Huawei NE05E Hardware Manual

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HUAWEI NE05E,NE08E

V300R006C10 and Later Versions

Hardware Guide

Issue

Date

2023-03-31

HUAWEI TECHNOLOGIES CO., LTD.

Table of Contents

Summary of Contents for Huawei NE05E

Page 1 HUAWEI NE05E,NE08E V300R006C10 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 3.2.3.12 NEDD00EG4T00 (4 Channels FE/GE Adaptive Electronic Interface Board).......... 130 3.2.3.13 NEDD00EF8T00 (8 Channels Fast Ethernet Electric Interface Board)............ 134 3.2.3.14 NEDD16E17501 (16 Channels E1 Interface Board(75ohm))..............137 3.2.3.15 NEDD16E11201 (16 Channels E1 Interface Board(120ohm))..............140 Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 4 3.3.4 ANKD000PIU00 (Power Interface Board)....................... 191 3.3.5 ES5M0PSD1700 (170W DC power module)......................194 3.3.6 TNCM000PIU00 (Power Interface Board)......................197 3.4 Fan Module................................... 199 3.4.1 NECD001FAN00 (NE05E-S2 FAN Unit)........................199 3.4.2 NEDM000FAN00 (NE08E-S6E FAN)......................... 201 3.4.3 NEJD002FAN00 (NE08E-S9 FAN Board)......................... 205 3.5 Optical Module..................................208 3.5.1 Understanding Pluggable Optical Modules......................
Page 5 3.5.8.8 1.25Gbps-eSFP-SMF-1471nm-80km-commercial.....................271 3.5.9 10Gbps SFP+ Optical Module............................. 272 3.5.9.1 10Gbps-SFP+-SMF-1550nm-80km-commercial....................272 3.5.9.2 10Gbps-SFP+-MMF-850nm-0.1km-industry...................... 274 3.5.9.3 10Gbps-SFP+-SMF-1550nm-40km-industry.......................275 3.5.9.4 10Gbps-SFP+-SMF-1310nm-10km-industry.......................277 3.5.9.5 10Gbps-SFP+-MMF-850nm-0.3km-commercial....................278 3.5.9.6 10Gbps-SFP+-SMF-1310nm-10km-commercial....................279 3.5.9.7 10Gbps-SFP+-SMF-1550nm-40km-commercial....................280 3.5.10 1.25/9.953/10.3125Gbps SFP+ Optical Module....................282 3.5.10.1 1.25/9.953/10.3125Gbps-SFP+-MMF-850nm-0.3km-commercial............282 Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 6 3.6.4 Alarm Input/Output Cables............................327 3.6.5 Clock Cables..................................328 3.6.5.1 External Clock Cables..............................328 3.6.5.2 Clock Bridging Cables..............................331 3.6.6 Service Cables................................... 332 3.6.6.1 Ethernet Cables................................332 3.6.6.2 75-Ohm 16 x E1 Cables (Anea 96F-I)........................335 Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 7 4.1.1.3.10 Inspecting and Cleaning Optical Fiber Connectors and Adapters............501 4.1.2 Parts Replacement................................518 4.1.2.1 Component Information............................518 4.1.2.2 Basic Operation Process and Precautions......................518 4.1.2.3 Replacing the Chassis..............................521 4.1.2.4 Replacing the Control Board............................524 Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 8 4.1.2.4.2 Replacing the Control Board without 1+1 Protection Mode..............527 4.1.2.5 Replacing the PIC Board............................529 4.1.2.6 Replacing the PIU Board............................532 4.1.2.7 Replacing the FAN Board............................533 4.1.2.8 Replacing the Optical Module..........................534 Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 9 Hardware Guide 1 Document Declaration Document Declaration Purpose This document describes hardware features of the NE05E,NE08E. 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. Before using this document, check the first version supported by the hardware.
Page 10 Supplements the important information in the main text. NOTE is used to address information not related to personal injury, equipment damage, and environment deterioration. Change History ● Changes in Issue 05 (2023-03-31) Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 11 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 12 ● 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 13 3.6 Cables This chapter describes various optical fibers and cables used on the equipment. 3.7 Equipment Support NEs can work with various equipment to implement various applications. 3.1 Chassis 3.1.1 NE05E-S2 Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 14 HUAWEI NE05E,NE08E Hardware Guide 3 Hardware Description Overview Table 3-1 Basic information about the NE05E-S2 Description Part Number Model First supported version NE05E-S2 02312EWC NECM00HOST07 V300R005C00 System,DC, 2*GE/ FE(Optical),2*GE/ FE(Electric), 1*GE/ FE(Combo), 6*FE(Electric) NE05E-S2 02352NPE NECM00HOST08 V300R005C00 System,DC, 2*GE/ FE(Optical),2*GE/...
Page 15 Interface Numbering Rules On the NE05E-S2 an interface is numbered in the format of "CXP slot number/PIC number/port number". The following part describes the details: ● Logical slot number of the system control board The slot number of NE05E-S2 is always 0.
Page 16 Label for installing a When installing a device device against walls against walls, keep 10 mm or longer distance between the device and walls. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 17 Heat Dissipation Figure 3-4 NE05E-S2 air duct ● Heat dissipation holes of air intake and exhaust vents on NE05E-S2 must be kept clean and unblocked. ● A distance of at least 50 mm must be reserved at the air intake/exhaust vent on NE05E-S2 to ensure good ventilation.
Page 18 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 ft.) Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 19 99.99% of the line rate is guaranteed. Redundant power supply Redundant fans If a single fan fails, the system can still work for a short period of time at an ambient temperature of 50°C (122°F). Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 20 30.9 W configuration) [W] Typical heat dissipation (with 100.2 BTU/hour configuration) [BTU/hour] MTBF [year] 40 year MTTR [hour] 2 hour Availability 0.99999 Power supply mode Rated input voltage [V] –48 V/–60 V Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 21 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 ft.) 3.1.2 NE05E-SQ Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 22 HUAWEI NE05E,NE08E Hardware Guide 3 Hardware Description Overview Table 3-7 Basic information about the NE05E-SQ Description Part Number Model First supported version NE05E-SQ - 2 02350WSF NECMHSTA0200 V300R001C10 channels DC entries, with 4*10GE(o), 8*10GE/GE/FE(o), 8*GE/FE(o), 8*GE/ FE(e) NE05E-SQ - 2...
Page 23 HUAWEI NE05E,NE08E Hardware Guide 3 Hardware Description Panel Table 3-8 Indicators on the NE05E-SQ Silkscreen Name Color Status Description STAT Board status green The device is indicator working normally. The device hardware is faulty. The device hardware is faulty. Alarm...
Page 24 Color Status Description Connection/ green data connection on transmission the physical status port is indicator normal. green or Blinking orange connection on the physical port is normal. The physical connection fails. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 25 HUAWEI NE05E,NE08E Hardware Guide 3 Hardware Description Table 3-9 Buttons on the NE05E-SQ Silkscreen Name Description There is only one RST button for resetting the device. The RST button can also be used to delete the password and configuration file on the device.
Page 26 Alarm input/ Alarm output interface Input&Output Cables XGE(0 to 3) SFP+ 10GE service 10Gbps SFP+ signal input and Optical Module output interface 10Gbps SFP+ CWDM Optical Module 10Gbps SFP+ BIDI Optical Module Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 27 1.25Gbps eSFP Optical Module 1.25Gbps SFP BIDI Optical Module 1.25Gbps eSFP BIDI Optical Module 1.25Gbps eSFP CWDM Optical Module GE/FE(20 to 27) RJ-45 FE/GE service Ethernet Cables signal input and output interface Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 28 Input positive for the Output positive for the 1PPS signal 1PPS signal (RS422 level) (RS422 level) Input negative for the Output negative for the time information time information (RS422 level) (RS422 level) Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 29 Table 3-14 Pins of the CLK interface Front View Usage Negative receive end of external clock Positive receive end of external clock Unspecified Negative transmit end of external clock Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 30 Unspecified Unspecified Unspecified Interface Numbering Rules On the NE05E-SQ, an interface is numbered in the format of "slot number/ subcard number/port number". The following part describes the details: ● Slot number The slot number of NE05E-SQ is always 0.
Page 31 44.5 mm x 442 mm x 220 mm (1.75 in. x D) [mm(in.)] x 17.4 in. x 8.66 in.) Chassis height [U] Weight without packaging [kg(lb)] 4.7 kg (10.36 lb) Typical power consumption (with 82.8 W configuration) [W] Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 32 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 95% RH, non-condensing [RH] Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 33 Power supply mode Rated input voltage [V] 110 V/220 V Input voltage range [V] 100 V to 240 V Maximum input current [A] 2.5 A Maximum input cable size [mm²] Standard C13 cable Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 34 IEC(19-inch), IMB(3U) Dimensions without packaging (H x W 44.5 mm x 442 mm x 220 mm (1.75 in. x D) [mm(in.)] x 17.4 in. x 8.66 in.) Chassis height [U] Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 35 50°C (122°F). Long-term operating temperature –40°C to +65°C (–40°F to +149°F) [°C(°F)] Restriction on the operating ≤ 30°C/hour (54°F/hour) temperature variation rate [°C(°F)] Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 36 4-core 1.5G SDRAM 4 GB Flash memory 64 MB Storage 2 GB Power supply mode Rated input voltage [V] 110 V/220 V Input voltage range [V] 100 V to 240 V Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 37 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 ft.) 3.1.3 NE05E-SR Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 38 HUAWEI NE05E,NE08E Hardware Guide 3 Hardware Description Overview Table 3-20 Basic information about the NE05E-SR Description Part Number Model First supported version NE05E-SR 02351XAG NECM000AIC01 V300R003C10 System,Indoor,AC, 2*GE/FE Combo, 2*GE/FE(o),2*GE/ FE(e) NO TE In specific areas, as the auxiliary materials are different, the sales BOM numbers may be different.
Page 39 The physical port connection fails. Transmitting/ orange Blinking The data receiving interface is status indicator transmitting or receiving data. The data interface is transmitting or receiving data. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 40 Color Status Description Connection/ green data connection on transmission the physical status port is indicator normal. green or Blinking orange connection on the physical port is normal. The physical connection fails. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 41 HUAWEI NE05E,NE08E Hardware Guide 3 Hardware Description Table 3-22 Buttons on the NE05E-SR Silkscreen Name Description There is only one RST button for resetting the device. The RST button can also be used to delete the password and configuration file on the device.
Page 42 Module FE/GE4 to FE/GE5 FE/GE service 155Mbps eSFP signal input/ Optical Module output interface 1Gbps Electrical Module 1.25Gbps eSFP Optical Module 1.25Gbps SFP BIDI Optical Module 1.25Gbps eSFP BIDI Optical Module Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 43 Unspecified Transmit end of the Console interface Interface Numbering Rules On the NE05E-SR, an interface is numbered in the format of "slot number/subcard number/port number". The following part describes the details: ● Slot number The slot number of NE05E-SR is always 0.
