane: 4.5 dBm [dBm] Minimum Tx optical power (AVG) per lane: -2.5 dBm [dBm] Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 288: 100Gbps(4*25.7)-Qsfp28-Smf-1295.56~1309.14Nm-10Km-Commercial (02312Bss)
(02312BSS) Table 3-212 100Gbps(4*25.7)-QSFP28-SMF-1295.56~1309.14nm-10km- commercial specifications Item Value Basic Information Module name 100Gbps(4*25.7)-QSFP28- SMF-1295.56~1309.14nm-10km- commercial Part Number 02312BSS Model OSN010N24 Form factor QSFP28 Application standard IEEE 802.3ba, 100GBASE-LR4 Connector type Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 289 1294.53 nm - 1296.59 nm 1299.02 nm - 1301.09 nm 1303.54 nm - 1305.63 nm 1308.09 nm - 1310.19 nm Rx sensitivity (AVG) [dBm] Rx sensitivity (OMA) [dBm] per lane: -8.6 dBm Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 290: 100Gbps(4*25.7)-Qsfp28-Smf-1295.56~1309.14Nm-80Km-Commercial
SFF-8636 Environment standard RoHS Security standard FCC Class B, IEC 60825-1 Class 1 ESD(HBM1) [V] 1000 V Transmission rate [bit/s] 103.125 Gbit/s Target transmission distance [km] 80 km Transmitter Optical Characteristics Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 291 2. The BER 5x10E - 5 is the data that is not enabled by FEC, so that 1x10E - 12 can be reached after FEC . 3. When the board is used for 80 km transmission, it must be interconnected with a Huawei optical module of the same model.
Page 292: 100Gbps(4*25.7)-Qsfp28-Smf-1295.56~1309.14Nm-40Km-Commercial
Tx operating wavelength range [nm] 1294.53 nm - 1296.59 nm 1299.02 nm - 1301.09 nm 1303.54 nm - 1305.63 nm 1308.09 nm - 1310.19 nm Maximum Tx optical power (AVG) per lane: 2.9 dBm [dBm] Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 293: 100Gbps(4*25.7)-Qsfp28-Smf-1295.56~1309.14Nm-10Km-Commercial (02313Swa)
3.4.19.7 100Gbps(4*25.7)-QSFP28-SMF-1295.56~1309.14nm-10km- commercial (02313SWA) Table 3-215 100Gbps(4*25.7)-QSFP28-SMF-1295.56~1309.14nm-10km- commercial specifications Item Value Basic Information Module name 100Gbps(4*25.7)-QSFP28- SMF-1295.56~1309.14nm-10km- commercial Part Number 02313SWA Model OSN010N24 Form factor QSFP28 Application standard IEEE 802.3ba, 100GBASE-LR4 Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 294 Receiver Optical Characteristics Rx operating wavelength range [nm] 1294.53 nm - 1296.59 nm 1299.02 nm - 1301.09 nm 1303.54 nm - 1305.63 nm 1308.09 nm - 1310.19 nm Rx sensitivity (AVG) [dBm] Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 295: 100Gbps-Qsfp28-1310Nm-10Km-Commercial
1000 V Transmission rate [bit/s] 106.25 Gbit/s(PAM4) Target transmission distance [km] 10 km Transmitter Optical Characteristics Center wavelength [nm] 1310 nm Tx operating wavelength range [nm] 1304.5 nm - 1317.5 nm Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 296: 400Gbps Qsfp-Dd Optical Module
WDM device is longer than 50 ms. 3.4.20 400Gbps QSFP-DD Optical Module 3.4.20.1 400Gbps(8*56Gb/s PAM4)-QSFP-DD-SMF-1310nm-10km-commercial Table 3-217 400Gbps(8*56Gb/s PAM4)-QSFP-DD-SMF-1310nm-10km-commercial specifications Item Value Basic Information Module name 400Gbps(8*56Gb/s PAM4)-QSFP-DD- SMF-1310nm-10km-commercial Part Number 02312HCM Model OSK010N02 Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 297 1299.02 nm ~ 1301.09 nm 1303.54 nm ~ 1305.63 nm 1308.09 nm ~ 1310.19 nm Maximum Tx optical power (AVG) 5.3 dBm [dBm] Maximum Tx optical power (OMA) 5.7 dBm [dBm] Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 298: 400Gbps(8*56Gb/S Pam4)-Qsfp-Dd-Smf-1310Nm-40Km-Commercial
WDM client-side 1+1 protection is greater than 50 ms. 3.4.20.2 400Gbps(8*56Gb/s PAM4)-QSFP-DD-SMF-1310nm-40km-commercial Table 3-218 400Gbps(8*56Gb/s PAM4)-QSFP-DD-SMF-1310nm-40km-commercial specifications Item Value Basic Information Module name 400Gbps(8*56Gb/s PAM4)-QSFP-DD- SMF-1310nm-40km-commercial Part Number 02312YQG Model OSK040N02 Form factor QSFP-DD Application standard IEEE802.3 bs-2017 Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 299 1303.54 nm ~ 1305.63 nm 1308.09 nm ~ 1310.19 nm Maximum Tx optical power (AVG) 5.6 dBm [dBm] Maximum Tx optical power (OMA) 6.4 dBm [dBm] Minimum Tx optical power (AVG) -0.6 dBm [dBm] Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 300: 400Gbps-Qsfp-Dd-Smf-1528.773~1567.133Nm-Commercial
Overload power (OMA) [dBm] NOTE When the board is used for 40 km transmission, it must be interconnected with a Huawei optical module of the same model. When this type of optical module is used to interconnect with WDM equipment, the protection switching time of WDM client-side 1+1 protection is greater than 50 ms.
Page 301 Minimum Tx optical power (AVG) -10 dBm [dBm] Minimum Tx optical power (OMA) [dBm] Minimum extinction ratio [dB] Modulation mode 400G DP-16QAM Number of tunable channels 48/64 Channel spacing [GHz] 75GHz/100GHz Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 302: 400Gbps(4*100Gb/S Pam4)-Qsfp-Dd-Smf-1310Nm-2Km-Commercial
1+1 protection switching time is greater than 50 ms. 3.4.20.4 400Gbps(4*100Gb/s PAM4)-QSFP-DD-SMF-1310nm-2km-commercial Table 3-220 400Gbps(4*100Gb/s PAM4)-QSFP-DD-SMF-1310nm-2km-commercial specifications Item Value Basic Information Module name 400Gbps(4*100Gb/s PAM4)-QSFP-DD- SMF-1310nm-2km-commercial Part Number 02313KLT Model OSK002N01 Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 303 3.7 dBm [dBm] Minimum Tx optical power (AVG) per lane: -3.3 dBm [dBm] Minimum Tx optical power (OMA) per lane: -0.3 dBm [dBm] Minimum extinction ratio [dB] 3.5 dB Receiver Optical Characteristics Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 304: 400Gbps(8*50Gb/S Pam4)-Qsfp-Dd-Mmf-850Nm-0.1Km-Commercial
WDM client-side 1+1 protection is greater than 50 ms. 3.4.20.5 400Gbps(8*50Gb/s PAM4)-QSFP-DD-MMF-850nm-0.1km-commercial Table 3-221 400Gbps(8*50Gb/s PAM4)-QSFP-DD-MMF-850nm-0.1km-commercial specifications Item Value Basic Information Module name 400Gbps(8*50Gb/s PAM4)-QSFP-DD- MMF-850nm-0.1km-commercial Part Number 02313KST Model QSFP-DD-400G-850-0.1km Form factor QSFP-DD Application standard IEEE802.3 bs-2017 Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 305 840 nm~ 860 nm Minimum Rx optical power (AVG) per lane: -8.4 dBm [dBm] Maximum Rx optical power (AVG) per lane: 4 dBm [dBm] Maximum Rx optical power (OMA) per lane: 3 dBm [dBm] Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 306: 400Gbps-Qsfp-Dd-Smf-1547Nm-80Km-Commercial
FCC Class B, IEC 60825-1 Class 1 ESD(HBM1) [V] 1000 V Transmission rate [bit/s] 478.75 Gbit/s Target transmission distance [km] 80 km Transmitter Optical Characteristics Center wavelength [nm] 1547.715 nm Tx operating wavelength range [nm] 1547.715 nm Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 307 -20 dBm ~ 0 dBm: OSNR>=34dB Minimum OSNR (back-to-back&EOL) 26 dB [dB] PMD tolerance [ps] 10 ps@0.5 dB OSNR penalty PDL tolerance [dB] 2.5 with ≤ 0.8 dB OSNR penalty SOP tolerance [krad/s] 50 krad/s@0.3dB penalty Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 308: 400Gbps(4*100Gb/S Pam4)-Qsfp-Dd-Smf-1310Nm-6Km-Commercial
Optical fiber type Bit error ratio (BER) 1E-6(Pre-FEC) Working case temperature [°C(°F)] 0°C to 70°C(32°F to 158°F) DDM options QSFP-DD MSA Environment standard RoHS Security standard FCC Class B, IEC 60825-1 Class 1 Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 309 Maximum Rx optical power (AVG) 5.1 dBm [dBm] Maximum Rx optical power (OMA) 4.4 dBm [dBm] Rx sensitivity (AVG) [dBm] -9.8 dBm Rx sensitivity (OMA) [dBm] -6.8 dBm Overload power (AVG) [dBm] 5.1 dBm Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 310: Optical Amplifier Module
Optical fiber type Working case temperature [°C(°F)] –5°C to +75°C (23°F to 167°F) Environment standard RoHS Security standard EN/IEC60825-1:2014;EN/ IEC62368-1:2014;UL 62368-1 Ed.2 ESD(HBM1) [V] 2000 V Transmitter Optical Characteristics Center wavelength [nm] 1547.715nm Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 311: Cables
3.5.1 NetEngine 8000 F1A-8H20Q Power Cable This section describes the structure and technical specifications of the power cable. 3.5.1.1 DC Power Cable This section describes the structure and technical specifications of the DC-input power cable. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 312 Cable colors below are for reference only. The actual cable colors depend on the requirements of the target country or customer. Appearance Figure 3-50 DC power cable Figure 3-51 DC power connector Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 313 Description Conn Fire ector nect Rating 2503 Electronic|Electric rter 0701 Cable,450V/ 60332-1, 750V,H07Z-K VM-1, Dca- UL3386,4mm^2,Blue, s2a2d2 45A,LSZH Cable,VDE,UL 2503 Electronic|Electric 0700 Cable,450V/ 60332-1, 750V,H07Z-K VM-1, Dca- UL3386,4mm^2,Black, s2a2d2 45A,LSZH Cable,VDE,UL Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 314 Cable,1100V,Y(FR- 60332-1,IE LSH),4mm^2,Black, 45A,For India,BIS 60332-3-2 2503 Electronic|Electric 0697 Cable,450V/ 60332-1, 750V,H07Z-K VM-1, Dca- UL3386,6mm^2,Blue, s2a2d2 58A,LSZH Cable,VDE,UL 2503 Electronic|Electric 0703 Cable,450V/ 60332-1, 750V,H07Z-K VM-1, Dca- rter UL3386,6mm^2,Black, s2a2d2 58A,LSZH Cable,VDE,UL Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 315 60332-3-2 2503 Electronic|Electric 2788 Cable,1100V,Y(FR- 60332-1,IE LSH),6mm^2,Black, 58A,For India,BIS 60332-3-2 Table 3-226 Technical specifications of DC power connector Part Description Terminal Type Numb 14191 Power Connector,2Pin,48V,40A,Straight female,1.5mm^2~10mm^2,Small-sized Easy Power,with pull ring Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 316: Ac Power Cable
Naked Crimping Terminal,OT, 6mm^2,M8,Tin Plating,Insulated Ring Terminal,12~10AWG,yellow Naked Crimping Terminal,OT, 6mm^2,M6,Tin Plating,Insulated Ring Terminal,12~10AWG,yellow 3.5.1.2 AC Power Cable This section describes the structure and technical specifications of the AC-input power cable. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 317 Cables must be in compliance with standards of the destination country or region. The actual cable type depends on the requirements of the target country or customer. Appearance Figure 3-54 Connector C13 (PDU) Figure 3-55 Connector C13 (wall-mounted) Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 318 250V10A, cores 3.0m,C14SM,H05VV-F- 3*1.00^2,C13SF,250V, 10A,PDU Cable Power Cords Cable,North C14SM C13S America AC Power cores 250V10A,1.8m,C14SM,SJT 18AWG(3C),C13SF,PDU Cable Power Cords Cable,Japan C14SM C13S AC Power 250V12A, cores 1.8m,C14SM,HVCTF 1.25mm (3C),C13SF,PDU Cable Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 319 C13S Power Cable,125V10A, cores 3.0m,PBSM, 18SJT(3C),C13SF,Black Power cord,Europe AC PFSM C13S Power Cable,250V10A, cores 3.0m,PFSM,(H05VVF 1.0mm (3C)),C13SF,250V, 10A,BLack Power Cable,Britain AC PGAM C13S Power Cable 250V10A, cores 3.0m,PGAM ,H05VV- F-1.0mm (3C),C13SF,Black Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 320 Cable,Argentina AC Power cores 250V10A, 3.0m,PISM,H05VV- F-1.0mm (3C),C13SF,Black Power Cable,Brazil AC PNSM C13S Power Cable 250V10A, cores 3.0m,PNSM ,H05VV- F-1.0mm (3C),C13SF,Black Power Cords Cable,Korea PFSM C13S AC Power 250V10A, cores 3m,PFSM,H05VV-F 3*1.0mm (3C),C13SF,Black Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 321: Netengine 8000 F2A-8K36H Power Cable