Page 44 Label for installing a is high and it may cause device against walls body injury. When installing a device against walls, keep 10 mm or longer distance between the device and walls. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 45 [dB(A)] Switching capacity 12 Gbit/s (Bidirectional). The maximum allowed error is 0.01%. To be specific, 99.99% of the line rate is guaranteed. Redundant power supply Not support Redundant fans No fan Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 46 In specific areas, as the auxiliary materials are different, the sales BOM numbers may be different. Different sales BOM numbers may correspond to the same description in the device attribute table. The actual sales BOM number in an area prevails. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 47 1 ~ 6 The top of the board faces upwards The top of the The types of CXPs board faces in slots 7 and 8 upwards must be the same. 9,10 Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 48 The physical interface card numbers on the NE08E-S6E range from 1 to ● Port number The port numbers of service interfaces on a physical interface card begin with 0. Port numbering depends on the number of interfaces on the physical interface card. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 49 When the equipment is installed in a cabinet rather than a 19-inch cabinet, it is recommended that you use the grounding terminal specified in this label. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 50 When NE08E-S6E is installed in a cabinet, temperature inside the cabinet must be within the temperature range and the air duct of the cabinet must be consistent with that of NE08E-S6E. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 51 ≥ 25 A Heat dissipation mode Air cooling Airflow direction From left to right Noise at normal temperature (acoustic 55 dB(A), 160G system power) [dB(A)] Number of slots Number of service board slots Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 52 88.9 mm x 442 mm x 220 mm (3.5 in. x D) [mm(in.)] x 17.4 in. x 8.66 in.) Chassis height [U] Weight without packaging [kg(lb)] 3.5 kg (7.72 lb) Weight without packaging (full 9.3 kg (20.51 lb) configuration) [kg(lb)] Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 53 If a single fan fails, the system can still work for a short period of time at an ambient temperature of 40°C. Long-term operating temperature –40°C to +65°C (–40°F to +149°F) [°C(°F)] Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 54 In specific areas, as the auxiliary materials are different, the sales BOM numbers may be different. Different sales BOM numbers may correspond to the same description in the device attribute table. The actual sales BOM number in an area prevails. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 55 HUAWEI NE05E,NE08E Hardware Guide 3 Hardware Description Appearance Figure 3-13 Appearance of the NE08E-S9(DC) Figure 3-14 Appearance of the NE08E-S9(AC) Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 56 Table 3-34 Slots on the NE08E-S9 Slot Type Slot ID Slot Direction Remarks DC: 1 to 9 The top of the board faces AC: 3 to 8 upwards 10,11 The top of the board faces upwards Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 57 Description of the capacity of each slot used by Interface board when using different Control board. Interface Numbering Rules On the NE08E-S9 an interface is numbered in the format of "CXP slot number/PIC number/port number". The following part describes the details: Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 58 Backplane bar code label The bar code of the backplane will be retrieved by the device as the equipment serial number (ESN). ESD protection label The label suggests the electrostatic-sensitive equipment. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 59 The label suggests that do not touch the fan leaves when the fan is rotating. Qualification label The equipment is qualified. Product nameplate label The label suggests the product name and certification. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 60 17.3 kg (38.15 lb) configuration) [kg(lb)] Typical power consumption (with DC System with CXP Protection: 182 W configuration) [W] Typical heat dissipation (with DC System with CXP Protection: 590.5 configuration) [BTU/hour] BTU/hour Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 61 [°C(°F)] Storage temperature [°C(°F)] –40°C to +70°C (–40°F to +158 °F) Long-term operating relative humidity 5% to 95% RH, non-condensing [RH] Storage relative humidity [RH] 5% to 100% RH, non-condensing Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 62 Maximum input current [A] 13 A Maximum input cable size [mm²] Standard C13 cable Front-end circuit breaker/fuse [A] ≥ 13 A Heat dissipation mode Air cooling Airflow direction From left to right Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 63 < 5000 m (16404 ft.) 3.2 Boards This chapter describes the boards of the device. 3.2.1 Board Overview A board mainly consists of the printed circuit board (PCB) and the front panel. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 64 A board name mainly consists of the board functional version and short name. A short name can roughly identify a board. The short name of a control board, power board, and fan board is CXP, PIU, and FAN respectively. The following Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 65 You can use the DIP switches to delete the configuration file loaded on the device. Set DIP switches to 1, 1, 0, and 1. During startup, the device deletes the loaded configuration file based on the DIF switch status. After the password is deleted, Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 66 The procedure is as follows: ● For the NE05E-SQ, NE05E-SR and NE05E-S2: The RST button can also be used to delete passwords and configuration files on the device. Once you press the RST button, the device starts to reset. Then you press and hold down the RST button 35s to 45s until the SATA and ALM indicators blink green.
Page 67 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 68 The memory self-check fails. The board software or the logic file is lost. Loading of the board software fails. green Blinking at a The board 100-ms software is interval being loaded. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 70 The board is status in the indicator working switching state. The board is in the protection switching state. ACTC Control status green Steady on The board is indicator in the working control state. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 71 Major alarm orange Steady on Major alarms indicator generated. No major alarms are generated. Minor alarm yellow Steady on Minor alarms indicator generated. No major alarms are generated. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 72 15s), press and hold the RST button. 3.Wait about 30s. When the STAT and PROG indicators both blink (the time window is about 5s), release the RST button immediately. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 73 3. When pressing the RST button to clear the configuration file, you only need to pay attention to the STAT and PROG indicators. Other indicators may vary depending on the product model. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 74 Table 3-43 Functions and features of the NEDD00CXPA00 Functions and Features Description Basic function 320 Gbit/s@256 bytes (Bidirectional). The maximum allowed error is 0.01%. To be specific, 99.99% of the line rate is guaranteed. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 75 3.2.2.2 NEDD00CXPB00 (System Control,Cross-connect and Multi-protocol Process Unit B) Overview Table 3-45 Basic information about the NEDD00CXPB00 Item Details Description System Control,Cross-connect and Multi-protocol Process Unit B Part Number 03032VXU Model NEDD00CXPB00 Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 76 Steady on The board hardware is faulty. orange Steady on The interface board is not loaded with the logic. The board is not running or no power is input. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 77 Blinking at a The BIOS is 300-ms guiding interval upper-layer software. orange Blinking at a The BIOS fails 100-ms self-check. interval The board is not powered Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 79 The board is status in the indicator working switching state. The board is in the protection switching state. ACTC Control status green Steady on The board is indicator in the working control state. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 80 Major alarm orange Steady on Major alarms indicator generated. No major alarms are generated. Minor alarm yellow Steady on Minor alarms indicator generated. No major alarms are generated. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 81 15s), press and hold the RST button. 3.Wait about 30s. When the STAT and PROG indicators both blink (the time window is about 5s), release the RST button immediately. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 82 3. When pressing the RST button to clear the configuration file, you only need to pay attention to the STAT and PROG indicators. Other indicators may vary depending on the product model. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 83 Ethernet cable interface clock cable (external clock/ external time mode, prepared onsite) ALMI/ALMO RJ45 Alarm input/ Alarm Cables output interface HP-CLK Clock test coaxial cable interface that outputs 1 PPS clock signals Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 84 –40°C to +65°C (–40°F to +149°F) [°C(°F)] Switching capacity 320 Gbit/s Quad-core 1.4 GHz SDRAM 8 GB x 1 Storage 4 GB 3.2.2.3 NECD00CXPL00 (System Control,Cross-connect and Multi-protocol Process Unit B for S2) Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 85 Indicators and Buttons Table 3-52 Indicators on the NECD00CXPL00 Silkscreen Name Color Status Description STAT Board status green Steady on The board is indicator working normally. Steady on The board hardware is faulty. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 86 Blinking at a The BIOS is 300-ms guiding interval upper-layer software. orange Blinking at a The BIOS fails 100-ms self-check. interval The board is not powered Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 88 The board is status in the indicator working switching state. The board is in the protection switching state. ACTC Control status green Steady on The board is indicator in the working control state. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 90 HUAWEI NE05E,NE08E Hardware Guide 3 Hardware Description Silkscreen Name Color Status Description A service port fails to be connected to an optical fiber or electrical cable. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 91 15s), press and hold the RST button. 3.Wait about 30s. When the STAT and PROG indicators both blink (the time window is about 5s), release the RST button immediately. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 92 3. When pressing the RST button to clear the configuration file, you only need to pay attention to the STAT and PROG indicators. Other indicators may vary depending on the product model. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 93 (external clock/ external time mode, prepared onsite) RJ45 Time input/output Ethernet cable interface clock cable (external clock/ external time mode, prepared onsite) ALMI/O RJ45 Alarm input/ Alarm Cables output interface Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 94 1.25Gbps eSFP CWDM Optical Module GE3 to GE4 RJ45 GE service signal Ethernet Cables input and output interface FE5 to FE10 RJ45 FE service signal Ethernet Cables input and output interface Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 95 –20°C to +60°C (–4°F to +140°F) [°C(°F)] Switching capacity 12 Gbit/s 4-core 800MHz SDRAM 2 GB x 1 Storage 1 GB 3.2.2.4 NEJD00CXPA00 (System Control,Cross-connect and Multi-protocol Process Unit A For S9) Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 96 STAT Board status green Steady on The board is indicator working normally. Steady on The board hardware is faulty. orange Steady on The interface board is not loaded with the logic. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 97 Blinking at a The BIOS is 300-ms guiding interval upper-layer software. orange Blinking at a The BIOS fails 100-ms self-check. interval The board is not powered Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 99 The board is status in the indicator working switching state. The board is in the protection switching state. ACTC Control status green Steady on The board is indicator in the working control state. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 100 Major alarm orange Steady on Major alarms indicator generated. No major alarms are generated. Minor alarm yellow Steady on Minor alarms indicator generated. No major alarms are generated. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 101 15s), press and hold the RST button. 3.Wait about 30s. When the STAT and PROG indicators both blink (the time window is about 5s), release the RST button immediately. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 102 Table 3-60 Ports on the NEJD00CXPA00 Port Connector Type Description Available Components CONSOLE RJ45 It connects to the 8-core shielded console for on- cable site system configuration. Baud rate: 9600 bit/s (default value), which is configurable. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 103 To be specific, 99.99% of the line rate is guaranteed. Reliability and availability Supports the hot swappable function. Supports the board-level 1:1 backup function. Restrictions and remarks CXPs of different modules cannot be used on one device. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 104 3.2.3.1 CR5D00E4XF20 (4-Port 10GBase-SFP+MACsec Interface Card) Overview Table 3-63 Basic information about the CR5D00E4XF20 Item Details Description 4-Port 10GBase-SFP+MACsec Interface Card Part Number 03032VBG Model CR5D00E4XF20 Card type Interface Card Silkscreen 4x10GE-SFP+ Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 106 Functions and Features Description Basic function Occupies one flexible card slot. Provides four 10GE interfaces for line- rate transmitting and receiving, and supports SFP+ optical modules. Supports MACsec. Reliability and availability Hot swappable. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 107 3.2.3.2 CR5D000DE1C1 (16-Port E1 Physical Interface Card(PIC,75ohm/ 120ohm)) Overview Table 3-69 Basic information about the CR5D000DE1C1 Item Details Description 16-Port E1 Physical Interface Card(PIC, 75ohm/120ohm) Part Number 03033GGD Model CR5D000DE1C1 Card type Interface Card Silkscreen 16xE1-75/120 Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 108 Green Steady on If the status indicator is indicator steady on, the PIC is working properly. Steady on If the indicator is steady on, the hardware on the PIC is faulty. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 109 Table 3-71 Ports on the CR5D000DE1C1 Port Connector Type Description Available Components E1(0-15) ANEA 96 16 E1 interfaces 75-ohm/120-ohm interface, which is used to transmit or receive the zero to fifteenth channels of E1 services. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 110 0.6 kg (1.32 lb) Weight with packaging [kg(lb)] 1 kg (2.20 lb) Typical power consumption [W] 15.1 W Typical heat dissipation [BTU/hour] 48.86 BTU/hour Long-term operating temperature –40°C to +65°C (–40°F to +149°F) [°C(°F)] Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 111 Indicators Table 3-76 Indicators on the NEDD000EX1S0 Silkscreen Name Color Status Description STAT Board status green Steady on The board is indicator working normally. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 112 Table 3-77 Ports on the NEDD000EX1S0 Port Connector Type Description Available Components OUT0 IN0 SFP+ 10GE service 10Gbps SFP+ signal input and Optical Module output interface 10Gbps SFP+ BIDI Optical Module 10Gbps SFP+ CWDM Optical Module Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 113 0.4 kg (0.88 lb) Typical power consumption [W] 6.2 W Typical heat dissipation [BTU/hour] 20.08 BTU/hour Long-term operating temperature –40°C to +65°C (–40°F to +149°F) [°C(°F)] 3.2.3.4 NEDD00EM8F01 (8 Channels GE/FE Optical Interface Board) Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 114 Indicators Table 3-82 Indicators on the NEDD00EM8F01 Silkscreen Name Color Status Description STAT Board status green Steady on The board is indicator working normally. Steady on The board hardware is faulty. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 115 Blinking green connection on the physical port is normal, and data is received or transmitted on the port. The physical connection fails. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 116 Supports the line-rate receiving and transmitting on eight FE/GE interfaces and supports GE and FE optical modules and electrical modules on the interfaces. Reliability and availability Supports the hot swappable function. Breakout supported Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 117 Table 3-87 Basic information about the NEDD00EM4F01 Item Details Description 4 Channels GE/FE Optical Interface Board Part Number 03056456 Model NEDD00EM4F01 Card type Interface Card Silkscreen D2EM4F Appearance Figure 3-29 Appearance of the NEDD00EM4F01 Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 118 Blinking green connection on the physical port is normal, and data is received or transmitted on the port. The physical connection fails. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 119 Supports the line-rate receiving and transmitting on four FE/GE interfaces and supports GE and FE optical modules and electrical modules on the interfaces. Reliability and availability Supports the hot swappable function. Breakout supported Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 120 Table 3-93 Basic information about the NEDD00EM4T01 Item Details Description 4 Channels GE/FE Electrical Interface Board Part Number 03056457 Model NEDD00EM4T01 Card type Interface Card Silkscreen D2EM4T Appearance Figure 3-30 Appearance of the NEDD00EM4T01 Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 121 Steady on The data status interface is indicator transmitting or receiving data. The physical port connection fails. Transmitting/ orange Blinking The data receiving interface is status indicator transmitting or receiving data. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 122 Occupies one flexible card slot. Supports the line-rate receiving and transmitting on four GE/FE interfaces and supports 10M/100M/1000M electrical interface features on the interfaces. Reliability and availability Supports the hot swappable function. Breakout supported Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 123 Table 3-99 Basic information about the NEDD00EM8T01 Item Details Description 8 Channels GE/FE Electrical Interface Board Part Number 03056458 Model NEDD00EM8T01 Card type Interface Card Silkscreen D2EM8T Appearance Figure 3-31 Appearance of the NEDD00EM8T01 Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 124 Steady on The data status interface is indicator transmitting or receiving data. The physical port connection fails. Transmitting/ orange Blinking The data receiving interface is status indicator transmitting or receiving data. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 125 Occupies one flexible card slot. Supports the line-rate receiving and transmitting on eight GE/FE interfaces and supports 10M/100M/1000M electrical interface features on the interfaces. Reliability and availability Supports the hot swappable function. Breakout supported Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 126 Table 3-105 Basic information about the NEDD00CQ1B00 Item Details Description 4 Channels Channelized OC-3c/STM-1c POS Optical Interface Board Part Number 03056459 Model NEDD00CQ1B00 Card type Interface Card Silkscreen D2CQ1B Appearance Figure 3-32 Appearance of the NEDD00CQ1B00 Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 127 LOS 0 to 3 Port status green Steady on The signal on indicator the port is normal. Steady on The signal on the port is lost. The Optical Module is offline. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 128 Reliability and availability Supports the hot swappable function. Restrictions and remarks Ports 0 to 3 support clock master mode. Breakout supported Interface rate auto-sensing supported Link protocol TDM, PPP, MP, ATM, IMA Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 129 Table 3-111 Basic information about the NEDD16E17502 Item Details Description 16 Channels E1 Interface Board(75ohm) Part Number 03056461 Model NEDD16E17502 Card type Interface Card Silkscreen D3ML1A Appearance Figure 3-33 Appearance of the NEDD16E17502 Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 130 Available Components E1(0 to 15) Anea 96 75-ohm interface, 75-Ohm 16 x E1 which is used to Cables(Anea 96F- transmit or I,III) receive the zero to fifteenth channels of E1 services. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 131 0.4 kg (0.88 lb) Typical power consumption [W] 9.5 W Typical heat dissipation [BTU/hour] 30.66 BTU/hour Long-term operating temperature –20°C to +65°C (–4°F to +149°F) [°C(°F)] 3.2.3.10 NEDD16E11202 (16 Channels E1 Interface Board(120ohm)) Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 132 Indicators Table 3-118 Indicators on the NEDD16E11202 Silkscreen Name Color Status Description STAT Board status green Steady on The board is indicator working normally. Steady on The board hardware is faulty. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 133 Table 3-120 Port attributes about the NEDD16E11202 Attributes Details Stated bit rate 2.048 Mbit/s Impedance [ohm] 120 ohm Input jitter tolerance Complies with ITU-T G.823 Output jitter Complies with ITU-T G.823 Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 134 [°C(°F)] 3.2.3.11 NEDD000EG400 (4 Channels FE/GE Adaptive Optical Interface Board) Overview Table 3-123 Basic information about the NEDD000EG400 Item Details Description 4 Channels FE/GE Adaptive Optical Interface Board Part Number 03056464 Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 135 Steady on The board hardware is faulty. orange Steady on The interface board is not loaded with the logic. The board is not running or no power is input. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 136 Blinking green connection on the physical port is normal, and data is received or transmitted on the port. The physical connection fails. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 137 Ethernet or IEEE 1588v2/IEEE 1588 ACR. Table 3-126 Port attributes about the NEDD000EG400 Attributes Details Working mode Full-duplex Standards compliance Supports Ethernet IEEE 802.3 standard network protocol Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 138 –20°C to +60°C (–4°F to +140°F) [°C(°F)] 3.2.3.12 NEDD00EG4T00 (4 Channels FE/GE Adaptive Electronic Interface Board) Overview Table 3-129 Basic information about the NEDD00EG4T00 Item Details Description 4 Channels FE/GE Adaptive Electronic Interface Board Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 139 Steady on The board hardware is faulty. orange Steady on The interface board is not loaded with the logic. The board is not running or no power is input. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 140 The physical port connection fails. Transmitting/ orange Blinking The data receiving interface is status indicator transmitting or receiving data. The data interface is transmitting or receiving data. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 141 The two interfaces of each group share the group bandwidth. Table 3-132 Port attributes about the NEDD00EG4T00 Attributes Details Working mode 10M/100M/1000M autonegotiation, full-duplex Standards compliance Supports Ethernet IEEE 802.3 standard network protocol Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 142 [°C(°F)] 3.2.3.13 NEDD00EF8T00 (8 Channels Fast Ethernet Electric Interface Board) Overview Table 3-135 Basic information about the NEDD00EF8T00 Item Details Description 8 Channels Fast Ethernet Electric Interface Board Part Number 03056467 Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 143 Steady on The board hardware is faulty. orange Steady on The interface board is not loaded with the logic. The board is not running or no power is input. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 144 FE service signal Ethernet Cables input and output interface NOTE When using an electrical interface at 10 Mbit/s, the interface does not support synchronous Ethernet clock or IEEE 1588v2/IEEE 1588 ACR. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 145 0.5 kg (1.10 lb) Typical power consumption [W] 21.1 W Typical heat dissipation [BTU/hour] 68.30 BTU/hour Long-term operating temperature –20°C to +60°C (–4°F to +140°F) [°C(°F)] 3.2.3.14 NEDD16E17501 (16 Channels E1 Interface Board(75ohm)) Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 146 Indicators Table 3-142 Indicators on the NEDD16E17501 Silkscreen Name Color Status Description STAT Board status green Steady on The board is indicator working normally. Steady on The board hardware is faulty. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 147 Functions and Features Table 3-145 Functions and features of the NEDD16E17501 Functions and Features Description Basic function Occupies one flexible card slot. Supports 16 E1 physical interfaces and uses 75-ohm 16xE1 cable. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 148 3.2.3.15 NEDD16E11201 (16 Channels E1 Interface Board(120ohm)) Overview Table 3-147 Basic information about the NEDD16E11201 Item Details Description 16 Channels E1 Interface Board(120ohm) Part Number 03056469 Model NEDD16E11201 Card type Interface Card Silkscreen D3ML1B Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 149 Steady on The board hardware is faulty. orange Steady on The interface board is not loaded with the logic. The board is not running or no power is input. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 150 Supports 16 E1 physical interfaces and uses 120-ohm 16xE1 cable. Reliability and availability Supports the hot swappable function. Breakout supported Interface rate auto-sensing supported Link protocol TDM, PPP, MP, ATM, IMA Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 151 Table 3-153 Basic information about the NEDD01MPAA00 Item Details Description 4-Channel FXS/FXO+2-Channel E&M +2-Channel RS232+2-Channel RS485 Board Part Number 03056725 Model NEDD01MPAA00 Card type Interface Card Silkscreen D1MPAA Appearance Figure 3-40 Appearance of the NEDD01MPAA00 Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 152 RJ45 Used for RS-232/ RS-232: RS-232 RS-485/RS-422 Serial Interface RS232 2 RS485 3 signal input Cable RS-485/RS-422: Must be made on site based on the interface type of the remote device. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 153 Table 3-157 Technical specifications of the NEDD01MPAA00 Item Specification Dimensions without packaging (H x W 19.8 mm x 193.8 mm x 209.3 mm x D) [mm(in.)] (0.78 in. x 7.63 in. x 8.24 in.) Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 154 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 155 Blinking green connection on the physical port is normal, and data is received or transmitted on the port. The physical connection fails. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 156 (0.78 in. x 7.63 in. x 8.24 in.) Weight without packaging [kg(lb)] 0.6 kg (1.32 lb) Typical power consumption [W] 18 W Typical heat dissipation [BTU/hour] 58.40 BTU/hour Long-term operating temperature –5°C to +55°C (23°F to 131°F) [°C(°F)] Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 157 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 158 The device is not powered on or has not been initialized. LINK (Codir) green Steady on The LINK (Codir) is located above each Codir port. The data interface is transmitting or receiving data. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 159 Used for 64 kbit/s 120-Ohm 16 x E1 codirectional data Cables(Anea 96F- signal input Table 3-166 Port attributes about the NEDD01MP8A00 Attributes Details Working mode Full-duplex Standards compliance Supports IEEE C37.94 Supports ITU-T G.703 Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 160 [°C(°F)] 3.2.3.19 NEDD00EX2S00 (2 Channel 10GE Optical Interface Board(SFP+)) Overview Table 3-169 Basic information about the NEDD00EX2S00 Item Details Description 2 Channel 10GE Optical Interface Board(SFP+) Part Number 03057141 Model NEDD00EX2S00 Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 161 Steady on The board hardware is faulty. orange Steady on The interface board is not loaded with the logic. The board is not running or no power is input. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 162 10Gbps SFP+ BIDI Optical Module 10Gbps SFP+ CWDM Optical Module Table 3-172 Port attributes about the NEDD00EX2S00 Attributes Details Working mode Full-duplex Standards compliance Supports Ethernet IEEE 802.3 standard network protocol Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 163 –40°C to +65°C (–40°F to +149°F) [°C(°F)] 3.2.3.20 NEDD32E17501 (32 Channels E1 Interface Board(75ohm)) Overview Table 3-175 Basic information about the NEDD32E17501 Item Details Description 32 Channels E1 Interface Board(75ohm) Part Number 03057266 Model NEDD32E17501 Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 164 Steady on The board hardware is faulty. orange Steady on The interface board is not loaded with the logic. The board is not running or no power is input. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 165 Supports 32 E1 physical interfaces and uses 75-ohm 16xE1 cables. Reliability and availability Supports the hot swappable function. Breakout supported Interface rate auto-sensing supported Link protocol TDM, PPP, MP, ATM, IMA Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 166 Table 3-181 Basic information about the NEDD32E11201 Item Details Description 32 Channels E1 Interface Board(120ohm) Part Number 03057267 Model NEDD32E11201 Card type Interface Card Silkscreen D2MD1B Appearance Figure 3-45 Appearance of the NEDD32E11201 Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 167 E1(0 to 15) Anea 96 120-ohm 120-Ohm 16 x E1 interface, which is Cables(Anea 96F- E1(16 to 31) used to transmit or receive the zero to fifteenth channels of E1 services. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 168 (0.78 in. x 7.63 in. x 8.24 in.) Weight without packaging [kg(lb)] 0.5 kg (1.10 lb) Typical power consumption [W] 12.1 W Typical heat dissipation [BTU/hour] 39.26 BTU/hour Long-term operating temperature –20°C to +65°C (–4°F to +149°F) [°C(°F)] Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 169 Indicators Table 3-188 Indicators on the NEDD32E1M001 Silkscreen Name Color Status Description STAT Board status Green Steady on The board is indicator working normally. Steady on The board hardware is faulty. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 170 Table 3-190 Port attributes about the NEDD32E1M001 Attributes Details Stated bit rate 2.048 Mbit/s Impedance [ohm] 75/120 ohm Input jitter tolerance Complies with ITU-T G.823 Output jitter Complies with ITU-T G.823 Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 171 [°C(°F)] 3.2.3.23 NEKD00EX4S00 (4 Channels 10GE Optical Interface Board(SFP+)) Overview Table 3-193 Basic information about the NEKD00EX4S00 Item Details Description 4 Channels 10GE Optical Interface Board(SFP+) Part Number 03058043 Model NEKD00EX4S00 Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 172 Steady on The board hardware is faulty. orange Steady on The interface board is not loaded with the logic. The board is not running or no power is input. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 173 Blinking green connection on the physical port is normal, and data is received or transmitted on the port. The physical connection fails. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 174 Optical Module 1Gbps Electrical Module 1.25/9.953/10.31 25Gbps SFP+ Optical Module Table 3-196 Port attributes about the NEKD00EX4S00 Attributes Details Working mode Full-duplex Standards compliance Supports Ethernet IEEE 802.3 standard network protocol Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 175 –40°C to +65°C (–40°F to +149°F) [°C(°F)] 3.2.3.24 NEDD001EM600 (6 Channels E&M Interface Board) Overview Table 3-199 Basic information about the NEDD001EM600 Item Details Description 6 Channels E&M Interface Board Part Number 03058128 Model NEDD001EM600 Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 176 Steady on The board hardware is faulty. orange Steady on The interface board is not loaded with the logic. The board is not running or no power is input. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 177 Typical power consumption [W] 10.1 W Typical heat dissipation [BTU/hour] 32.61 BTU/hour Long-term operating temperature –5°C to +55°C (23°F to 131°F) [°C(°F)] 3.2.3.25 NEDD0EM4TP00 (4 Channels GE/FE PoE Electrical Interface Board) Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 178 Indicators Table 3-205 Indicators on the NEDD0EM4TP00 Silkscreen Name Color Status Description STAT Board status green Steady on The board is indicator working normally. Steady on The board hardware is faulty. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 179 Ports Table 3-206 Ports on the NEDD0EM4TP00 Port Connector Type Description Available Components FE/GE0 to FE/GE3 RJ45 FE/GE service Ethernet Cables signal input and output interface Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 180 Weight without packaging [kg(lb)] 0.4 kg (0.88 lb) Typical power consumption [W] 11.6 W(without powered device) 173.6 W(with 150W powered device) Typical heat dissipation [BTU/hour] 37.54 BTU/hour(without powered device) 563.13 BTU/hour(with 150W powered device) Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 181 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 182 Table 3-212 Ports on the NEDD00EV1Q00 Port Connector Type Description Available Components OUT0 IN0 QSFP28 50GE service 50Gbps QSFP28 signal input and Optical Module output interface 50Gbps QSFP28 BIDI Optical Module Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 183 0.7 kg (1.54 lb) Typical power consumption [W] 26.5 W Typical heat dissipation [BTU/hour] 85.81 BTU/hour Long-term operating temperature –5°C to +55°C (23°F to 131°F) [°C(°F)] 3.2.3.27 CR5D00EAGF95 (10-port 100/1000Base-X-SFP MACsec Physical Interface Card(PIC)) Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 184 Indicators Table 3-217 Indicators on the CR5D00EAGF95 Silkscreen Name Color Status Description STAT Working Green Steady on If the status indicator is indicator steady on, the PIC is working properly. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 185 If the status indicator is indicator steady on, the link is normal. Green Blink If the indicator blinks, data is being transmitted. If the indicator is off, the link is Down. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 186 Basic function Occupies one flexible interface card slot. Provides ten FE/GE interfaces for line- rate transmitting and receiving, and supports SFP optical modules. Supports MACsec. Reliability and availability Hot swappable. Breakout supported Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 187 3.2.3.28 CR5D00L4XF91 (4-Port 10GE(SFP+)/GE(SFP) MACsec Physical Interface Card(PIC)) Overview Table 3-222 Basic information about the CR5D00L4XF91 Item Details Description 4-Port 10GE(SFP+)/GE(SFP) MACsec Physical Interface Card(PIC) Part Number 03033FXF-001 Model CR5D00L4XF91 Card type Interface Card Silkscreen 4x10GE-SFP+ Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 188 Steady on If the indicator is steady on, the PIC is installed in a slot for a HIC and an alarm is reported or the PIC is not loaded with the logic. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 189 If the status indicator is indicator steady on, the link is normal. Green Blink If the indicator blinks, data is being transmitted. If the indicator is off, the link is Down. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 190 Module 10Gbps SFP+ Optical Module 1Gbps Electrical Module Table 3-225 Port attributes about the CR5D00L4XF91 Attributes Details Working mode Full-duplex Standards compliance IEEE 802.1AE MACsec Frame format Ethernet_II, Ethernet_SAP, and Ethernet_SNAP Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 191 23.9 W Typical heat dissipation [BTU/hour] 77.38 BTU/hour Long-term operating temperature –40°C to +65°C (–40°F to +149°F) [°C(°F)] 3.3 Power Module Power boards lead in power for supplying power to the device. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 192 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 193 Status Description INPUT Power input green The voltage indicator of input AC power is normal. No power is accessed. OUTPUT Power output green The voltage indicator of output power is normal. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 194 2.5 A Rated output voltage [V] 12 V Rated output current [A] 14.2 A Rated output power [W] 170 W Power dissipation Mode Air cooling Type of power cables Standard C13 cable Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 196 -38.4 V to -72 V Maximum input current [A] 40 A Rated output voltage [V] -48 V/-60 V Rated output current [A] 31.25 A Rated output power [W] 1200 W Power dissipation Mode Air cooling Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 197 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 198 Power on/off button Press the OFF button to power on or off the power module. Table 3-240 Ports on the ANJ000APIU00 Port Description AC power cable connector AC power input interface Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 199 The ANK1PIU (PIU for short) is a power interface board. The function version of the PIU is ANK1. Overview Table 3-242 Basic information about the ANKD000PIU00 Item Details Description Power Interface Board Part Number 03023NKN Model ANKD000PIU00 Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 200 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 201 The power is status accessed. indicator No power is accessed. The power supply poles are inversely connected. Table 3-244 Ports on the ANKD000PIU00 Port Description NEG(-) -48 V power input interface Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 202 3.3.5 ES5M0PSD1700 (170W DC power module) The ES5MPSD17 is a DC power board. Overview Table 3-246 Basic information about the ES5M0PSD1700 Item Details Description 170W DC power module Part Number 02310GBM Model ES5M0PSD1700 Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 204 40.2 mm x 60 mm x 195.4 mm (1.58 x D) [mm(in.)] in. x 2.36 in. x 7.69 in.) Weight without packaging [kg(lb)] 0.65 kg (1.43 lb) Number of inputs Rated input voltage [V] –48 V/–60 V Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 205 Panel Table 3-251 Indicators on the TNCM000PIU00 Silkscreen Name Color Status Description PWRA First power green The power is input status accessed. indicator Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 206 Rated input voltage [V] –48 V/–60 V Input voltage range [V] -38.4 V to -72 V Maximum input current [A] Rated output voltage [V] -48 V/-60 V Rated output current [A] Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 207 Power dissipation Mode Air cooling Type of power cables 4mm^2(10m) 3.4 Fan Module The fan board exhausts hot air for heat dissipation. 3.4.1 NECD001FAN00 (NE05E-S2 FAN Unit) Overview Table 3-254 Basic information about the NECD001FAN00 Item Details Description NE05E-S2 FAN Unit...