Power cables are delivered according to default specifications. Power cables of other specifications need to be purchased separately. If the power cable length is more than 35 m (114.83 ft.), install a Power Distribution Frame (PDF) close to the device. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 322 Cable colors shown below are for reference only. The actual cable colors may vary according to the requirements of the target country or customer. Appearance Figure 3-57 DC power cable Figure 3-58 DC power connector Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 323 Figure 3-60 Heat-shrink tubing Technical Specifications Table 3-231 Technical specifications of DC power cables Description Fire Rating Electronic|Electric IEC 60332-1,VW-1 rter Cable,450V/ 750V,H07Z-K UL3386,16mm^2,Bl ue,107A,LSZH Cable,VDE,UL Electronic|Electric IEC 60332-1,VW-1 Cable,450V/ 750V,H07Z-K UL3386,16mm^2,Bl ack,107A,LSZH Cable,VDE,UL Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 324 IEC60332-1,IEC603 Cable,1100V,Y(FR- 32-3-22 LSH),16mm^2,Blue, 107A,For India,BIS Electronic|Electric IEC60332-1,IEC603 Cable,1100V,Y(FR- 32-3-22 LSH), 16mm^2,Black, 107A,For India,BIS Electronic|Electric IEC 60332-1,VW-1 Cable,450V/ 750V,H07Z-K UL3386,25mm^2,Bl ue,138A,LSZH Cable,VDE,UL Electronic|Electric IEC 60332-1,VW-1 Cable,450V/ rter 750V,H07Z-K UL3386,25mm^2,Bl ack,138A,LSZH Cable,VDE,UL Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 325 Electronic|Electric IEC 60332-1,VW-1 Cable,450V/ 750V,H07Z-K UL3386,25mm^2,Re d,138A,LSZH Cable,VDE,UL Electronic|Electric IEC 60332-1,VW-1 Cable,450V/ 750V,H07Z-K UL3386,6mm^2,Gra y,58A,LSZH Cable,VDE,UL Electronic|Electric IEC60332-1,IEC603 Cable,1100V,Y(FR- 32-3-22 LSH), 35mm^2,Black, 171A,For India,BIS Electronic|Electric IEC60332-1,IEC603 Cable,1100V,Y(FR- 32-3-22 LSH),35mm^2,Blue, 171A,For India,BIS Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 326: Ac Power Cable
This section describes the structure and technical specifications of the AC power cable. NO TICE Power cables are delivered according to default specifications. Power cables of other specifications need to be purchased separately. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 327 Cables must be in compliance with the standards of the destination country or region. The actual cable type may vary according to the requirements of the target country or customer. Appearance Figure 3-61 Connector C19 (PDU) Figure 3-62 Connector C19 (wall-mounted) Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 328 Power 250V16A, 3.0m,C20SM,H05VV- F-1.5mm^2(3C) +14SJT3(3C),C19SF,PDU Cable Power Cords C20SM C19S Cable,Australia AC Power cores 250V16A, 3.0m,C20SM,H05VV- F-1.5^2(3C),C19SF,PDU Power Cord Power Cords Cable,Japan C20SM C19S AC Power 250V15A, cores 3.0m,C20SM,VCTF-2.0^2(3 C),C19SF,PDU Power Cord Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 329 250V16A, 3.0m,PISM,H05VVF-2.5^2( 3C),C19SF,Black Power Cords Cable,Brazil PN-ISM C19S AC Power 250V16A, cores 3.0m,PN- ISM ,H05VVF-1.5^2(3C),C1 9SF,Black Power Cords Cable,Britain PG AM C19S AC Power Cable,250V13A, cores 3.0m,PG AM,H05VV- F-1.5mm^2(3C),C19 SF,Black Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 330: Chassis Ground Cable
Appearance Figure1 shows the appearance of chassis ground cable. Figure 3-64 Appearance of chassis ground cable. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 331: Standard Serial Cable
One end of the standard serial cable is a DB9 connector that is connected to the serial port of a computer, and the other end is an RJ45 connector that is connected to the standard console port of a router. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 332 1 DB9 female 2 Network interface RJ45 W communication cable Table 3-236 Connections of the standard serial cable Start point End point Color X1.2 X2.3 Black X1.3 X2.6 Brown X1.5 X2.5 Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 333: Usb-To-Ethernet Serial Cable
The two RJ45 connectors include one standard console port and one non- standard console port. Pin assignment for the two ports is different. For details, Table Appearance Figure 3-66 Structure of the USB-to-Ethernet serial cable Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 334 Ethernet serial cable, A(Ma 1.5m,USB- A(Male),CC2P0.48B(S), 2*MP8-II NO TICE To use the USB-to-Ethernet serial cable, download the driver from the website and configure the driver as required. Download the driver from http://www.wch- ic.com/search?q=CH340&t=downloads. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 335: Clock Cable (External Clock Mode, Delivery-Ready)
120-ohm trunk cable. Figure 3-67 120-ohm trunk cable Pin Assignment Table 3-240 Pin assignments of the 120-ohm trunk cable Start Point End Point Color Relation White Pair Blue Orange White Pair Green Brown Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 336: Clock Cable (External Clock/External Time Mode, Prepared Onsite)
One end of the clock cable is an RJ45 connector connected to the clock interface on the and the other end is connected to the clock interface on an external device. An RJ45 connector is used together with the 120-ohm trunk cable. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 337 X1.4 Twis Negative Grounding end Grounding end transmit end of pair X1.5 Positive Grounding end Grounding end transmit end of X1.7 Twis Unspecified Negative of time Unspecified information pair Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 338: Clock Transfer Cable
Plug:14080097 3.5.8 Clock Transfer Cable Overview Useing the clock transfer cable (120 ohms to 75 ohms). Appearance Figure1 shows the appearance of the clock transfer cable (120 ohms to 75 ohms). Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 339 120-ohm external clock X1.5 White Positive transmit end of the 120-ohm external clock X1.3 Green Unspecified Twisted pair X1.6 White Unspecified X1.7 White Unspecified Twisted pair X1.8 Brown Unspecified Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 340: Ethernet Cable
Hence, you can connect either type of the network cables to the Ethernet service interfaces as required. NO TE Ethernet cables need to be made on site. Appearance Figure 3-70 Appearance of the network cable Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 341 Table 3-248 Technical specifications of the straight-through cable Descr Twisted-Pair Cable, 100ohm, Category 5e, STP, 0.52mm, 24AWG, 8Cores, iptio 4Pairs, PANTONE 430U Conn Network Interface Connector, 8-Bit 8PIN, Shielded, Crystal Model ector Connector, 24-26AWG, Leads Single Solide Cable Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 342: Fiber Jumper
A fiber jumper consists of one or more optical fibers of a certain length and the optical connectors at both ends. A fiber jumper connects an optical module to a fiber terminal box. Comply with the following rules when selecting fiber jumpers: Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 343 2000 MHz*km of modal bandwidth. Generally, OM3 and OM4 fibers are light green, as shown in Figure 3-74. You can identify OM3 and OM4 fibers by their labels or printed marks. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 344 Connector Optical Connector Type Square SC/PC LC/PC MTRJ/PC connector connector connector connector connector Round FC/PC ST/PC connector connector connector Figure 3-71 shows an LC/PC optical connector. Figure 3-71 LC/PC optical connector Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 345 Appearance Figure 3-72 shows the appearance of an LC single-mode fiber. Figure 3-72 Appearance of an LC single-mode fiber Figure 3-73 shows the appearance of an LC multimode fiber. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 346 Figure 3-73 Appearance of an LC multimode fiber Figure 3-74 shows the appearance of an MPO-MPO fiber. Figure 3-74 Appearance of an MPO-MPO fiber Figure 3-75 shows the appearance of an MPO-4*DLC fiber. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 347 Figure 3-75 Appearance of an MPO-4*DLC fiber Pin Assignments of an MPO-4*DLC fiber Figure 3-76 Structure of an MPO-4*DLC fiber Table 3-251 Pin assignments of an MPO-4*DLC fiber X1 Pin X2 Pin Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 348 141325 SS-OP- Optical Cable Parts,MPO/PC, Multimode 37-006 MPO12-4*DLC- 4DLC/PC,MULTI-MODE,30m,8 M-30 CORES,0/1m,GJFH-8A1A. 2(OM3),3.5MM,2mm,LSZH, 43MM SHORT MPO,BENDING INSENSITIVE 141325 MPO12-4DLC- Optical Cable Parts,MPO/APC, Single-mode SM-15 4DLC/PC,Single mode,15m,8 cores,0m/1m,GYFH-8G. 657A2,3.5mm,2mm,LSZH, 43mm short MPO,Bending insensitive Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 349: Fiber Breakout
Fiber Structure To insert a breakout optical module (multimode and short transmission distance) into a port, use an MPO-LC fiber to directly connect the optical module. Figure 3-77 MPO-LC fiber structure Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 350 8 cores,GJFH-8G. 657A2,3.5mm,LSZH, 43mm Short MPO,Bending insensitive Optical Cable 14132538 Single mode Assembly,MPO/APC, 4*DLC/ PC,Singlemode,GJFH 8G.657A2(LSZH),15m, 3.5mm,8 Cores,0m/1m, Optical Cable 14132537 Multimode Parts,MPO/PC,4DLC/ PC,Multi-mode,5m,8 cores,0/1m,GJFH-8A1a. 2(OM3),3.5mm, 2-4* 2mm,LSZH,43mm Short MPO,Bending insensitive Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 351 QSFP28 or mode,10m,8 0.5dBm,-12.6dBm,MPO,S QSFP+ and supports the cores,GJFH-8G. M,10km breakout function, the 657A2,3.5mm,LSZH, optical module and 43mm Short breakout fiber can be MPO,Bending insensitive used together with the port. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 352 PC,Multi-mode,15m,8 cores,0/1m,GJFH-8A1a. 2(OM3),3.5mm, 2mm,LSZH,43mm Short MPO,Bending insensitive [14132537-006/SS-OP- MPO12-4*DLC-M-30] Optical Cable Parts,MPO/PC,4DLC/ PC,MULTI-MODE,30m,8 CORES,0/1m,GJFH-8A1A. 2(OM3),3.5MM, 2mm,LSZH,43MM SHORT MPO,BENDING INSENSITIVE [14132537-001/SS-OP- MPO12-4*DLC-M-100] Optical Cable Parts,MPO/PC,4DLC/ PC,Multi-mode,100m,8 cores,0/1m,GJFH-8A1a. 2(OM3),3.5mm, 2mm,LSZH,43mm Short MPO,Bending insensitive Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 353: Breakout Boxes
● Increase the density of fiber layout. ● Shorten the cabling distance. Figure 3-78 Breakout box cabling 3.6.2.2 10-Port-MPO-12-40-Port-LC-Breakout Box(single-mode) Appearance Figure 3-79 10-Port-MPO-12-40-Port-LC-Breakout Box(single-mode) Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 354 Figure 3-81 Mapping between MPO and LC adapters MPO-12 Jumper The TYPE-B MPO jumper is used. The following figure shows the MPO-12 jumper structure and line orders of X1 and X2 ports. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 355 Table 3-256 Technical specifications of the 10-Port-MPO-12-40-Port-LC-Breakout Box (single-mode) Item Description BOM Number 02082890 Official Name ODBS10040 Dimensions (H x W x D) 43.6 mm x 442 mm x 164 mm Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 356 QSFP28 or QSFP 1310,41.25Gbps,-8.2dBm, cores,GJFH-8G. + and and supports the 0.5dBm,-12.6dBm,MPO,S 657A2,3.5mm,LSZH, breakout function, the M,10km 43mm Short optical module and MPO,Bending insensitive breakout fiber can be used together with the port. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 357: Hardware Installation And Parts Replacement
Huawei. The safety precautions in this document are only some that Huawei can predict. Huawei is not liable for any consequence that results from violation of universal regulations for safety operations and safety codes on design, production, and equipment use.
Page 358 Before connecting signal cables, take ESD protection measures, for example, wear ESD gloves or an ESD wrist strap. ● Before connecting Ethernet cables, use an Ethernet cable tester to test cable connectivity. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 359: A66E Cabinet Installation Guide
Optical Module ● Devices must use optical modules that are certified for Huawei devices. Optical modules that are not certified for Huawei devices cannot ensure transmission reliability and may affect service stability. Huawei is not liable for any problems caused by the use of optical modules that are not certified for Huawei devices.
Page 360 Cabinet width: 600 mm Cabinet depth: 650 mm (including the convex door) Enforce, indicating an enhanced performance model (Base, indicating a basic performance model) Appearance Figure 4-2 shows the A66E cabinet appearance. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 361 HUAWEI NetEngine 8000 F Hardware Guide 4 Hardware Installation and Parts Replacement Figure 4-2 Cabinet appearance Physical Structure Figure 4-3 shows components of the A66E cabinet. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 362 HUAWEI NetEngine 8000 F Hardware Guide 4 Hardware Installation and Parts Replacement Figure 4-3 Cabinet components 1. Front door 2. Top cover 3. Rear door 4. Side panel 5. Mounting rail 6. Rack Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 363 The front and rear doors of the cabinet are of mesh construction. Air enters the chassis from the front door and base and is exhausted through the rear door. Figure4 shows the airflow. Figure 4-4 Airflow in the cabinet Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 364: Cabinet Accessories
Installation mode Installation on a concrete floor or ESD floor Static load bearing 200 kg capacity 4.1.2.2 Cabinet Accessories 4.1.2.2.1 (Optional) Cabinet Stand Appearance The cabinet stand is pictured in Figure 4-5. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 365: A66E Cabinet Installation
The ESD floor height is the distance between the upper surface of the ESD floor and the surface of the concrete floor. 4.1.2.3 A66E Cabinet Installation 4.1.2.3.1 Installing the Cabinet on the Concrete Floor Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 366 Use the marker to mark the point of the plumb on the ground. Follow the same procedure to mark the second point, and draw the baseline by using the powder marker. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 367 Lay out the templates side by side and ensure that there is 600 mm between the center lines of two adjacent templates. Use a marker to mark installation holes on the concrete floor. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 368 Fasten the expansion bolt clockwise until the nut is firmly inserted into the expansion tube. Turn the expansion bolt counterclock-wise and remove the expansion bolt, spring washer, and flat washer in turn. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 369 Lift one side of the cabinet and insert the insulation plate under the cabinet. Insert another insulation plate under the other side of the cabinet. Ensure that the gaps properly lock the expansion bolts. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 370 If the cabinet is not horizontal, adjust the adjusting bolts by using a socket wrench. When the cabinet is horizontal, fasten the four expansion bolts to 45 N·m. Figure 4-12 Leveling and fixing the cabinet Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 371 Otherwise, remove all components, install and fasten the cabinet again. Attaching the cabinets Remove the connection plates on the lintels of the front and rear doors and install them again as shown in the figure. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 372 Both the gap between cabinets and the vertical deviation should be less than 3 mm. Installing cabinet doors NO TE Install the cabinet door after the inside components and cables. To install the components inside the cabinets and cables, see the Installaiton Guide. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 373: Installing The Cabinet On The Esd Floor
Install the ground cables at the front doors and rear doors as shown in the figure. Figure 4-17 Installing the ground cables 4.1.2.3.2 Installing the Cabinet on the ESD Floor Removing the Ground Cables and Cabinet Doors Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 374 100 mm. Determining installation holes for the cabinet. Lay out the templates side by side and ensure that there is 600 mm between the center lines of two adjacent templates. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 375 Fasten the expansion bolt clockwise until the nut is firmly inserted into the expansion tube. Turn the expansion bolt counterclockwise and remove the expansion bolt, spring washer, and flat washer in tum. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 376 Adjust the support location and ensure that the diagonal lines of the two guide rails are equal in length. The deviation should be less than 2 mm. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 377 Check the level of the support by using a spirit level. Ensure that the front sides of all supports are in a line and that the spacing between adjacent supports is 120 mm. Check if the support is horizontal by using the spirit level. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 378 Lift one side of the cabinet and insert the insulation plate under the cabinet. Insert another insulation plate under the other side of the cabinet. Ensure that the gaps properly lock the expansion bolts. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 379 If the cabinet is not horizontal,use a socket wrench to screw the adjusting bolts at the bottom. Lift one side of the cabinet and insert when the cabinet is horizontal, screw the four M12x35 bolts to 45 N·m with a torque wrench. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 380 Testing the insulation of the cabinet. Set the multimeter to read mega ohms. Measure the resistance between the M12x35 bolt and the ground bolt of the rack, the measured resistance is more than five mega ohms. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 381 4 Hardware Installation and Parts Replacement Figure 4-28 Testing the insulation of the cabinet Installing the floor support bracket. Fix the floor support bracket on the support by using the M12x30 assembly bolts. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 382 Figure 4-30 Installing the connection plates Use the spirit level and the plumb line to verify that the bottom line of the cabinet is horizontal and the front line of the column is vertical. If the Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 383 Align the door with the front face of the column. Place the door on the lower lintel and close the door till the lower pin automatically inserts into the hole in the lower lintel. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 384: Device Installation Process
After determining that the installation is correct, you can power on the device and then check fiber connections. Table 4-4 lists the general installation process. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 385 For details, see section "Hardware Installation and Maintenance - Power-on Check." Maintaining a device Faulty fuses and other electronic components can only be replaced by professionals authorized by Huawei. For details, see section "Hardware Installation and Maintenance - Maintenance of the device." Issue 05 (2023-03-31)
Page 386: Preparation Before Installation
Safety precautions provided in this document may not cover every eventuality, so remain mindful of safety at all times. Huawei is not liable for any consequence that results from violation of regulations pertaining to safe operations or safety codes pertaining to design, production, and equipment use.
Page 387 ● Laser beams will cause eye damage. Do not look into bores of optical modules or optical fibers without eye protection. ● Cover fiber connectors with dust caps when they are not connected. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 388: Checking The Installation Site
If the relative humidity exceeds 70%, using dehumidifiers or dehumidifying air conditioners is recommended. Corrosive gases The installation site must be free from acidic, alkaline, or avoidance corrosive gases. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 389: Checking The Cabinet
2U or more to prevent the return air from affecting heat dissipation. 4.1.4.3 Checking the Cabinet The device can only be installed in a standard 19-inch cabinet. Huawei A66E cabinet is recommended. If you purchase a cabinet by yourself, ensure that the cabinet meets the following requirements: 19-inch cabinet with a depth of greater than or equal to 600 mm.
Page 391: Preparing Installation Tools And Accessories
ESD jack on the cabinet. Utility knife Used to cut cartons or paper. Scissors Used to cut installation template or other materials. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 392 Phillips Used to turn screwdriver cross-head screws and bolts. Combinatio Used to clamp n pliers or bend metal sheets, cut metal wires, strip off coating of cables, and unplug nails. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 393 Used to crimp crimping Ethernet tool cables. COAX Used to crimp crimping the metal tool shield at the end of a coaxial cable. Ethernet Used to test cable tester Ethernet cable connectivity. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 394 Table 4-7 lists the installation accessories required for installing a device. Table 4-7 Installation accessories Tool Description Picture Insulation Used to tape insulate power wires or other conductors. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 395 21101258 binding tape Cable tie Used to bundle cables. 21100144 (300 x 3.6 Label Used to bundle cables and 21200708 cable tie attach the power cable label (29041061) to the cables. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 396: Inspecting And Cleaning Optical Fiber Connectors And Adapters
0.05 dB attenuation. A 9-micrometer dust particle that cannot be seen by human eyes can block an entire fiber core. Therefore, small dirt even that cannot be seen by human eyes should be removed. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 397: Protection Of Optical Fiber Connectors
The optical fiber connectors must be stored in proper packages to keep them clean. ● Figure 4-37 shows the recommended protective caps, whereas Figure 4-38 shows the protective caps not recommended. Figure 4-37 Protective caps recommended Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 398: Tools, Equipment, And Materials
Non-woven lens tissue, fiber cleaning tissue, and dustfree cloth (Non-woven lens tissue is recommended.) ● Special compressed air ● Special cleaning roll ● Dustfree absorbent swab (made of medical cotton or long fiber cotton) shown in Figure 4-40 Figure 4-41 Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 399: Inspecting Optical Fiber Connectors
This topic describes how to inspect the end face of optical fibers using a fiber microscope. Tools, Equipment, and Materials The following provides the required tools, equipment and materials for inspecting optical fiber connectors: Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 400 See the examples below. – Clean fiber and face Figure 4-42 shows an image of a clean fiber end face under the fiber microscope. Figure 4-42 Clean fiber and face Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 401 Figure 4-43 Damaged or defective fiber end face NO TE Figure 4-43 shows only the 800-micrometer fiber cores. For details on acceptable and unacceptable fibers, see Figure 4-44, Figure 4-45 Figure 4-46. Figure 4-44 Clean fiber end face Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 402: Inspecting The Optical Fiber Link
50G optical modules with the PAM4 coding technology. Tools, Equipment, and Materials Tools and instruments for checking optical fiber links are as follows: ● OTDR meter ● Fiber microscope Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 403 Ethernet ports (such as 50G) use PAM4 encoding to double the rate. More connectors bring lower requirements for the reflection. Table 4-11 Maximum reflection of connectors Number of Maximum Reflection of Each Connector (dB) Optical Fiber 50GBASE-FR 50GBASE-LR 50GBASE-ER Connectors Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 404: Cleaning Optical Fiber Connectors Using The Cassette Cleaner
This is because the cleaning operation itself may introduce dust, dirt, or cause damage to the fiber. The following procedure provides the steps to clean the fiber connectors using cartridge type cleaners. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 405 Test the optical power using a power meter to ensure that the laser is shut down. Press down and hold the lever of the cassette cleaner. The shutter slides back and exposes a new cleaning area. See Figure 4-47. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 406 Do not drag the fiber end face on the same cleaning area more than once. Otherwise, the connector can be contaminated or damaged. Figure 4-48 Dragging the fiber end face gently on one cleaning area Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 407: Cleaning Optical Fiber Connectors Using Lens Tissue
Cleaning solvent (Isoamylol is preferred, propyl alcohol is the next, and alcohol or formalin is forbidden.) ● Non-woven lens tissue, fiber cleaning tissue, and dustfree cloth (Non-woven lens tissue is recommended.) ● Special compressed air or cleaning roll Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 408 Drag the fiber end face on the same area in the lens tissue only once. Otherwise, the connector can be contaminated or damaged. Figure 4-50 Cleaning the fiber end face using the lens tissue on the desk Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 409: Cleaning Optical Fiber Adapters Using Dustfree Absorbent Swabs
There are several types of dustfree absorbent swabs available. Select appropriate dustfree absorbent swabs based on site conditions. You can obtain the following tools and materials from a fiber cable and connector manufacturer. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 410 (0.1 in.); for the LC fiber adapter, use the dustfree absorbent swab with a diameter of 1.25 mm (0.05 in.). See Figure 4-52 Figure 4-53. Figure 4-52 Dustfree absorbent swabs for cleaning the SC and FC connectors Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 411: Inspection Of Power Distribution Environment
380 V AC power to an AC power distribution frame. A chassis receives power from the AC power distribution frame through the power distribution unit (PDU) installed in the cabinet. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 412: Dc Power Distribution Guide
-48 V DC power to a DC power distribution frame. The device obtains power from the DC power distribution frame. Figure 4-56 DC power supply mode 4.1.4.6.2 DC Power Distribution Guide Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 413 Route power cables along the cable ladder and lay them on the chassis. Take off the plastic cover from each power module, connect one end of each power cable to the corresponding terminal and the other end to the PDF. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 414: Ac Power Distribution Guide
Install a terminal on the other end of the power cable and connect the terminal to the PDF. 4.1.4.6.3 AC Power Distribution Guide D ANGER Do not install power cables when the power is on. This is to avoid injuries. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 415 Insert the AC power cable to the AC input port and secure it using the loose- proof pinch as shown in Figure 4-60. Connect the other end of the AC power cable to the PDF of the equipment room. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 416 N wire (blue wire) and crimp the OT terminal Or cold-pressed terminal (terminal type is selected according to actual conditions). Connect the L and N wires to the corresponding L and N input terminals of the power distribution box. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 417: Unpacking A Device
Cut the strap with the diagonal plier and then split the adhesive tape properly along the seam between the cover and the body of the box with the paper knife. Do not scratch the articles inside the box. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 418: Installing A Chassis In Cabinet