Page 208 Dimensions without packaging (H x W 42.0 mm x 28.5 mm x 217.6 mm (1.65 x D) [mm(in.)] in. x 1.12 in. x 8.57 in.) Weight without packaging [kg(lb)] 0.2 kg (0.44 lb) Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 209 Low speed: 2.3 W Medium speed: 8.4 W High speed: 17 W 3.4.2 NEDM000FAN00 (NE08E-S6E FAN) Overview Table 3-258 Basic information about the NEDM000FAN00 Item Details Description NE08E-S6E FAN Part Number 03032CDF Model NEDM000FAN00 Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 211 Hardware Guide 3 Hardware Description Figure 3-65 Appearance of NEDM000FAN00 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 212 Intelligently adjusts the rotating speed of fans to ensure proper heat dissipation of the system. ● Reports information about the fan rotating speed, environment temperature, alarms, version number, and board in-position information. ● Provides alarm indicators. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 213 Medium speed: 10.6 W High speed: 72 W 3.4.3 NEJD002FAN00 (NE08E-S9 FAN Board) Overview Table 3-262 Basic information about the NEJD002FAN00 Item Details Description NE08E-S9 FAN Board Part Number 02312BDQ Model NEJD002FAN00 Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 215 Panel Table 3-263 Indicators on the NEJD002FAN00 Silkscreen Name Color Status Description Fan status green The fans are indicator working normally. The fans are working abnormally. The fans are not powered. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 216 Low speed: 8.8 W Medium speed: 26 W High speed: 154 W 3.5 Optical Module 3.5.1 Understanding Pluggable Optical Modules 3.5.1.1 Optical Module Structure Figure1 shows the structure of an optical module. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 217 SFP modules and the cages for SFP+ modules on a card are tighter. – XFP: X is the Roman numeral 10, meaning that all XFP optical modules provide a 10 Gbit/s transmission rate. XFP optical modules support LC Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 218 (CWDM) and dense wavelength division multiplexing (DWDM). Within the same band, DWDM modules are available in more types and use Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 219 The following lists some common optical modules, which may not be supported by this product. The figures are for reference only. Table 3-266 Commonly used optical modules Encaps Interface Appearance ulatio type n type Single-fiber-bidirectional transceiver RJ45 1Gbps Electrical Module Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 220 HUAWEI NE05E,NE08E 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 221 HUAWEI NE05E,NE08E 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 224 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 225 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 3-72 The tab is closed Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 226 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 227 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 228 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 229 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 230 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 231 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 232 (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 233 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 235 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 236 This table is for reference only. BOM numbers of attenuators vary with configuration documents. 3.5.2 2.048Mbps SFP Optical Module 3.5.2.1 2Mbps-eSFP-SMF-1310nm-2km-commercial Table 3-274 2Mbps-eSFP-SMF-1310nm-2km-commercial specifications Item Value Basic Information Module name 2Mbps-eSFP-SMF-1310nm-2km- commercial Part Number 34060588 Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 237 Receiver Optical Characteristics Rx operating wavelength range [nm] 1100 nm - 1600 nm Rx sensitivity (AVG) [dBm] -26 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 238 Tx operating wavelength range [nm] 1480 nm - 1580 nm Maximum Tx optical power (AVG) 0 dBm [dBm] Maximum Tx optical power (OMA) [dBm] Minimum Tx optical power (AVG) -5 dBm [dBm] Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 239 -40°C to 85°C(-40°F to 185°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 Target transmission distance [km] 15 km Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 240 3.5.3.3 155Mbps-eSFP-SMF-1310nm-40km-industry Table 3-277 155Mbps-eSFP-SMF-1310nm-40km-industry specifications Item Value Basic Information Module name 155Mbps-eSFP-SMF-1310nm-40km- industry Part Number 34060308 Model eSFP-1310nm-L-1.1 Form factor eSFP Application standard ITU-T G.957, STM-1 Connector type Optical fiber type Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 241 1263 nm - 1360 nm Rx sensitivity (AVG) [dBm] -34 dBm Rx sensitivity (OMA) [dBm] Overload power (AVG) [dBm] -10 dBm Overload power (OMA) [dBm] 3.5.3.4 155Mbps-eSFP-SMF-1550nm-80km-industry Table 3-278 155Mbps-eSFP-SMF-1550nm-80km-industry specifications Item Value Basic Information Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 242 Minimum Tx optical power (OMA) [dBm] Minimum extinction ratio [dB] 10.5 dB Receiver Optical Characteristics Rx operating wavelength range [nm] 1263 nm - 1580 nm Rx sensitivity (AVG) [dBm] -34 dBm Rx sensitivity (OMA) [dBm] Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 243 Transmitter Optical Characteristics Center wavelength [nm] 1310 nm Tx operating wavelength range [nm] 1263 nm - 1360 nm Maximum Tx optical power (AVG) 0 dBm [dBm] Maximum Tx optical power (OMA) [dBm] Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 244 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 ESD(HBM1) [V] 500 V Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 245 Overload power (OMA) [dBm] -10 dBm 3.5.3.7 155Mbps-eSFP-SMF-1310nm-15km-commercial Table 3-281 155Mbps-eSFP-SMF-1310nm-15km-commercial specifications Item Value Basic Information Module name 155Mbps-eSFP-SMF-1310nm-15km- commercial Part Number S4015755 Model eSFP-FE-LX-SM1310 Form factor eSFP Application standard ITU-T G.957, STM-1 Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 246 1260 nm - 1580 nm Rx sensitivity (AVG) [dBm] -28 dBm Rx sensitivity (OMA) [dBm] Overload power (AVG) [dBm] -8 dBm Overload power (OMA) [dBm] -8 dBm 3.5.4 1Gbps Electrical Module Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 247 Target transmission distance [km] 0.1 km Receiver Optical Characteristics Overload power (OMA) [dBm] 3.5.4.2 1Gbps-SFP-100m-industry (S4017306) Table 3-283 1Gbps-SFP-100m-industry specifications Item Value Basic Information Module name 1Gbps-SFP-100m-industry Part Number S4017306 Model OEGD10N02 Form factor Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 248 OSG080N01 Form factor eSFP Application standard IEEE 802.3, 1000BASE-ZX 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 249 Overload power (AVG) [dBm] -3 dBm Overload power (OMA) [dBm] NOTE The interface standard is Huawei-specific. 3.5.5.2 1.25Gbps-eSFP-MMF-850nm-500m-extended (34060286) Table 3-285 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 250 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 251 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 252 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] 100 km Transmitter Optical Characteristics Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 253 3.5.5.5 1.25Gbps-eSFP-SMF-1310nm-40km-industry Table 3-288 1.25Gbps-eSFP-SMF-1310nm-40km-industry specifications Item Value Basic Information Module name 1.25Gbps-eSFP-SMF-1310nm-40km- industry Part Number 34060320 Model eSFP-1310nm-Lx-40Km Form factor eSFP Application standard IEEE 802.3, 1000BASE-EX Connector type Optical fiber type Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 254 1275 nm - 1350 nm Rx sensitivity (AVG) [dBm] -23 dBm Rx sensitivity (OMA) [dBm] Overload power (AVG) [dBm] -3 dBm Overload power (OMA) [dBm] 3.5.5.6 1.25Gbps-eSFP-SMF-1550nm-120km-industry Table 3-289 1.25Gbps-eSFP-SMF-1550nm-120km-industry specifications Item Value Basic Information Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 255 Minimum Tx optical power (OMA) [dBm] Minimum extinction ratio [dB] 9 dB Receiver Optical Characteristics Rx operating wavelength range [nm] 1250 nm - 1620 nm Rx sensitivity (AVG) [dBm] -32 dBm Rx sensitivity (OMA) [dBm] Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 256 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] Maximum Tx optical power (OMA) [dBm] Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 257 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 ESD(HBM1) [V] 500 V Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 258 Overload power (OMA) [dBm] -3 dBm 3.5.5.9 1.25Gbps-eSFP-MMF-850nm-500m-extended (S4016955) Table 3-292 1.25Gbps-eSFP-MMF-850nm-500m-extended specifications Item Value Basic Information Module name 1.25Gbps-eSFP-MMF-850nm-500m- extended Part Number S4016955 Model OMU0D5002 Form factor eSFP Application standard IEEE 802.3, 1000BASE-SX Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 259 760 nm - 860 nm Rx sensitivity (AVG) [dBm] -17 dBm Rx sensitivity (OMA) [dBm] Overload power (AVG) [dBm] 0 dBm Overload power (OMA) [dBm] 0 dBm 3.5.6 1.25Gbps SFP BIDI Optical Module Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 260 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] Minimum extinction ratio [dB] 9 dB Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 261 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] 10 km Transmitter Optical Characteristics Center wavelength [nm] 1490 nm Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 262 3.5.7 1.25Gbps eSFP BIDI Optical Module 3.5.7.1 1.25Gbps-eSFP-SMF-1310nm-10km-commercial(34060470) Table 3-295 1.25Gbps-eSFP-SMF-1310nm-10km-commercial(34060470) specifications Item Value Basic Information Module name 1.25Gbps-eSFP-SMF-1310nm-10km- commercial(34060470) Part Number 34060470 Model SFP-GE-LX-SM1310-BIDI Form factor eSFP Application standard IEEE 802.3ah, 1000Base-BX10-U Connector type Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 263 1480 nm - 1500 nm Rx sensitivity (AVG) [dBm] -19.5 dBm Rx sensitivity (OMA) [dBm] Overload power (AVG) [dBm] -3 dBm Overload power (OMA) [dBm] NOTE Used in pair with 34060475. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 264 -3 dBm [dBm] Maximum Tx optical power (OMA) [dBm] Minimum Tx optical power (AVG) -9 dBm [dBm] Minimum Tx optical power (OMA) [dBm] Minimum extinction ratio [dB] 6 dB Receiver Optical Characteristics Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 265 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 Center wavelength [nm] 1310 nm Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 266 Item Value Basic Information Module name 1.25Gbps-eSFP-SMF-1490nm-40km- commercial Part Number 34060540 Model OGEBIDI40 Form factor eSFP Application standard IEEE 802.3ah, 1000Base-BX40-D Connector type Optical fiber type Bit error ratio (BER) <1x10E-12 Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 267 1260 nm - 1360 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 34060539. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 268 4 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 Receiver Optical Characteristics Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 269 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 Transmitter Optical Characteristics Center wavelength [nm] 1490 nm Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 270 3.5.8 1.25Gbps eSFP CWDM Optical Module 3.5.8.1 1.25Gbps-eSFP-SMF-1571nm-80km-commercial Table 3-301 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 Form factor eSFP Application standard ITU-T G.957, STM-16 Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 271 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 272 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 273 500 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 274 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 275 Rx sensitivity (OMA) [dBm] Overload power (AVG) [dBm] -9 dBm Overload power (OMA) [dBm] 3.5.8.5 1.25Gbps-eSFP-SMF-1611nm-80km-commercial Table 3-305 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 276 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 277 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 278 500 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 279 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 280 -28 dBm Rx sensitivity (OMA) [dBm] Overload power (AVG) [dBm] -9 dBm Overload power (OMA) [dBm] 3.5.9 10Gbps SFP+ Optical Module 3.5.9.1 10Gbps-SFP+-SMF-1550nm-80km-commercial Table 3-309 10Gbps-SFP+-SMF-1550nm-80km-commercial specifications Item Value Basic Information Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 281 Minimum Tx optical power (OMA) [dBm] Minimum extinction ratio [dB] 9 dB Receiver Optical Characteristics Rx operating wavelength range [nm] 1260 nm - 1565 nm Rx sensitivity (AVG) [dBm] -24 dBm Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 282 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. 3.5.9.2 10Gbps-SFP+-MMF-850nm-0.1km-industry Table 3-310 10Gbps-SFP+-MMF-850nm-0.1km-industry specifications Item...