4.1.5 Installing a Chassis in Cabinet Precautions Ensure that the cabinet has been properly installed before installing devices in the cabinet. The cabinet can be installed on an ESD floor or concrete floor. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 419 Use a measuring tape to measure the distance between the front and rear mounting rails in the cabinet. Select front mounting brackets, rear mounting brackets, and rear mounting bracket guide rails according to the distance between the front and rear Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 420 479 mm 497 mm to 538 mm 539 mm to 637 mm 638 mm to 696 mm 697 mm to 835 mm Fix floating nuts and M6 screws in the correct holes. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 421 Use a torque screwdriver to install the extension rails of the expandable mounting brackets on the rear of the chassis using four M4 screws with a torque of 1.2 N m. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 422 Distance Installation of Front Mounting Brackets, Rear Mounting Between Brackets, and Rear Mounting Bracket Guide Rails Front and Rear Mounting Rails 310 mm to 351 mm Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 423 Brackets, and Rear Mounting Bracket Guide Rails Front and Rear Mounting Rails 369 mm to 410 mm 438 mm to 479 mm 497 mm to 538 mm 539 mm to 637 mm Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 424 3 N m. Horizontally insert the chassis into the cabinet from the front of the cabinet until the extension rails are fully inserted into the extension runners. Then, use screws to fix the front mounting brackets to the cabinet. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 425: Cable Routing Planning
4 Hardware Installation and Parts Replacement Use a torque screwdriver to install the ground cable using an M4 screw with a torque of 1.2 N m. 4.1.6 Cable Routing Planning 4.1.6.1 DC Power Cable Routing Planning Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 426: Ac Power Cable Routing Planning
Figure 4-62 shows the cable layout of a DC device. Figure 4-62 Cable layout 4.1.6.2 AC Power Cable Routing Planning Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 427: Installation Of Cables
Figure 4-63 shows the cable layout of an AC device. Figure 4-63 Cable layout 4.1.7 Installation of cables Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 428: Installing Optical Fibers
Route the corrugated pipe along the cable ladder. Insert the corrugated pipe through the dedicated cable hole on the cabinet top to the cabinet about 100 mm and tie the pipe to the cabinet. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 429 Route optical fibers along the cable tray, remove the dust caps from the optical modules and optical fiber interfaces. Then connect the end of each optical fiber to the corresponding optical interface, as shown in step 2 in Figure 4-65. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 430: Installing Network Cables
Attach temporary labels to both ends of each network cable. Route network cables along the cable tray and plug them into corresponding interfaces. Use a network cable tester to test the connectivity of network cables. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 431: Installing A Cabinet Ground Cable
Attach permanent labels 20 mm from both ends of each network cable. Figure 4-66 Installing network cables 4.1.7.3 Installing a Cabinet Ground Cable Install a cabinet ground cable. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 432 HUAWEI NetEngine 8000 F Hardware Guide 4 Hardware Installation and Parts Replacement Figure 4-67 Installing a cabinet ground cable Install the ground cable between the device and cabinet. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 433: Post-Installation Check
If any item fails the check, check for the reason, reinstall the related component, and check again. Ensure that all the items pass the check. Check cabinets according to Table 4-16. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 434 Table 4-17. Table 4-17 Cable checklist Item Method Routes of signal cables comply with the Observe engineering design document. Signal cables are not damaged or broken Observe and have no splices. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 435 Power cables and ground cables are routed Observe in compliance with the engineering design document, meeting power distribution requirements. Power cables and ground cables are Observe separated from signal cables. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 436: Power-On Check
No tapes, cable ties, wastepaper, or packing Observe bags are left around the equipment. All the items around the equipment are neat, Observe clean, and intact. 4.1.9 Power-on Check Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 437 Fan module Green The fan module works normally. The fan module fails. If this indicator is steady off, the fan module is not powered on or the fan hardware is faulty. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 438: Optional) Checking Optical Power
Power Optical Optical Threshold at Power Power the Receive 50GBASE-FR -4.1 The damaged optical power 50GBASE-LR -4.5 threshold is greater than the maximum average transmit optical power, posting low self-loop risks. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 439 If a loopback occurs on the pigtail of the optical module or the optical module is connected for a short distance, an optical attenuator must be added. It is recommended that the optical attenuator be no less than 10 dB. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 440: Maintenance Of The Device
Figure 4-70 Basic operation process of replacing parts Procedure Assess the feasibility of the operation. During the process of troubleshooting or repairing a device, maintenance personnel must assess whether the operation is feasible before replacing a certain part. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 441 Maintenance personnel can replace the parts only when the risks can be controlled. Otherwise, contact a Huawei local office for timely technical support. Prepare tools and spare parts.
Page 442: Replacing A Power Module
If a part that is replaced is confirmed to be faulty, maintenance personnel should fill in the Offsite Repair Card for Faulty Materials, and send the card and the faulty part to a Huawei local office for timely maintenance. NO TICE Carefully maintain the damaged control board that store data to prevent information leak.
Page 443 Hold both sides of the power module and insert the module into the guide rail of the slot. Ensure that the power module is in good contact with the backplane of the chassis, as shown in Figure 4-72. Figure 4-72 Insert the power module Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 444: Replacing The Ac Power Module
After replacing the power module, collect the tools. If a power module that is replaced is confirmed to be faulty, you should fill in the Offsite Repair Card for Faulty Materials, and send the card and the faulty power module to a Huawei local office for timely maintenance.
Page 445: Replacing The Fan Module
After replacing the power module, collect the tools. If a power module that is replaced is confirmed to be faulty, you should fill in the Offsite Repair Card for Faulty Materials, and send the card and the faulty power module to a Huawei local office for timely maintenance.
Page 446 Hold the handle on the new fan module with one hand and support the bottom of the fan module with the other hand. Then, insert the fan module into the chassis, as shown in Figure 4-76. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 447: Replacing An Optical Module
If the indicator is red, it indicates that the fan module fails to run normally. If the new fan module fails to return to the normal state, contact Huawei technical personnel. Follow-up Procedure After replacing a part, collect the tools.
Page 448 <HUAWEI> display interface Gigabitethernet0/1/0 GigabitEthernet0/1/0 current state : DOWN Line protocol current state : DOWN Description: HUAWEI, GigabitEthernet0/1/0 Interface (ifindex: 7) Route Port,The Maximum Transmit Unit is 1500 IP Sending Frames' Format is PKTFMT_ETHNT_2, Hardware address is 001a-2b11-4d51 The Vendor PN is RTXM191-400...
Page 449 Hold the handle to pull out the Optical Module carefully from the optical interface, as (2) shown in Figure2. When installing a CFP Optical Module, hold the screw rods with both hands, and slightly pull out the Optical Module from the optical port. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 450 After that, tighten the first screw rod. To prevent the Optical Module from getting loosened due to vibration or collision, you are advised to use a screwdriver to tighten the screw rods. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 451 <HUAWEI> display interface Gigabitethernet0/1/0 GigabitEthernet0/1/0 current state : DOWN Line protocol current state : DOWN Description: HUAWEI, GigabitEthernet0/1/0 Interface (ifindex: 7) Route Port,The Maximum Transmit Unit is 1500 IP Sending Frames' Format is PKTFMT_ETHNT_2, Hardware address is 001a-2b11-4d51 The Vendor PN is RTXM191-400...
Page 452: Replacing An Optical Cable
After replacing an Optical Module, collect the tools. If an Optical Module that is replaced and is confirmed to be faulty, you should fill in the Offsite Repair Card for Faulty Materials, and send the card and the faulty Optical Module to a Huawei local office for timely maintenance.
Page 454: Replacing A Network Cable
Lay out the new network cable according to the original cabling mode. If you need to replace more than one network cable at a time, you should attach temporary labels to the new network cables to identify the cables. The Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 455: Appendix
After replacing a network cable, collect the tools and the replaced cable. Do not place the old and the new cables together to avoid confusions. 4.1.12 Appendix 4.1.12.1 On-site Cable Assembly and Installation 4.1.12.1.1 Cable Assembly Precautions Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 456 Precautions for Assembly ● Use dedicated tools or tools delivered by Huawei and follow the methods given here during assembly. ● Hold terminals of cables instead of pulling the cables themselves when installing or removing cable components.
Page 457: Assembling Power Cables
C to expose the conductor D of length L1, as shown in Figure 4-84. The recommended values of L1 are listed in Table 4-19. Figure 4-84 Stripping a power cable (OT terminal) Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 458 ● When you strip a power cable, do not damage the conductor of the cable. ● If the bare crimping terminal is not provided by Huawei, the value of L1 is 1 mm (0.04 in.) to 2 mm (0.08 in.) greater than the value of L.
Page 459 NO TICE Stop heating the shrink tubing when the connector is securely locked in the shrink tubing. Do not heat the shrink tubing too long as this may damage the insulation coating. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 460 Strip a part of the insulation to expose the cable conductor with a length of L, as shown in Figure 4-89. The recommended values of L are listed in Table 4-20. Figure 4-89 Stripping a power cable (JG2 terminal) Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 461 NO TICE ● When you strip a power cable, do not damage the conductor of the cable. ● If the bare crimping terminal is not provided by Huawei, you can adjust the value of L as required Table 4-20 Mapping between the cross-sectional area of the conductor and...
Page 462 Figure 4-92 Heating the heat shrink tubing (JG2 terminal) Assembling the Cord End Terminal and Power Cable Background Figure 4-93 shows the components of a cord end terminal and a power cable. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 463 L1 are listed in Table 4-21. NO TICE When you strip a power cable, do not damage the conductor of the cable. Figure 4-94 Stripping a power cable (cord end terminal) Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 464 Figure 4-95 Putting the cord end terminal onto the conductor Select a proper cross-sectional area, and crimp the joint parts of the cord end terminal and the conductor, as shown in Figure 4-96. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 465 Terminal — W1 (mm(in.)) Terminal (mm 0.25 Assembling an SPC1 Connector and the Power Cable Context NO TE Colors and exteriors of cables may vary with countries and regions. Figure1shows an SPC1 connector. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 466 ● Ensure that the wires do not split during cable stripping. Figure 4-98 Stripping the jacket off the cable Insert the positive conducting wire to hole 1 (+) and the negative conducting wire to hole 2 (–), as shown in Figure3. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 467 If the conducting wire is pulled out a bit or a spring presses the insulation layer, remove and cut the split conducting wire, and then strip the jacket and install the conducting wire again. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 468 ● A conducting wire cannot deviate from the hole center, as shown in Figure5. ● Ensure that the conducting wire is aligned with the cable hole, and avoid the situation shown in Figure6. Figure 4-101 Wire deviating from the hole center Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 469: Assembling Ethernet Cables
4.1.12.1.3 Assembling Ethernet Cables Assembling the Shielded RJ45 Connector and Ethernet Cable Background Figure 4-103 shows the components of an RJ45 connector and a shielded Ethernet cable. Figure 4-103 Shielded RJ45 connector and cable Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 470 ● When you remove a section of the jacket, do not damage the shield layer of the twisted-pair cable. ● When you remove the shield layer, do not damage the insulation of the twisted-pair cable. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 471 Lead the four pairs of twisted-pair wires through the wire holder, as shown in Figure 4-108 Figure 4-109. Ensure that the colored wires are in the correct location in the cable. Figure 4-108 Leading wires through the wire holder Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 472 Align the four pairs of cables in the holder, as shown in Figure 4-110. The connections between the wires and the pins are shown in Figure 4-111 listed in Table 4-23. Figure 4-110 Four pairs of cables on a wire holder Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 473 Matching Pins of Wires Wire Color White-Orange Orange White-Green Blue White-Blue Green White-Brown Brown Cut off the surplus cables along the lower edge of the wire holder, as shown Figure 4-112. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 474 Figure 4-114 Crimping the connector 10. Push the jacket towards the metal shell until the metal shell is covered. This completes the assembly of one end of the cable, as shown in Figure 4-115. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 475 Remove a 16-mm (0.63 in.) long section of the jacket, as shown in Figure 4-117. NO TICE When you remove the shield layer, do not damage the insulation of the twisted-pair cable. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 476 Feed the cable into the plug, and crimp the connector, as shown in Figure 4-119. NO TE When inserting the cable, check from the side or bore of the plug to ensure that the cable is completely seated in the plug. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 477 ± 0.13 mm (0.237 ± 0.005). If a measuring tool is not available, you can compare the connector with a standard connector. Figure 4-120 shows an unqualified piece, and Figure 4-121 shows a qualified piece. NO TE All unqualified pieces must be crimped again. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 478 Check whether the contact strips are clean. If they are not clean and the dirt cannot be removed, replace it with a new RJ45 connector. Figure 4-123 shows an unqualified piece. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 479 If not, replace the connector. Figure 4-125 shows an unqualified piece. Figure 4-125 Wires not in good contact with the edge of the RJ45 Testing the Connection of Assembled Cables Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 480 HUAWEI NetEngine 8000 F Hardware Guide 4 Hardware Installation and Parts Replacement Background Huawei provides two types of Ethernet cables: straight-through cables and crossover cables. ● Straight-through cables are connected in a one-to-one manner. They are used to connect terminals such as a computer or switch to network devices.
Page 481 Gently shake the connector and repeat Step 2 to check whether the metal contact strips are in good contact with the core wires and Ethernet ports, as shown in Figure 4-128. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 482 NO TE If a tester is not available, you can use a multimeter to perform a simple test, as shown in Figure 4-129. Figure 4-129 Testing the connection of an Ethernet cable Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 483: Installing Cable Accessories
In the actual situation, the adapters may have interfaces fixed on equipment. Tools Use dedicated tools provided or specified by Huawei and follow the installation procedure described here. Bending Radius Unless otherwise specified, bending radius (R) of cables or fibers must meet the...
Page 484 Install an OT terminal. Align the hole of the OT terminal (conductor upward) with a connecting hole, as shown in Figure 4-130. Figure 4-130 Aligning the OT terminal with a connecting hole Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 485 NO TICE Ensure that the OT terminal is not in contact with other terminals or metal components. Move the cable slightly and ensure that it is securely connected, as shown Figure 4-133. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 486 Bend the upper OT terminal at a 45- or 90-degree angle, as shown in Figure 4-134. – Cross the two terminals, as shown in Figure 4-135. Figure 4-134 Bending the upper OT terminal at a 45- or 90-degree angle Figure 4-135 Crossing two terminals Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 487: Installing Ethernet Adapters
(The clip on the cable connector pops up to fix the connector in the port.) Pull the connector slightly and ensure that it is securely connected, as shown in Figure 4-138. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 488 Hold the male and female connectors, with the male connector facing the female connector, as shown in Figure 4-140. Figure 4-140 Holding the male and female unshielded connectors Feed the male connector into the female connector, as shown in Figure 4-141. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 489 Figure 4-142 Installed unshielded Ethernet connector To remove an Ethernet connector, press the locking key and pull out the connector, as shown in Figure 4-143. Figure 4-143 Removing an unshielded Ethernet connector Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 490: Installing Fiber Connectors
Align the male connector with the female connector and gently push the male connector until it is completely seated in the female connector, as shown in Figure 4-145. Figure 4-145 Feeding the male connector into the female connector Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 491 Remove the dustproof cap of the LC fiber connector and store it for future use. Align the core pin of the male connector with that of the female connector, as shown in Figure 4-148. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 492 Figure 4-150 Installed LC connector To disassemble an LC fiber connector, press the locking nut to release the locking clips from the bore, and gently pull the male connector, as shown in Figure 4-151. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 493 (internal parts, not illustrated in the figure). Pull the fiber connector gently. If the connector does not loosen, the installation is complete. As shown in Figure 4-153. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 494 PINs of the two connectors are on the same axis, and the pins and card slots are in the same direction, as shown in Figure 4-155. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 495 When disassembling, lightly press the button of the optical fiber plug to disengage the hook from the slot, and gently pull the optical fiber plug housing along the axis, and the disassembly is completed, as shown in Figure 4-158. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 496 Hold the shell labeled "PUSH" and feed the male connector into the female connector until you hear a clicking sound. The male and female connectors are securely installed, as shown in Figure 4-160. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 497: Replacing The Mold Of The Crimping Tool
4.1.12.1.7 Replacing the Mold of the Crimping Tool Procedure Hold the handles of a pair of COAX crimping tools. Loosen the two fastening screws counterclockwise, as shown in Figure 4-162. Figure 4-162 Loosening two fastening screws Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 498 Figure 4-164 Removing the mold from the COAX crimping tools Place the mold to be installed into the jaw of the COAX crimping tools and align the screw holes, as shown in Figure 4-165. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 499 Figure 4-166 Aligning the screw holes Hold the handles of the COAX crimping tools with one hand. Tighten the two fastening screws clockwise. Figure 4-167 Figure 4-168 shows the mold installed in the COAX crimping tool. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 500: Environmental Requirements For Device Operation
Keep the equipment room away from significant vibrations or loud noises, as well as power transformer stations. The specific requirements for selecting a site for an equipment room are as follows: Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 501 An equipment room usually contains mobile switching equipment, telecommunications equipment, power supply equipment, and other auxiliary equipment. To ensure easy maintenance and management, place the equipment in different rooms. Figure 4-169 shows the layout of the equipment room. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 502 1.0 x 10^10 ohms. Ground this floor material or raised floor. You can connect them to ground using a one megohm current-limiting resistor and connection line. Load-bearing The floor must bear loads larger than 561 kg/m (0.79 bf/in. capacity Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 503 Other Avoid the proliferation of mildew, and keep out rodents (like requirements mice). Figure 4-170 Internal partition wall inside the equipment room Equipment Room Environment Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 504 The room should be free from dusts and corrosive gases, such as SO S, and Table 4-30 lists the requirements for the corrosive gas concentration. Table 4-30 Requirements for corrosive gas concentration Chemical Unit Concentration active material ≤0.30 mg/m ≤0.10 mg/m ≤0.50 mg/m Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 505 Take effective measures against electrical interference from the power supply system. ● Do not use the working ground of the equipment as the same ground for surge protection. Separate them as far as possible. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 506 ● The power equipment must have a DC working ground cable, which can connect the power equipment to the collective ground cable of the telecommunication site (or the protective ground bar of the equipment room). Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 507 ● Ground the idle lines inside the cable in the equipment room. ● Signal cables should be deployed on internal walls. Do not deploy outdoor aerial cables. ● Keep signal cables away from power cables and surge protection devices. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 508: Requirements For Power Supply
AC power supply for the devices. Table 4-32 Voltage range of AC power supply Item Requirements AC power capacity to -10% to +5% of the rated voltage support the devices Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 509 Requirements for DC Power Supply The equipment room should receive stable and reliable DC power. Deploy the power equipment near the telecommunications equipment to make the DC feeder Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 510 Improve reliability of the AC power supply system to reduce the necessary capacity of storage batteries. For small offices, increase the capacity of storage batteries if it is difficult to enhance reliability of the AC power supply system. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 511: Equipment Grounding Specifications
The grounding resistance in an area where the earth resistance rate is high should be less than 10 ohms. 4.1.12.3.3 Grounding Specifications for Devices Table 4-35 lists the equipment grounding specifications. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 512: Grounding Specifications For Communications Power Supply
Description The inlet for the AC power cable at the equipment room should be equipped with a surge protection device (C-level) with a nominal discharge current no less than 20 kA. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 513: Grounding Specifications For Signal Cables
MDF. The MDF should use the same grounding conductor as the cabinet. Do not route signal cables overhead. 4.1.12.3.6 Specifications for Laying Out Grounding Cables Table 4-38 shows the specifications for the ground cable. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 514: Engineering Labels For Cables
Color: chalk white ● Material: polyester (PET) ● Ambient temperature: -29°C (-20.2°F) to +149°C (300.2°F) ● Printed by a laser printer and written with a marker ● Pass UL and CSA authentication Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 515 0.2 mm x 0.6 mm (0.008 in. x 0.02 in.) around (symmetric on both sides), and the area in the middle is for affixing the label, as shown in Figure 4-172. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 516 The contents can be printed or written on the labels. Printing is recommended for the sake of high efficiency and eye-pleasant layout. Template for Printing You can obtain a template from the Huawei local office to print labels. The template is made in Microsoft Word. Follow these instructions to use the template: ●...
Page 517 Make sure that the printed labels satisfy the following requirements: ● All the printouts must be on the label, and nothing should be printed on the backing layer of the label page. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 518 Determine the size of characters based on the number of letters or digits and ensure that the characters are distinct and tidy. Placement of text on a label is shown in Figure 4-174. Figure 4-174 Placement of text on a label Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 519 The identification card should be downward when you lay out the cable horizontally. Figure 4-175 Text area of the label ● Procedure for attaching labels Figure 4-176 shows the methods and procedures for attaching labels. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 520 ● The identification card is on the top of the cable in horizontal cabling. Make sure that the label is facing out. Figure 4-177 Binding the label for the power cable Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 521 ● The positions of "up", "down", "left" or "right" are all based on the viewpoint of the engineering person who is working on the label. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 522: Engineering Labels For Optical Fibers
R: Receiving interface T: optical transmitting interface Example of the Label Figure 4-179 shows a sample label on an optical fiber. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 523 D: optical Numbered in top-down and left-right order, interface consistent with the port sequence number on number. the device. R: Optical receiving interface T: optical transmitting interface Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 524: Engineering Labels For Network Cables
"A01-01-05-01-R" indicates that the opposite end of the optical fiber is connected to optical receiving interface 1 in slot 05, chassis 01 in the cabinet in row A, column 01 in the machine room. 4.1.12.4.3 Engineering Labels for Network Cables Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 526: Engineering Labels For User Cables
C: physical slot Numbered with two digits in top-down and number left-right order. For example, 01. D: cable Numbered with two digits in top-down and number left-right order. For example, 01. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 527: Engineering Labels For Power Cables
PGND cables. The labels for DC power cables are affixed to one side of the identification plates on cable ties. For details of the labels, see Table 4-44. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 528 -48 V DC supply, which is from the eighth connector in row B of -48 V bus bar in the cabinet in row A, and column 1 in the equipment room. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 529 Make sure that labels are affixed in the correct direction. That is, after the cable ties are bundled onto the cable, the identification plates with the labels should Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 530: Hardware Installation And Maintenance Of Netengine 8000 F2A-8K36H
Huawei. The safety precautions in this document are only some that Huawei can predict. Huawei is not liable for any consequence that results from violation of universal regulations for safety operations and safety codes on design, production, and equipment use.
Page 531 ESD gloves to check whether water marks exist. If they do, condensation forms, and the device or board must be kept in the equipment room for 8 hours before being powered on. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 532 ● Fiber connectors must be tidy and clean to ensure normal communication. If a fiber connector is contaminated, clean it using a piece of fiber cleaning fabric. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 533: A610 Cabinet Installation
4 Hardware Installation and Parts Replacement Optical Module ● Devices must use optical modules that are certified for Huawei devices. Optical modules that are not certified for Huawei devices cannot ensure transmission reliability and may affect service stability. Huawei is not liable for any problems caused by the use of optical modules that are not certified for Huawei devices.