Page 283 Part Number 02310WRF Model OSX040N08 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)] -40°C to 85°C(-40°F to 185°F) Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 284 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 285 0.5 dBm [dBm] Maximum Tx optical power (OMA) -5.2 dBm [dBm] Minimum Tx optical power (AVG) -8.2 dBm [dBm] Minimum Tx optical power (OMA) [dBm] Minimum extinction ratio [dB] 3.5 dB Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 286 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] 0.3 km(OM3) Transmitter Optical Characteristics Center wavelength [nm] 850 nm Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 287 Part Number S4017483 Model OSX001002 Form factor SFP+ Application standard IEEE 802.3ae, 10GBASE-LR/LW 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 288 Rx sensitivity (AVG) [dBm] -14.4 dBm Rx sensitivity (OMA) [dBm] -12.6 dBm Overload power (AVG) [dBm] 0.5 dBm Overload power (OMA) [dBm] 0.5 dBm 3.5.9.7 10Gbps-SFP+-SMF-1550nm-40km-commercial Table 3-315 10Gbps-SFP+-SMF-1550nm-40km-commercial specifications Item Value Basic Information Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 289 Minimum Tx optical power (OMA) [dBm] Minimum extinction ratio [dB] 3 dB Receiver Optical Characteristics Rx operating wavelength range [nm] 1530 nm - 1565 nm Rx sensitivity (AVG) [dBm] -15.8 dBm Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 290 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 9.953 Gbit/s 10.3125 Gbit/s Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 291 Overload power (AVG) [dBm] -1 dBm Overload power (OMA) [dBm] -1 dBm 3.5.10.2 1.25/9.953/10.3125Gbps-SFP+-SMF-1310nm-10km-commercial Table 3-317 1.25/9.953/10.3125Gbps-SFP+-SMF-1310nm-10km-commercial specifications Item Value Basic Information Module name 1.25/9.953/10.3125Gbps-SFP+- SMF-1310nm-10km-commercial Part Number 34061042 Model OSX010N13 Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 292 Minimum extinction ratio [dB] GE: 9 dB 10GE: 3.5 dB Receiver Optical Characteristics Rx operating wavelength range [nm] 1260 nm - 1360 nm Rx sensitivity (AVG) [dBm] GE: -19 dBm 10GE: -14.4 dBm Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 293 ESD(HBM1) [V] 500 V Transmission rate [bit/s] 1.25 Gbit/s 9.953 Gbit/s 10.3125 Gbit/s Target transmission distance [km] GE: 40 km 10GE: 40 km Transmitter Optical Characteristics Center wavelength [nm] 1550 nm Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 294 3.5.11 10Gbps SFP+ CWDM Optical Module 3.5.11.1 10Gbps-SFP+-SMF-1511nm-70km-commercial Table 3-319 10Gbps-SFP+-SMF-1511nm-70km-commercial specifications Item Value Basic Information Module name 10Gbps-SFP+-SMF-1511nm-70km- commercial Part Number 34060686 Model OSX070001 Form factor SFP+ Application standard IEEE 802.3ae, 10GBASE-X Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 295 Receiver Optical Characteristics Rx operating wavelength range [nm] 1460 nm - 1620 nm Rx sensitivity (AVG) [dBm] -23 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 296 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 297 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] 1491 nm Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 298 Part Number 34060689 Model OSX070004 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 299 1460 nm - 1620 nm Rx sensitivity (AVG) [dBm] -23 dBm Rx sensitivity (OMA) [dBm] Overload power (AVG) [dBm] -7 dBm Overload power (OMA) [dBm] 3.5.11.5 10Gbps-SFP+-SMF-1551nm-70km-commercial Table 3-323 10Gbps-SFP+-SMF-1551nm-70km-commercial specifications Item Value Basic Information Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 300 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 301 Target transmission distance [km] 70 km Transmitter Optical Characteristics Center wavelength [nm] 1571 nm Tx operating wavelength range [nm] 1564.5 nm - 1577.5 nm Maximum Tx optical power (AVG) 4 dBm [dBm] Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 302 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 303 Rx sensitivity (OMA) [dBm] Overload power (AVG) [dBm] -7 dBm Overload power (OMA) [dBm] 3.5.11.8 10Gbps-SFP+-SMF-1611nm-70km-commercial Table 3-326 10Gbps-SFP+-SMF-1611nm-70km-commercial specifications Item Value Basic Information Module name 10Gbps-SFP+-SMF-1611nm-70km- commercial Part Number 34060693 Model OSX070008 Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 304 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 305 Tx operating wavelength range [nm] 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] Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 306 -40°C to 85°C(-40°F to 185°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 307 Overload power (OMA) [dBm] 3.5.12.3 10Gbps-SFP+-SMF-1330nm-40km-commercial Table 3-329 10Gbps-SFP+-SMF-1330nm-40km-commercial specifications Item Value Basic Information Module name 10Gbps-SFP+-SMF-1330nm-40km- commercial Part Number 34060917 Model OSX040B02 Form factor SFP+ Application standard IEEE 802.3ae, 10GBASE-BX40-D Connector type Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 308 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 309 Maximum Tx optical power (AVG) 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] 3.5 dB Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 310 0°C to 70°C(32°F to 158°F) DDM options SFF-8636 Environment standard RoHS Security standard FCC Class B, IEC 60825-1 Class 1 CE Class B ESD(HBM1) [V] 1000 V Transmission rate [bit/s] 53.125 Gbit/s Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 311 WDM device is longer than 50 ms. 3.5.13.2 50Gbps-QSFP28-SMF-1311nm-40km-commercial Table 3-332 50Gbps-QSFP28-SMF-1311nm-40km-commercial specifications Item Value Basic Information Module name 50Gbps-QSFP28-SMF-1311nm-40km- commercial Part Number 02312AXF Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 312 Receiver Optical Characteristics Rx operating wavelength range [nm] 1304.5 nm - 1317.5 nm Rx sensitivity (AVG) [dBm] Rx sensitivity (OMA) [dBm] -15 dBm Overload power (AVG) [dBm] -3 dBm Overload power (OMA) [dBm] Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 313 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-8636 Environment standard RoHS Security standard FCC Class B, IEC 60825-1 Class 1 Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 314 2. The optical power calculation is based on the OMA value. 3. The optical module can be connected only to the optical module with the same BOM number. 3.5.14 50Gbps QSFP28 BIDI Optical Module Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 315 Maximum Tx optical power (AVG) 4.2 dBm [dBm] Maximum Tx optical power (OMA) 4 dBm [dBm] Minimum Tx optical power (AVG) -4.5 dBm [dBm] Minimum Tx optical power (OMA) -1.5 dBm [dBm] Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 316 Bit error ratio (BER) <1x10E-12(after FEC) <2x10E-4(before FEC) Working case temperature [°C(°F)] 0°C to 70°C(32°F to 158°F) DDM options SFF-8636 Environment standard RoHS Security standard FCC Class B, IEC 60825-1 Class 1 Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 317 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. 3.5.14.3 50Gbps-QSFP28-SMF-1295nm(Tx)/1309nm(Rx)-40km-commercial Table 3-336 50Gbps-QSFP28-SMF-1295nm(Tx)/1309nm(Rx)-40km-commercial specifications Item Value Basic Information Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 318 Minimum Tx optical power (OMA) 4.5 dBm [dBm] Minimum extinction ratio [dB] 6 dB Receiver Optical Characteristics Rx operating wavelength range [nm] 1308.09 nm - 1310.19 nm Rx sensitivity (AVG) [dBm] -15 dBm Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 319 Basic Information Module name 50Gbps-QSFP28-SMF-1309nm(Tx)/ 1295nm(Rx)-40km-commercial Part Number 02312EVY Model QSFP28-50G-BIDI-40km-SM-1 Form factor QSFP28 Application standard IEEE 802.3bm-2015, 50GBASE-BR40 Connector type Optical fiber type Bit error ratio (BER) <1x10E-12(after FEC) <2x10E-4(before FEC) Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 320 Rx operating wavelength range [nm] 1294.53 nm - 1296.59 nm Rx sensitivity (AVG) [dBm] -15 dBm Rx sensitivity (OMA) [dBm] -13.5 dBm Overload power (AVG) [dBm] -3 dBm Overload power (OMA) [dBm] Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 321 AE 905S module equipped, the device will be able to support 1588v2. Figure1 Figure2 illustrate the appearance of an AE 905S module. Figure 3-77 AE 905S module (front view) Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 322 Figure 3-78 AE 905S module (rear view) NO TE An AE 905S module must be inserted into a GE optical interface of SFP type. The AE 905S module has a STAT indicator under the HUAWEI logo. Table 1 describes STAT indicator states.