Page 534 NO TE Figures in the document are for reference only, and the actual appearance of the cabinet may vary depending on the exact model. Figure 4-186 shows the A610-22 cabinet appearance. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 535 Figure 4-186 Cabinet appearance Functions The cabinet complies with International Electrotechnical Commission (IEC) 60297-1. The distance between front and rear mounting rails is adjustable in 25 mm increments. Its assembled architecture facilitates capacity expansion. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 536 Physical Structure Figure 4-187 shows components of the A610 cabinet. Figure 4-187 Cabinet components 1. Front door 2. Top cover 3. Rear door 4. Side panel 5. Mounting rail 6. Rack Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 537 ESD wrist strap and insert the other end of the ESD wrist strap in the ESD jack. NO TE A cabinet provides multiple grounding points. You can choose the nearest one. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 538 The front and rear doors of the cabinet are of mesh construction. Air enters the chassis from the front door and base and is exhausted through the rear door. Figure 4-189 shows the airflow. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 539 (91.34 in. x 28.35 in. x 50.79 in.) Weight (empty cabinet) 135 kg (297.62 lb) Weight (assembly cabinet) 215 kg (473.99 lb) Distance between the front and rear 650 mm mounting rails Available space Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 540: Cabinet Accessories
Short-term means the continuous working time within 96 hours and the accumulated working time within 15 days per year. 4.2.2.2 Cabinet Accessories 4.2.2.2.1 (Optional) Cabinet Stand Appearance The cabinet stand is pictured in Figure 4-190. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 541 Table 4-48 Technical specifications of the cabinet stand Stand Type Applicable ESD Applicable Chassis Floor Height (mm) Depth (mm) Stand I 200–270 1000, 1100, and 1200 Stand II 270–410 Stand III 410–700 Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 542: Cabinet Installation
ESD floor. Figure 4-191 Single cabinet installed on an ESD floor Figure 4-192 shows the perspective view of multiple cabinets installed on an ESD floor. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 543 HUAWEI NetEngine 8000 F Hardware Guide 4 Hardware Installation and Parts Replacement Figure 4-192 Multiple cabinets installed on an ESD floor Installation Tools Figure 4-193 lists the tools used for installing a cabinet. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 544 HUAWEI NetEngine 8000 F Hardware Guide 4 Hardware Installation and Parts Replacement Figure 4-193 Installation tools Installation Procedure Figure 4-194 shows the procedure for installing a cabinet on an ESD floor. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 545 HUAWEI NetEngine 8000 F Hardware Guide 4 Hardware Installation and Parts Replacement Figure 4-194 Flowchart for installing a cabinet on an ESD floor Pre-installation Check Precautions Take the following precautions before the installation: Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 546 Step 1 Adjust the height of the cabinet stand. Measure the distance between the concrete floor and surface of the ESD floor with a measuring tape, as shown in Figure 4-195. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 547 See callout 1 in Figure 4-196. Tighten the height locking bolts on both sides. Do not tighten the bolts completely; leave some space for leveling the cabinet stand. See callout 2 in Figure 4-196. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 548 HUAWEI NetEngine 8000 F Hardware Guide 4 Hardware Installation and Parts Replacement Figure 4-196 Tightening height locking bolts Step 2 Assemble the cabinet stand, as shown in Figure 4-197. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 549 Fasten all the locking bolts with a torque of 45 N•m. See callout 4 in Figure 4-197. ----End Positioning the Cabinet Stand ?.1. Positioning a Single Cabinet Stand (for Installation of One Cabinet) Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 550 Step 1 Use plumb lines to position the first cabinet stand. Ensure that the outline of the stand is in alignment with the cabinet outline drawn on the floor, as shown in Figure 4-199. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 551 Step 4 Place the cabinet stand in the planned position. Step 5 Mark the mounting hole positions. See callout 3 in Figure 4-200. Figure 4-200 Positioning cabinet stands side by side ----End Drilling Holes Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 552 Step 4 Measure the hole depth and distance. If the hole depth or distance does not meet requirements, drill holes again. ----End Installing Expansion Bolts Expansion Bolt Components Figure 4-202 shows the components of an expansion bolt. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 553 Step 2 Tighten the spring washer, flat washer, and bolt. Step 3 Hammer the expansion bolt with a claw hammer until the expansion sleeve is flush with the hole, as shown in Figure 4-203. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 554 Step 4 Tighten the expansion bolt clockwise with a wrench to make the expansion sleeve expand. Step 5 Turn the spring washer, flat washer, and bolt counterclockwise and remove them from the expansion sleeve, as shown in Figure 4-204. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 555 Step 3 If the stand leans, place spacers below the stand. See callout 3 in Figure 4-205. Step 4 Use a torque socket to fasten the four expansion bolts with a torque of 45 N m. See callout 4 in Figure 4-205. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 556 Step 2 If the stand leans, place spacers below the stand. See callout 2 in Figure 4-206. Step 3 Use a torque socket to fasten the four expansion bolts with a torque of 45 N m. See callout 3 in Figure 4-206. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 557 M12x80 bolts, as shown in Figure 4-207. Step 3 Put the bolts into the expansion sleeves underground and tighten the bolts, as shown in Figure 4-207. Do not tighten the bolts completely; leave some space. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 558 Step 1 Check whether the cabinet is level using a level and plumb line, as shown in Figure 4-208. Step 2 If the cabinet leans, use an adjustable wrench to adjust the ground anchors until the cabinet is level. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 559 Combine one cabinet with one adjacent cabinet at a time. Procedure Step 1 Use a Phillips screwdriver to remove the screws from combination plates on the front and rear doors. See callout 1 in Figure 4-209. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 560 1. See callout 2 in Figure 4-209. Step 3 Callout 3 in Figure 4-209 shows the combination plate after the cabinets are combined. Figure 4-209 Combining cabinets Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 561 Step 2 Secure four expansion bolts on diagonal lines using a torque socket, with a torque of 45 N•m. See Figure 4-210. Figure 4-210 Securing the cabinet ----End Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 562 The measured impedance is smaller Go to 3. than 5 Mohm Step 3 Remove all the mounting accessories and check whether any insulation parts are missing or damaged. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 563: Installing Cabinets On A Concrete Floor
Perform this step only in scenarios where a single cabinet is to be installed. ----End 4.2.2.3.2 Installing Cabinets on a Concrete Floor Perspective View After Installation Figure 4-213 shows the perspective view of a single cabinet installed on a concrete floor. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 564 Hardware Guide 4 Hardware Installation and Parts Replacement Figure 4-213 Single cabinet installed on a concrete floor Figure 4-214 shows the perspective view of multiple cabinets installed on a concrete floor. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 565 HUAWEI NetEngine 8000 F Hardware Guide 4 Hardware Installation and Parts Replacement Figure 4-214 Multiple cabinets installed on a concrete floor Installation Tools Figure 4-215 lists the tools used for installing a cabinet. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 566 HUAWEI NetEngine 8000 F Hardware Guide 4 Hardware Installation and Parts Replacement Figure 4-215 Installation tools Installation Procedure Figure 4-216 shows the procedure for installing a cabinet on a concrete floor. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 567 ● Follow the installation instructions provided in this document and make adjustments according to actual situations in your installation site. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 568 Cabinet Mounting Holes Figure 4-217 shows the mounting holes for installing a single cabinet. Figure 4-217 Mounting holes for installing a single cabinet Figure 4-218 shows the mounting holes for side-by-side cabinet installation. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 569 Step 2 Place the mounting hole diagram right at the position where the cabinet is to be installed, and use a powder marker to outline the cabinet's dimensions. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 570 Step 3 Move the cabinet to the installation area. Open the front and rear doors, remove screws from the mounting holes, and mark the positions for mounting holes on the bottom of the cabinet, as shown in Figure 4-220. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 571 If the floor is too hard and smooth to position the drill bit, use a nail punch and hammer to create an indentation for the mounting holes. Then use the drill bit to finish drilling holes. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 572 Step 4 Measure the hole depth and distance. If the hole depth or distance does not meet requirements, drill holes again. ----End Installing Expansion Bolts Expansion Bolt Components Figure 4-222 shows the components of an expansion bolt. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 573 Step 2 Tighten the spring washer, flat washer, and bolt. Step 3 Hammer the expansion bolt with a claw hammer until the expansion sleeve is flush with the hole, as shown in Figure 4-223. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 574 Step 4 Tighten the expansion bolt clockwise with a wrench to make the expansion sleeve expand. Step 5 Turn the spring washer, flat washer, and bolt counterclockwise and remove them from the expansion sleeve, as shown in Figure 4-224. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 576 M12x115 bolts, as shown in Figure 4-226. Step 4 Put the bolts into the expansion sleeves underground and tighten the bolts, as shown in Figure 4-226. Do not tighten the bolts completely; leave some space. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 577 Step 1 Check whether the cabinet is level using a level and plumb line, as shown in Figure 4-227. Step 2 If the cabinet leans, use an adjustable wrench to adjust the ground anchors until the cabinet is level. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 578 This section applies to installation of two or more cabinets. After settling and leveling two adjacent cabinets, combine the cabinets with combination plates. Combine one cabinet with one adjacent cabinet at a time. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 579 1. See callout 2 in Figure 4-228. Step 3 Callout 3 in Figure 4-228 shows the combination plate after the cabinets are combined. Figure 4-228 Combining cabinets Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 580 Step 1 Verify that the spring washers, flat washers, and installation covering have been correctly installed on the expansion bolts. Step 2 Secure expansion bolts on diagonal lines using a torque socket, with a torque of 45 N•m. See Figure 4-229. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 581 The impedance between the cabinet and ground must be larger than 5 Mohm. Procedure Step 1 Set the multimeter measurement mode to Mohm and measure the impedance between the bolts and cabinet, as shown in Figure 4-230. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 582: Connecting Pgnd Cables
Step 3 Remove all the mounting accessories and check whether any insulation parts are missing or damaged. Step 4 Secure the cabinet and measure the impedance again. ----End 4.2.2.4 Connecting PGND Cables Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 583 . Connect the ground point to a nearby ground bar in the equipment room through a PGND cable. Secure the PGND point using M8 screws with a torque of 13 N•m. Figure 4-231 Connecting PGND cables Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 584: Device Installation Process
To ensure normal and stable running of a device, you installation need to check the installation of the device after all hardware is installed. For details, see section Post- Hardware Installation and Installation Check in Maintenance . Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 585: Preparation Before The Installtion
Safety precautions provided in this document may not cover every eventuality, so remain mindful of safety at all times. Huawei is not liable for any consequence that results from violation of regulations pertaining to safe operations or safety codes pertaining to design, production, and equipment use.
Page 586 ● Never install or remove the device or power cables when the power is on. The electric arc or spark generated between a power cable and conductor may cause fire or eye damage. ● To protect personal and equipment safety, ground the device before powering it Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 587: Checking The Installation Site
Dustproof measures must be taken in the site. Dust will cause electrostatic discharges on the chassis and affect connections of metal connectors and joints. This shortens service life of the device and may cause failures of the device. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 588: Checking The Cabinet
2U or more to prevent the return air from affecting heat dissipation. 4.2.4.3 Checking the Cabinet The device can only be installed in a standard 19-inch cabinet. Huawei A610 cabinet is recommended. If you purchase a cabinet by yourself, ensure that the cabinet meets the following requirements: 19-inch cabinet with a depth of greater than or equal to 800 mm.
Page 589 2. Note that the device adopts the air-cooling heat dissipation mode. To implement efficient heat dissipation, make sure that the air intake and exhaust vents are not blocked. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 591: Preparing Installation Tools And Accessories
ESD jack on the cabinet. Utility knife Used to cut cartons or paper. Scissors Used to cut installation template or other materials. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 592 Phillips Used to turn screwdriver cross-head screws and bolts. Combinatio Used to clamp n pliers or bend metal sheets, cut metal wires, strip off coating of cables, and unplug nails. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 593 Used to crimp crimping Ethernet tool cables. COAX Used to crimp crimping the metal tool shield at the end of a coaxial cable. Ethernet Used to test cable tester Ethernet cable connectivity. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 594 Table2 lists the installation accessories required for installing a device. Table 4-53 Installation accessories Tool Description Picture Insulation Used to tape insulate power wires or other conductors. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 595 Serial Used to connect the console 04040838 cable port of the device to a serial port of a maintenance terminal for local commissioning or maintenance of the device. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 596: Inspecting And Cleaning Optical Fiber Connectors And Adapters
Cleaning fiber connectors is to remove dust or other dirt to avoid performance degradation of optical transmission systems. Figure 4-233 shows an optical fiber connector. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 597 Clean optical fiber connectors using See "Cleaning Optical Fiber Connectors lens tissue Using Lens Tissue". Clean optical fiber adapters using See "Cleaning Optical Fiber Adapters dustfree absorbent swabs Using Dustfree Absorbent Swabs". Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 598: Protection Of Optical Fiber Connectors
The optical fiber connectors must be stored in proper packages to keep them clean. ● Figure 4-234 shows the recommended protective caps, whereas Figure 4-235 shows the protective caps not recommended. Figure 4-234 Protective caps recommended Figure 4-235 Protective caps not recommended Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 599: Tools, Equipment, And Materials
● Special compressed air ● Special cleaning roll ● Dustfree absorbent swab (made of medical cotton or long fiber cotton) shown in Figure 4-237 Figure 4-238 Figure 4-236 Cassette cleaner Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 600: Inspecting Optical Fiber Connectors
Laser energy is invisible and may cause eye injuries. Never look directly into fiber connectors or ports. Use a fiber microscope equipped with a safety device or a desktop video fiber microscope when inspecting the optical fiber connectors. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 602 800-micrometer fiber cores. For details on acceptable and unacceptable fibers, see Figure 4-241, Figure 4-242 Figure 4-243. Figure 4-241 Clean fiber end face Figure 4-242 Acceptable fibers with imperfections Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 604 Locate the equipment room where the port resides based on the distance between abnormal points in the OTDR test result. Preliminarily determine the port location, disconnect the port, and perform an OTDR test on the port that Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 605: Cleaning Optical Fiber Connectors Using The Cassette Cleaner
Optical power meter ● 400X fiber microscope (A video fiber microscope is recommended.) Precautions CA UTION Laser energy is invisible and may cause eye injuries. Never look directly into fiber connectors or ports. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 606 See Figure 4-246. NO TICE Do not drag the fiber end face on the same cleaning area more than once. Otherwise, the connector can be contaminated or damaged. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 607 Connect the fiber to the optical port immediately. If it is not used for the time being, put a protective cap on it. Turn on the laser after connecting the fiber to the board. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 608: Cleaning Optical Fiber Connectors Using Lens Tissue
Test the optical power using a power meter to ensure that the laser is shut down. Put a little cleaning solvent on the lens tissue. Clean the fiber end face on the lens tissue. See Figure 4-247 Figure 4-248. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 609 Figure 4-248 Cleaning the fiber end face using the lens tissue on the hand Repeat several times on the areas of the lens tissue that have not been used. Use the compressed air to blow off dust on the fiber end face. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 610: Cleaning Optical Fiber Adapters Using Dustfree Absorbent Swabs
Dustfree absorbent swab (made of medical cotton or long fiber cotton) Precautions CA UTION Laser energy is invisible and may cause eye injuries. Never look directly into fiber connectors or ports. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 611 Draw out the dustfree absorbent swab from the fiber adapter and then rotate the dustfree absorbent swab clockwise once. Ensure that the tip of the dustfree absorbent swab directly contacts the fiber end face. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 612: Inspection Of Power Distribution Environment
240 V DC power to a DC power distribution frame. A chassis receives power from the DC power distribution frame through the PDU installed in the cabinet/rack. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 613: Dc Power Distribution Guide
Do not install power cables when the power is on. This is to avoid injuries. Figure 4-254 Schematic diagram of the DC power distribution DC Power Supply System Hardware Description . For cable specifications, see Cables in Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 614 (it is recommended that the power cable is connected only to power jack A on the right of the power module) and the other end to the PDF. Figure 4-255 Installing the DC Power Cables Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 615: Ac Power Distribution Guide
Table 4-59 PDF circuit breaker specifications Item Description Remarks Circuit breaker of ≥ 16 A each channel NOTICE The circuit breaker current must not be greater than the maximum derating current of the device. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 616 (terminal type is selected according to actual conditions). NO TE The colors of AC power cables vary with countries and regions. Cables purchased at local markets must comply with local rules and regulations. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 617: Unpacking A Device
There is water leakage on the outer package. Find the causes and provide feedback to the local representative office of Huawei. Observe the labels on the carton to check the equipment configuration and take a record. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 618: Installing A Chassis In A Cabinet
4.2.5 Installing a chassis in a Cabinet Precautions Ensure that the cabinet has been properly installed before installing devices in the cabinet. The cabinet can be installed on an ESD floor or concrete floor. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 619 Figure 4-259 Installing expandable guide rails NO TICE Check the airflow direction of the installation site to ensure that the air flows into the device from the cold side to the hot side. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 620 Install mounting brackets. To secure the mounting brackets to the chassis, use a torque screwdriver to tighten the three M4 screws on each of the left and right mounting brackets to 1.2 N·m of torque. Figure 4-261 Install mounting brackets Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 621: Cable Routing Planning
NO TICE Do not bundle or route outdoor cables (such as outdoor antenna feeders and outdoor power cables) and indoor cables together in the cabinet or on the cable tray. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 622: Installation Of Cables
The following figures show the cable layout of the device. Figure 4-263 Cable layout (from front side) Figure 4-264 Cable layout (from back side) 4.2.7 Installation of cables 4.2.7.1 Installing Optical Fibers Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 623 Insert the corrugated pipe through the dedicated cable hole on the cabinet top to the cabinet about 100 mm and tie the pipe to the cabinet. Figure 4-265 Inserting the corrugated pipe Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 624: Installing Network Cables
10. Attach permanent labels 20 mm from both ends of each optical fiber. 4.2.7.2 Installing Network Cables NO TICE Before bundling network cables, use a network cable tester to test cable connectivity. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 625: Installing A Cabinet Ground Cable
Attach permanent labels 20 mm from both ends of each network cable. Figure 4-267 Installing network cables 4.2.7.3 Installing a Cabinet Ground Cable Install a cabinet ground cable. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 626 HUAWEI NetEngine 8000 F Hardware Guide 4 Hardware Installation and Parts Replacement Figure 4-268 Installing a cabinet ground cable Install the ground cable between the device and cabinet. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 627: Post-Installation Check
If any item fails the check, check for the reason, reinstall the related component, and check again. Ensure that all the items pass the check. Check cabinets according to Table 4-60. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 628 Table 4-61. Table 4-61 Cable checklist Item Method Routes of signal cables comply with the Observe engineering design document. Signal cables are not damaged or broken Observe and have no splices. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 629 Power cables and ground cables are routed Observe in compliance with the engineering design document, meeting power distribution requirements. Power cables and ground cables are Observe separated from signal cables. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 630: Power-On Check
No tapes, cable ties, wastepaper, or packing Observe bags are left around the equipment. All the items around the equipment are neat, Observe clean, and intact. 4.2.9 Power-on Check Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 631 Indicator description Item Indicator Color Status Description Working STAT Green Steady on status The device is working properly. indicator Steady on An alarm is generated. Green Blinking The card is being registered. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 632: Optional) Checking Optical Power
4.2.10 (Optional) Checking Optical Power The following table describes comparison between the transmit optical power of 50 Gbps optical modules and damaged optical power threshold at the receive end: Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 633 Before connecting to the optical module, use an optical power meter to measure the receive optical power (P). If P is less than -4 dB, the optical module can be directly connected. If P is greater than -4 dB, add an optical Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 634: Maintenance Of The Device
Therefore, to ensure safe operation of a device and to minimize the impact of parts replacement on services, maintenance personnel must strictly abide by the basic operation process regulated in the manual, as shown in Figure 4-271. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 636 Maintenance personnel can replace the parts only when the risks can be controlled. Otherwise, contact a Huawei local office for timely technical support. Prepare tools and spare parts.
Page 637: Replacing A Power Module
If a part that is replaced is confirmed to be faulty, maintenance personnel should fill in the Offsite Repair Card for Faulty Materials, and send the card and the faulty part to a Huawei local office for timely maintenance. NO TICE Carefully maintain the damaged control board that store data to prevent information leak.
Page 638 Switch on the corresponding circuit breaker on the power distribution cabinet. Verify the functions of the new power module. – If the indicator on the power module panel is steady green, the power module works normally. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 639: Replacing The Ac Power Module
After replacing the power module, collect the tools. If a power module that is replaced is confirmed to be faulty, you should fill in the Offsite Repair Card for Faulty Materials, and send the card and the faulty power module to a Huawei local office for timely maintenance.
Page 640: Replacing The Fan Module
After replacing the power module, collect the tools. If a power module that is replaced is confirmed to be faulty, you should fill in the Offsite Repair Card for Faulty Materials, and send the card and the faulty power module to a Huawei local office for timely maintenance.
Page 641 Hold the handle on the new fan module with one hand and support the bottom of the fan module with the other hand. Then, insert the fan module into the chassis, as shown in Figure2. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 642: Replacing An Optical Module
If the indicator is red, it indicates that the fan module fails to run normally. If the new fan module fails to return to the normal state, contact Huawei technical personnel. Follow-up Procedure After replacing a part, collect the tools.
Page 643 Hardware Guide 4 Hardware Installation and Parts Replacement NO TICE ● Huawei-certified Optical Modules are strongly recommended because non- Huawei-certified Optical Modules cannot ensure transmission reliability and may affect service stability. ● Optical Modules are hot swappable, and you do not need to power off the device when replacing Optical Modules.
Page 644 <HUAWEI> display interface Gigabitethernet0/1/0 GigabitEthernet0/1/0 current state : DOWN Line protocol current state : DOWN Description: HUAWEI, GigabitEthernet0/1/0 Interface (ifindex: 7) Route Port,The Maximum Transmit Unit is 1500 IP Sending Frames' Format is PKTFMT_ETHNT_2, Hardware address is 001a-2b11-4d51 The Vendor PN is RTXM191-400...
Page 645 Place the removed Optical Module in the ESD bag. Figure 4-279 Pulling out an bail-clasp Optical Module Figure 4-280 pull-tab latchPulling out an Optical Module Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 646 – Run the display interface the console interface to view the type and running status of the new Optical Module. Check whether the type of the new Optical Module Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 647: Replacing An Optical Cable
After replacing an Optical Module, collect the tools. If an Optical Module that is replaced and is confirmed to be faulty, you should fill in the Offsite Repair Card for Faulty Materials, and send the card and the faulty Optical Module to a Huawei local office for timely maintenance.
Page 648 Then, connect both ends of the new optical cable to the optical interfaces and secure the optical cables. Attach a label to the new optical cable, as shown in Figure 4-282. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 649: Replacing A Network Cable
It is recommended that you replace a network cable during the hours when the network is not busy, for example, from 00:00 am to 06:00 am. Tool Before replacing a network cable, you need the following tools: Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 650 The indicator of the network interface being steady on and green indicates that the link is Up. Attach a label to the new network cable, as shown in Figure 4-283. Figure 4-283 Attaching a label to a new network cable Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 651: Appendix
● The room should be located away from livestock farms, or be upwind of the livestock farms. Do not use an old livestock room or fertilizer warehouse as the equipment room. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 652 An equipment room usually contains mobile switching equipment, telecommunications equipment, power supply equipment, and other auxiliary equipment. To ensure easy maintenance and management, place the equipment in different rooms. Figure 4-284 shows the layout of the equipment room. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 653 1.0 x 10^10 ohms. Ground this floor material or raised floor. You can connect them to ground using a one megohm current-limiting resistor and connection line. Load-bearing The floor must bear loads larger than 561 kg/m (0.79 bf/in. capacity Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 654 Other Avoid the proliferation of mildew, and keep out rodents (like requirements mice). Figure 4-285 Internal partition wall inside the equipment room Equipment Room Environment Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 655 The room should be free from dusts and corrosive gases, such as SO S, and Table 4-65 lists the requirements for the corrosive gas concentration. Table 4-65 Requirements for corrosive gas concentration Chemical Unit Concentration active material ≤0.30 mg/m ≤0.10 mg/m ≤0.50 mg/m Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 656 Take effective measures against electrical interference from the power supply system. ● Do not use the working ground of the equipment as the same ground for surge protection. Separate them as far as possible. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 657 ● The power equipment must have a DC working ground cable, which can connect the power equipment to the collective ground cable of the telecommunication site (or the protective ground bar of the equipment room). Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 658 ● Ground the idle lines inside the cable in the equipment room. ● Signal cables should be deployed on internal walls. Do not deploy outdoor aerial cables. ● Keep signal cables away from power cables and surge protection devices. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 659: Requirements For Power Supply
AC power supply for the devices. Table 4-67 Voltage range of AC power supply Item Requirements AC power capacity to -10% to +5% of the rated voltage support the devices Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 660 Requirements for DC Power Supply The equipment room should receive stable and reliable DC power. Deploy the power equipment near the telecommunications equipment to make the DC feeder Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 661 Improve reliability of the AC power supply system to reduce the necessary capacity of storage batteries. For small offices, increase the capacity of storage batteries if it is difficult to enhance reliability of the AC power supply system. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 662: On-Site Cable Assembly And Installation
Precautions for Assembly ● Use dedicated tools or tools delivered by Huawei and follow the methods given here during assembly. ● Hold terminals of cables instead of pulling the cables themselves when installing or removing cable components.