Page 323 A maximum of two AE 905S modules can be installed on a device. Figure 3 illustrates connections between the AE 905S module, surge protector, and antenna. Figure 3-79 Connections between the AE 905S module, surge protector, and antenna Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 324 NO TE For details about how to install the GPS satellite antenna system, see the GPS quick installation guide. Connect a two-sided female connector to the Protect interface of the surge protector. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 325 Protect interface of the surge protector are connected and fasten cable ties at both ends. Install the GPS support on the left or right side of the cabinet and tighten the four screws. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 326 GND interface of the surge protector and the other end to the ground point inside the cabinet. NO TE The surge protector must use OT M8 terminals. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 327 Figure 3-81 shows the appearance of the power cable. Table 3-340 provides the technical specifications of the power cable. Figure 3-81 Appearance of the power cable Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 328 Figure 3-82 shows the appearance of the power cable. Table 3-341 provides the technical specifications of the power cable. Figure 3-82 Appearance of the power cable Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 329 DC power cable used for an indoor device and Table 3-342 lists the technical specifications of the DC power cable. Figure 3-83 Appearance of the BGND cable Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 330 AC power cables are used to provide external power supplies for the NE. Figure 3-85 shows the appearance of the AC power cable used for an NE and Table 3-343 lists the technical specifications of the AC power cable. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 331 EDCh PGND cable consists of a cable and one or two OT terminals. Figure 3-86 shows the appearance of the PGND cable and Table 3-344 lists the technical specifications of the PGND cable. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 332 Transmit negative of the Ethernet NM interface Receive positive of the Ethernet NM interface Receive negative of the Ethernet NM interface Console ground end Console receive end Unspecified Console transmit end Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 333 Console cable consists of a RS-232 serial cable and a serial adapter cable, as shown in Figure 3-87.For NE08E-S9, whose main control board has independent CONSOLE interface, thus the serial cable can directly connect with CONSOLE interface. Figure 3-87 Console cables Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 334 Console Cables A console interface uses RS-232 serial cables to achieve communication between an NE device and an NMS. Figure 3-88 shows the appearance of console cables. Figure 3-88 Console cables Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 335 Figure 3-89 Structure of the alarm input/output cable Pin Assignment Table 3-350 lists the pin assignment of the alarm input/output alarm cable connector. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 336 The external clock cables can be connected to the CLK, and TOD interfaces on an device. Structure Figure 3-90 shows the structure of the RJ45 connector used on the external clock cable. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 337 Description r Pin 1PPS + Time DCLS Mode Information Mode White- Twisted pair Unspecified Unspecified orange Orange Unspecified Unspecified White- Twisted pair Negative of 1PPS Negative of DCLS green signals signals Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 338 Table 3-355 Technical specifications of the external non-shielded clock cable Item Specification Connector Network Interface Connector,8-Bit 8Pin,Non-Shielded,Crystal Plug Cable type Twisted-Pair Cable,100ohm,,Category 5e UTP,0.51mm(0.0200 in.), 24AWG,8Cores,PANTONE 430U Number of Eight cores Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 339 X1.4 Blue Twisted pair X1.5 White X1.3 Green Twisted pair X1.6 White X1.7 White Twisted pair X1.8 Brown Technical Specifications Table 3-357 lists the technical specifications of the clock bridging cables. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 340 Ethernet service interfaces as required. Ethernet cables need to be made on site. Structure Figure 3-92 shows the appearance of the shield layer. Figure 3-92 Appearance of the shield layer Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 341 For a crossover cable, pins 1 and 2 of the RJ45 connector at one end must be cross- connected to pins 3 and 6 of the RJ45 connector at the other end respectively. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 342 Twisted X1.4 X2.7 Blue Twisted pair pair X1.5 X2.5 White-blue X1.5 X2.8 White-blue X1.7 X2.7 White- Twisted X1.7 X2.4 White- Twisted brown pair brown pair X1.8 X2.8 Brown X1.8 X2.5 Brown Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 343 Structure Figure 3-96 shows the appearance of the 75-ohm 16 x E1 cable (Anea 96F-I). Figure 3-97 shows the structure of the cable. Figure 3-98 shows the core of the cable. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 344 Figure 3-97 Structure of the 75-ohm 16 x E1 cable (Anea 96F-I) Figure 3-98 Core of the cable Pin Assignment Table 3-362 lists the pin assignment of the 75-ohm 16 x E1 cable (Anea 96F- I)connector. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 345 Cable Cable Remarks Seri Seri Ring Ring Ring Ring Ring Ring Ring Ring Ring Ring Ring Ring Ring Ring Ring Ring Ring Ring Ring Ring Ring Ring Ring Ring Ring Ring Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 346 5 m, 10 m, 15 m, 20 m, 25 m, 30 m, 35 m, 40 m, 45 m, 50 16.40 ft.,32.80 ft.,49.21 ft.,65.62 ft.,82.02 ft.,98.42 ft., 114.83 ft.,131.23 ft.147.64 ft.,164.04 ft. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 347 Figure 3-101 shows the core of the cable. Figure 3-99 Appearance of the 75-ohm 16 x E1 cable Figure 3-100 Structure of the 75-ohm 16 x E1 cable Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 348 Table 3-364 Pin assignment of the 75-ohm E1 cable connector Cable Cable Remarks Seri Seri Ring Ring Ring Ring Ring Ring Ring Ring Ring Ring Ring Ring Ring Ring Ring Ring Ring Ring Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 349 And Shielding Case, IDC Type, For 28-30 AWG Solid Wire, Cable type Coaxial Cable, SYFVZP-MC 75-1-1*32, 75 ohm, 12.40 mm(0.49 in.), 1.1 mm(0.04 in.), 0.26 mm(0.01 in.), Pantone Warm Gray 1U, Only for OEM Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 350 120-ohm 16 x E1 cable (Anea 96F-I) Figure 3-103 shows the structure of the cable. Figure 3-102 Appearance of the 120-ohm 16 x E1 cable (Anea 96F-I) Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 351 Pin Core Bundle Core Bundle White Blue White Blue Blue Orange White White Green Brown White Grey Blue Orange Green Brown Grey Black Black Blue Orange Black Black Green Brown Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 352 Cable Connector, Anea, 96PIN, Suite Of Female Connector And Shielding Case, IDC Type, For 24-26 AWG Solid Wire - Cable type Twisted-Pair Cable, 120 ohm, SEYVP, 0.4 mm(0.02 in.), 26AWG, 32Pairs, Pantone 430U Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 353 120-ohm 16 x E1 cable (Anea 96F-II) Figure 3-105 shows the structure of the cable. Figure 3-104 Appearance of the 120-ohm 16 x E1 cable Figure 3-105 Structure of the 120-ohm 16 x E1 cable Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 354 Orange Green Brown Grey Black Black Blue Orange Black Black Green Brown Black Yellow Grey Blue White Orange White Orange Blue Orange White White Green Brown White Grey Blue Orange Green Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 355 The single-mode optical fiber is yellow, and the multi-mode optical fiber is orange. Figure 3-106 shows the appearance of a single-mode optical fiber. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 356 Plug-in square fiber connector/protruding polished SC/PC connector Square fiber connector/ protruding polished FC/PC connector Round fiber connector/ protruding polished 3.7 Equipment Support NEs can work with various equipment to implement various applications. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 357 DC power distribution, and can provide a 7 U installation space for user devices. Figure 3-107 Figure 3-108 show the appearance and internal structure of an APM30H outdoor cabinet. Figure 3-107 Appearance of an APM30H outdoor cabinet Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 358 2 U installation space is for the NE and the external 1 U installation space is for a power supply device. Figure 3-109 Figure 3-110 show the appearance and structure of an IMB network cabinet. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 359 Dimensions (H x W x D) 560 mm x 180 mm x 425 mm Available installation 3 U (1 U = 44.45 mm) space Allowable internal heat ≤ 300 W consumption Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 360 Table 3-373 Technical specifications of the 19-inch open rack Item Specifications Dimensions (H x W x D) 2,200 mm x 600 mm x 600 mm Available installation 45 U (1 U = 44.45 mm) space Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 361 The N63E-22 cabinet has a height of 2.2 m. Figure 3-112 shows the appearance of a N63E-22 cabinet. Figure 3-112 Appearance of a N63E-22 cabinet Table 3-374 lists the technical specifications of the N63E-22 cabinet. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 362 Figure 3-113 shows the appearance of the R01S100 outdoor cabinet. The cabinet shell is a galvanized steel plate with the coating of polyester powder, well protecting the cabinet against corrosion. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 363 The R01S100 outdoor cabinet provides a 4 U installation space, with the inner 2 U for the power distribution box and power system and the outer 2 U for the NE. Figure 3-114 shows the internal structure of the R01S100 outdoor cabinet. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 365 Figure 3-115 shows the appearance of the R01S200 outdoor cabinet. The cabinet shell is a galvanized steel plate with the coating of polyester powder, well protecting the cabinet against corrosion. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 366 The R01S200 outdoor cabinet provides a 6 U installation space, with the right 2 U for the power distribution box and power system and the left 2 U for the NE. Figure 3-116 shows the internal structure of the R01S200 outdoor cabinet. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 367 6 U (1 U = 44.45 mm) 265 mm height for the left 5 U and 170 mm height for the right 1 U Allowable internal heat ≤ 390 W/40 ºC (with solar radiation) consumption Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 368 Part Number Minimum Version Device Required 01072056 V300R001C10 NE08E-S6E 01072056 V300R005C00 NE05E-S2 Appearance Figure 3-117 Table 3-377 show the appearance and structure of an ETP4830-4815AF, respectively. Figure 3-117 Appearance of an ETP4830-4815AF Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 369 No alarm is generated. indicator Steady on The rectifier generates an alarm for power limiting due to ambient overtemperature. The rectifier generates an alarm for shutdown due to ambient overtemperature or undertemperature. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 370 Returns to the previous menu without saving the settings. Enter ● Enters the main menu from the standby screen. ● Enters a submenu from the main menu. ● Saves the menu settings. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 371 Output interface for load LOAD1 and LOAD2 provide DC power for two PIUs. For how to connect the load interfaces to LOAD2 Output interface for load Installation the PIUs, see the Guide . Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 372 Table 3-382 Relationships of the load output interfaces, interface for connecting to the storage batteries, and fuse Output Branch Fuse Load Branch FU-1 (20 A) LOAD1 (20 A) FU-2 (20 A) LOAD2 (20 A) FU-BT (20 A) BATT (20 A) Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 373 Battery Rated input 48 V input voltage Capacity 40 Ah Number of batteries Output -42 V DC - -58 V DC output voltage range Default -53.5 V DC output voltage Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 374 220 V AC power to -53.5 V DC power and supplies power to NE devices. When the 220 V AC input power supply fails, the embedded power module automatically changes to the lead acid battery, ensuring normal operation. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 375: Table 1