Page 663: Assembling Power Cables
Based on the cross-sectional area of the cable conductor, strip a length of insulation coating C to expose the conductor D of length L1, as shown in Figure 4-287. The recommended values of L1 are listed in Table 4-69. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 664 ● When you strip a power cable, do not damage the conductor of the cable. ● If the bare crimping terminal is not provided by Huawei, the value of L1 is 1 mm (0.04 in.) to 2 mm (0.08 in.) greater than the value of L.
Page 665 Push the heat shrink tubing (A) toward the connector until the tube covers the crimped part, and then use a heat gun to heat the tube, as shown in Figure 4-290. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 666 Figure 4-291 Components of a JG2 terminal and a power cable A. Heat shrink B. JG2 terminal C. Insulation layer D. Conductor of a tubing of a power cable power cable Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 667 NO TICE ● When you strip a power cable, do not damage the conductor of the cable. ● If the bare crimping terminal is not provided by Huawei, you can adjust the value of L as required Table 4-70 Mapping between the cross-sectional area of the conductor and...
Page 668 (JG2 terminal) Push the heat shrink tubing toward the connector until the tube covers the crimped part, and then use a heat gun to heat the tube, as shown in Figure 4-295. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 669 The recommended values of L1 are listed in Table 4-71. NO TICE When you strip a power cable, do not damage the conductor of the cable. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 670 Figure 4-298. NO TICE After the conductor is fed into the cord end terminal, the protruding part of the conductor must not be longer than 1 mm (0.04 in.). Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 671 Table 4-72 Maximum width of a crimped terminal Cross-Sectional Area of the Maximum Width of the Crimped Terminal — W1 (mm(in.)) Terminal (mm 0.25 Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 672 (1) Connector body (2) Screw (3) Cover plate (4) Wiring hole (5) Scale (6) Viewing window Procedure Trim power cables according to the scale on the connector, as shown in Figure 4-301. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 673 Cables applicable to dual-DC connectors shall have a cross-sectional area of 16–25 Figure 4-301 Trimming power cables Rotate the cover plate until the screws are completely exposed, as shown in the following figure. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 674 Loosen the screws to open the crimping plate. Insert the positive wire into hole (+) and the negative wire into hole (–). After the wires are properly inserted, secure them by tightening the screws. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 675 ● After wires are inserted into the correct holes, use a Phillips screwdriver with PH2 (φ5) head size to secure the wires with a torque of 1.6–1.9 N m. Rotate the cover plate to completely cover the screws. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 676 Figure 4-307. If the outer jacket of the cable can be seen via the viewing window, the cable installation is unqualified, as shown in Figure 4-308 Figure 4-309. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 677 HUAWEI NetEngine 8000 F Hardware Guide 4 Hardware Installation and Parts Replacement Figure 4-303 Qualified cable installation Figure 4-304 Unqualified cable installation Figure 4-305 Cover plate rotated to the required position Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 678 Figure 4-306 Cover plate not rotated to the required position Figure 4-307 Qualified cable installation (seeing only copper wires from the viewing window) Figure 4-308 Unqualified cable installation (seeing both copper wires and cable's outer jacket from the viewing window) Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 679: Assembling Ethernet Cables
A. Jacket of B. Metal shell of C. Wire holder of D. Plug of connector connector connector connector E. Jacket of F. Shield layer of G. Twisted-pair Ethernet cable Ethernet cable wires Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 680 ● When you remove the shield layer, do not damage the insulation of the twisted-pair cable. Fit the metal shell onto the twisted-pair cable. The shield layer is covered by the metal shell, as shown in Figure 4-313. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 681 Lead the four pairs of twisted-pair wires through the wire holder, as shown in Figure 4-315 Figure 4-316. Ensure that the colored wires are in the correct location in the cable. Figure 4-315 Leading wires through the wire holder Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 682 Align the four pairs of cables in the holder, as shown in Figure 4-317. The connections between the wires and the pins are shown in Figure 4-318 listed in Table 4-73. Figure 4-317 Four pairs of cables on a wire holder Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 683 Matching Pins of Wires Wire Color White-Orange Orange White-Green Blue White-Blue Green White-Brown Brown Cut off the surplus cables along the lower edge of the wire holder, as shown Figure 4-319. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 684 Figure 4-321 Crimping the connector 10. Push the jacket towards the metal shell until the metal shell is covered. This completes the assembly of one end of the cable, as shown in Figure 4-322. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 685 Remove a 16-mm (0.63 in.) long section of the jacket, as shown in Figure 4-324. NO TICE When you remove the shield layer, do not damage the insulation of the twisted-pair cable. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 686 Feed the cable into the plug, and crimp the connector, as shown in Figure 4-326. NO TE When inserting the cable, check from the side or bore of the plug to ensure that the cable is completely seated in the plug. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 687 ± 0.13 mm (0.237 ± 0.005). If a measuring tool is not available, you can compare the connector with a standard connector. Figure 4-327 shows an unqualified piece, and Figure 4-328 shows a qualified piece. NO TE All unqualified pieces must be crimped again. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 688 Check whether the contact strips are clean. If they are not clean and the dirt cannot be removed, replace it with a new RJ45 connector. Figure 4-330 shows an unqualified piece. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 689 If not, replace the connector. Figure 4-332 shows an unqualified piece. Figure 4-332 Wires not in good contact with the edge of the RJ45 Testing the Connection of Assembled Cables Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 690 HUAWEI NetEngine 8000 F Hardware Guide 4 Hardware Installation and Parts Replacement Background Huawei provides two types of Ethernet cables: straight-through cables and crossover cables. ● Straight-through cables are connected in a one-to-one manner. They are used to connect terminals such as a computer or switch to network devices.
Page 691 Gently shake the connector and repeat Step 2 to check whether the metal contact strips are in good contact with the core wires and Ethernet ports, as shown in Figure 4-335. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 692 NO TE If a tester is not available, you can use a multimeter to perform a simple test, as shown in Figure 4-336. Figure 4-336 Testing the connection of an Ethernet cable Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 693: Installing Cable Accessories
In the actual situation, the adapters may have interfaces fixed on equipment. Tools Use dedicated tools provided or specified by Huawei and follow the installation procedure described here. Bending Radius Unless otherwise specified, bending radius (R) of cables or fibers must meet the...
Page 694 Install an OT terminal. Align the hole of the OT terminal (conductor upward) with a connecting hole, as shown in Figure 4-337. Figure 4-337 Aligning the OT terminal with a connecting hole Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 695 NO TICE Ensure that the OT terminal is not in contact with other terminals or metal components. Move the cable slightly and ensure that it is securely connected, as shown Figure 4-340. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 696 Bend the upper OT terminal at a 45- or 90-degree angle, as shown in Figure 4-341. – Cross the two terminals, as shown in Figure 4-342. Figure 4-341 Bending the upper OT terminal at a 45- or 90-degree angle Figure 4-342 Crossing two terminals Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 697: Installing Ethernet Adapters
(The clip on the cable connector pops up to fix the connector in the port.) Pull the connector slightly and ensure that it is securely connected, as shown in Figure 4-345. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 698 Hold the male and female connectors, with the male connector facing the female connector, as shown in Figure 4-347. Figure 4-347 Holding the male and female unshielded connectors Feed the male connector into the female connector, as shown in Figure 4-348. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 699 Figure 4-349 Installed unshielded Ethernet connector To remove an Ethernet connector, press the locking key and pull out the connector, as shown in Figure 4-350. Figure 4-350 Removing an unshielded Ethernet connector Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 700: Installing Fiber Connectors
Align the male connector with the female connector and gently push the male connector until it is completely seated in the female connector, as shown in Figure 4-352. Figure 4-352 Feeding the male connector into the female connector Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 701 Remove the dustproof cap of the LC fiber connector and store it for future use. Align the core pin of the male connector with that of the female connector, as shown in Figure 4-355. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 702 Figure 4-357 Installed LC connector To disassemble an LC fiber connector, press the locking nut to release the locking clips from the bore, and gently pull the male connector, as shown in Figure 4-358. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 703 (internal parts, not illustrated in the figure). Pull the fiber connector gently. If the connector does not loosen, the installation is complete. As shown in Figure 4-360. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 704 PINs of the two connectors are on the same axis, and the pins and card slots are in the same direction, as shown in Figure 4-362. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 705 When disassembling, lightly press the button of the optical fiber plug to disengage the hook from the slot, and gently pull the optical fiber plug housing along the axis, and the disassembly is completed, as shown in Figure 4-365. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 706 Hold the shell labeled "PUSH" and feed the male connector into the female connector until you hear a clicking sound. The male and female connectors are securely installed, as shown in Figure 4-367. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 707: Replacing The Mold Of The Crimping Tool
4.2.12.2.7 Replacing the Mold of the Crimping Tool Procedure Hold the handles of a pair of COAX crimping tools. Loosen the two fastening screws counterclockwise, as shown in Figure 4-369. Figure 4-369 Loosening two fastening screws Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 708 Figure 4-371 Removing the mold from the COAX crimping tools Place the mold to be installed into the jaw of the COAX crimping tools and align the screw holes, as shown in Figure 4-372. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 709 Figure 4-373 Aligning the screw holes Hold the handles of the COAX crimping tools with one hand. Tighten the two fastening screws clockwise. Figure 4-374 Figure 4-375 shows the mold installed in the COAX crimping tool. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 710: Equipment Grounding Specifications
The ground cable must be connected securely to the protective ground bar of the equipment room. Do not use other equipment as part of the ground cable or electrical connection. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 711: Grounding Specifications For Equipment Room
300 mm (11.8 in.) long. Connect the two ends of the short-circuiting cable to the ground busbar terminals of neighboring cabinets and fix them firmly. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 712: Grounding Specifications For Communications Power Supply
PGND cable for the surge protection devices should be as short as possible. The incoming and outgoing signal cables to and from the office and unused wires inside the cable should be grounded for protection. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 713: Specifications For Laying Out Grounding Cables
Power cables include the AC power cables and DC power cables. NO TE Fill in labels according to specified requirements to keep consistency of labels in the equipment room. Make a relevant statement in the self-check report. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 715 The contents can be printed or written on the labels. Printing is recommended for the sake of high efficiency and eye-pleasant layout. Template for Printing You can obtain a template from the Huawei local office to print labels. The template is made in Microsoft Word. Follow these instructions to use the template: Issue 05 (2023-03-31) Copyright ©...
Page 716 Figure 4-378 Warning prompt before printing After the page setup has been made correctly, save it for future use. This page setup is only necessary the first time you use the template to print the labels. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 717 The delivered marker has two nibs. Use the smaller nib to write the labels. Font For the sake of legibility, use standard block letters and numbers as shown in Table 4-83. Table 4-83 Standard typeface for handwriting Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 718 The identification card should be downward when you lay out the cable horizontally. Figure 4-380 Text area of the label ● Procedure for attaching labels Figure 4-381 shows the methods and procedures for attaching labels. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 719 ● The identification card is on the top of the cable in horizontal cabling. Make sure that the label is facing out. Figure 4-382 Binding the label for the power cable Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 720 ● The positions of "up", "down", "left" or "right" are all based on the viewpoint of the engineering person who is working on the label. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 721: Engineering Labels For Optical Fibers
R: Receiving interface T: optical transmitting interface Example of the Label Figure 4-384 shows a sample label on an optical fiber. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 722 D: optical Numbered in top-down and left-right order, interface consistent with the port sequence number on number. the device. R: Optical receiving interface T: optical transmitting interface Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 723: Engineering Labels For Network Cables
"A01-01-05-01-R" indicates that the opposite end of the optical fiber is connected to optical receiving interface 1 in slot 05, chassis 01 in the cabinet in row A, column 01 in the machine room. 4.2.12.4.3 Engineering Labels for Network Cables Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 725: Engineering Labels For User Cables
C: physical slot Numbered with two digits in top-down and number left-right order. For example, 01. D: cable Numbered with two digits in top-down and number left-right order. For example, 01. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 726: Engineering Labels For Power Cables
PGND cables. The labels for DC power cables are affixed to one side of the identification plates on cable ties. For details of the labels, see Table 4-88. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 727 -48 V DC supply, which is from the eighth connector in row B of -48 V bus bar in the cabinet in row A, and column 1 in the equipment room. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 728 Make sure that labels are affixed in the correct direction. That is, after the cable ties are bundled onto the cable, the identification plates with the labels should Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 729 On the power socket side, the label marked "B01-AC1" indicates that the power cable is connected to the first AC power socket in the cabinet of row B and column 01 in the equipment room. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.

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