No alarm is generated. indicator Steady on The rectifier generates an alarm for power limiting due to ambient overtemperature. The rectifier generates an alarm for shutdown due to ambient overtemperature or undertemperature. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 376 PIUs. For how to connect the load interfaces to LOAD2 Interface Output interface for load the PIUs. Figure 3-119 Relationships of the AC input interfaces, load output interfaces, and air breakers Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 377 The following uses lead acid battery for short. Mapping between the lead acid battery and device Part Number Minimum Version Device Required 24020759 V300R001C10 NE08E-S6E 24020759 V300R001C10 NE05E-S2 Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 378 Maximum charge current 9.5 A (NP38-12RFR) (four batteries cascaded in 12 A (BPL40-12) a group) Operating temperature -15°C to +50°C (NP38-12RFR) -20°C to +50°C (BPL40-12) Weight ≤ 15 kg Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 379 A GPS surge protector is used to protect devices from overcurrent or overvoltage due to inducting lightning strokes introduced by feeders. Figure 3-122 shows the appearance of a GPS surge protector. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 380 A GPS antenna feeder is connected to a GPS antenna system to transmit GPS signals. Figure 3-123 shows the appearance of a GPS antenna feeder. Figure 3-123 GPS antenna feeder Table 3-390 lists the technical specifications of a GPS antenna feeder. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 381 HUAWEI NE05E,NE08E Hardware Guide 3 Hardware Description Table 3-390 Technical specifications of a GPS antenna feeder Technical Specification Value Working temperature -40ºC to +70ºC Characteristic impedance 20 KA Protection voltage 50 ohm Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 382 After determining that the installation is correct, you can power on the equipment and then check fiber connections. Table 4-1 lists the general installation process. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 383 Powering on the equipment capacity. After powering on the equipment, observe the indicators to determine whether the equipment runs properly. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 384 Installation Planning. Indoor For details on environment Running equipment where Wall in the installation environment can be temperature corridor mode, see installed in a and humidity 4.1.1.2.2 standard are partially Requirement Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 385 100% ations room, occasionally conditioners and mains are available, but sealing conditions are poor.) Public area inside a residential building such as a stairwell or cleaning tool room Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 386 Requirement source residential standard s for Running with only building outdoor Environment simple cabinet C and shields Installation such as Planning. awnings ● Place on the sea Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 387 Equipment Room Environment Requirements The equipment room where the router equipment is installed must be able to provide an equipment operating environment that meets the ETSI EN 300 019-1-3 class3.2 standard at least. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 388 Item Subitem Range Random vibration Acceleration 0.02 m Frequency ● 5 Hz to 10 Hz ● 10 Hz to 50 Hz ● 50 Hz to 100 Hz dB/oct -12 to +12 Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 389 Net height Minimum indoor height refers to the net height under the roof beam or under the ventilation pipe. Normally it is no less than 3 m. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 390 Internal The place where the equipment is installed is separated from partition wall the equipment room door. The partition wall can hold back some dusts, as be shown in Figure 4-2. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 391 PEF thermal insulation cotton can be used as a thermal insulation material. Figure 4-2 Internal partition wall of the equipment room Cleanliness of the Equipment Room This section describes the requirements for the cleanness of the equipment room. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 392 ● The concentrations of mechanically active substances meet the requirements defined in the following table. Mechanically Concentration Active Substance Suspended dust ≤ 5.00 mg/m Deposited dust ≤ 20.0 mg/(m ·h) Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 393 Item Description Temperature -40ºC to +70ºC (-40ºF to +158ºF) Relative humidity 5% to 100% Temperature ≤ 1ºC/min change rate Atmospheric 70 kPa to 106 kPa pressure Solar radiation ≤ 1120 W/m Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 394 ≤ 0.10 mg/m ≤ 1.0 mg/m ≤ 0.10 mg/m ≤ 0.50 mg/m ≤ 0.01 mg/m ≤ 0.05 mg/m To fulfill the above requirements, take the following measures for the equipment room: Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 395 ● Control the humidity in the room to reduce the impact from static electricity. ● Lay ESD floor in the room. ● Wear ESD shoes and uniforms before entering the room. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 396 The chassis, the AC neutral cable of the low- voltage side, and the metal jacket of the cable connected to the chassis should all proximately grounded. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 397 DC working neutral line, which is introduced from the general grounding bus line or the protection ground bar of the equipment room. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 398 In cold areas, the grounding body should be buried in the frozen layer or lower. Make regular monitor efforts on the grounding resistor to make sure the grounding is always valid. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 399 To deal with a long-term power outage, a diesel generator should be equipped as the standby AC power supply for the backbone transmission Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 400 56.4 V, it ally automatically charged changes to with a constant current 0.1 voltage mode, to 0.15 that is changes times of the charging status to battery floating charge. capacity. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 401 DC distributor and control panel ● The capacity of the primary power supply should be designed according to the power consumption of the transmission equipment of the terminal office, Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 402 ● In case short circuit occurs in a tributary of the power supply system, the whole power distribution system should not be affected by the sharp voltage reduction. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 403 They may affect the communication quality by causing cross-talk and stray noise, and even result in communication interruption. The electromagnetic interference (EMI) sources include: Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 404 Independent power supplies are recommended for them. ● EMI from the telecommunications line should be restrained. Influenced by high frequency electromagnetic field (external interference), high longitudinal Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 405 The building should have surge protector nets or bands installed at the positions susceptible to lightning strokes. Lightning prevention wires or lightning rods should be installed on the top of chimneys and antennas that Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 406 8 hours before being powered on. NO TE If the temperature difference is undetermined, wait one night before installing the equipment.If the temperature difference is undetermined, wait one night before installing the equipment. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 407 ● Air cleanness requirements – The air is free from explosive, electric-conductive, magnetic-conductive, or corrosive dust. – The concentrations of mechanically active substances meet the requirements defined in the following table. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 408 ≤ 50 kg) NOTE Shock response spectrum is a curve of the maximum acceleration responses generated by the equipment under specified impact excitation. Operating environment requirements Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 409 1ºC (1.8ºF) for every 220 m (721.78 ft) increase in altitude.) Temperature ≤ 0.5ºC/min change rate Wind speed ≤ 5 m/s Solar radiation ≤ 700 W/m Heat radiation ≤ 600 W/m ● Biological environment requirements Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 410 ≤ 0.05 mg/m ● Mechanical stress requirements Item Subitem Range Sinusoidal vibration Velocity ≤ 5 mm/s Acceleration ≤ 2 m/s Frequency ● 5 Hz to 62 Hz ● 62 Hz to 200 Hz Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 412 IP55 rating protection at least. A network cabinet installed indoors or in a corridor that is free from rain must meet the requirements of IP31 rating protection at least. For equipment at a customer site, it is recommended that the equipment be stored indoors. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 413 Corrosion Protection To ensure normal running of the equipment installed in environment B, concentration of corrosive gas must satisfy relevant requirements. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 414 When the equipment is installed in a network cabinet with natural heat dissipation, the air duct direction of the equipment needs to be consistent with the air duct direction of the network cabinet. The equipment can be installed horizontally or vertically. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 415 Dimensions (mm): H x W x D NE08E: NE08E: 100×580×500 200×580×500 NE05E: Air exhaust vents are close to the top of the network cabinet and air intake vents are close to the bottom of the network cabinet. Positions of the air vents on the...
Page 419 This can be directly ensures that exhausted out the heat air of the network can be directly cabinet. exhausted out ● If air vents are of the network blocked, the cabinet. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 423 For example, a fan tray assembly with dimensions of 120 mm x 120 mm x 25 mm generates 144 CFM air volume to the maximum. In this case, when the area of Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 424 5 kA (8/20 μs). If the building has installation environment with a dedicated grounding system, use the grounding system of the building directly to ground the Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 425 Figure 4-7 shows the grounding connections of the TN-C-S AC power system. Figure 4-7 Grounding connections of the TN-C-S AC power system Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 426 ) to connect all devices in the network cabinet to the ground bar of the network cabinet. Connect the ground bar to the network cabinet in an equipotential manner through a metallic structure. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 427 10 ohms. Protection Performance of the Network Cabinet The device is not waterproof. Therefore, when the device is installed indoors, install it in the network cabinet that is free from splashing water. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 428 4.1.1.2.3 Requirements for Running Environment C and Installation Planning In environment C, you need to install equipment in an outdoor cabinet with an air conditioner or heat exchanger. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 431 5. direction shall have no harmful effect 4.1.1.2.4 Basic Installation Specifications A correct installation mode is the prerequisite for ensuring that the ONU works normally. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 432 Do not use the cabinet that is not Ground subscriber cables in a unified waterproof outdoors. The protection way. rating of the outdoor cabinet must reach IP55. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 433 Ensure that the ventilation openings of The ends of the optical fiber that is the network cabinet are free of not used must be protected with obstacle. dustproof caps. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 434 Ensure that cable connectors and ports instead of using plastic or other parts, do not face upwards. use the mounting brackets and expansion bolts delivered with the device to fasten the device. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 435 4.1.1.3.1 Unpacking Inspection When a project starts, the project supervisor should work with the customer to unpack and inspect the delivered equipment. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 436 The outer package is severely damaged. ● There is water leakage on the outer package. Find the causes and provide feedback to the local representative office of Huawei. Step 3 Observe the labels on the carton to check the equipment configuration and take a record.
Page 437 See Figure 4-10. NO TICE Do not cut too deep into the carton with the paper knife. Otherwise, the knife might scratch the articles inside. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 438 Step 5 Check whether the board is physically damaged or is not in line with the packing list. Table 4-15 lists the checklist. In this case of any damage to the board, contact local representatives of Huawei. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 439 Equipment Problem Report and send it The project supervisor shall fill in the to the order management engineer of the local office of Huawei within three days. 4.1.1.3.2 Installing chassis The installation modes for chassis vary with installation environment.
Page 440 ● When installing the equipment in a 19-inch open rack, a 19-inch cabinet, or an N63E cabinet, see the "NE05E, NE08E Series Quick Installation Guide (19inch, and ETSI Cabinet)". ● When installing the equipment in an IMB network cabinet, see the "NE05E and NE08E...
Page 441 This section describes how to remove a board. Prerequisites The fibers or cables connected to the board must be removed. Tools, Instruments, and Materials ESD wrist strap, Phillips screwdriver, ESD box or ESD bag Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 442 ESD wrist strap, Phillips screwdriver Procedure Step 1 Cover the filler panel onto the empty slot. Step 2 Drive on the captive screws on the filler panel according to Figure 4-15. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 443 Step 1 On the chassis side, remove the fiber that connects to the OUT port of an optical interface board. Step 2 Connect the optical power meter to the OUT port of the optical interface through the fiber. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 444 General grounding specifications, as shown in Table 4-16. Table 4-16 General grounding specifications Description Working ground, protection ground (including shielding ground and lightning ground) should be bonded to the same grounding electrode. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 445 The PGND of the equipment should be connected to the nearby ground bar (user-supplied). Copper-core conducting cable with green-yellow plastic insulation cover should be used. The cross-sectional area of the conductive cable is required to be 25 mm or wider. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 446 Grounds of telecommunications equipment and office power in an equipment room should be bonded to the ground bar in the same equipment room. Surge-proof circuit should be added to DC power interface. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 447 This section introduces the Specifications for managing ground cables. Specifications for managing ground cables, as shown in Table 4-21. Table 4-21 Specifications for managing ground cables Description Ground cables should be routed separately with signal cables. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 448 The label's characteristic are as follows: ● Thickness: 0.09 mm ● Color: chalk white ● Material: Polyester (PET), with UL and CSA certifications ● Ambient temperature: - 29 to 149 degrees Celsius Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 449 Label for Power Cables The label for power cables should be attached to the identification plate on the cable ties that are bundled to the cable. The identification plate has an Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 450 Area 2 (with the mark "TO:") contains the location information of the opposite end of the cable. ● Area 3 has been folded up inside the label. Printed parts on the label for signal cables, as shown in Figure 4-18. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 451 Template for the Printing Template is available to print out the label. You can obtain the template by: ● Downloading the template from http://support.huawei.com. The directory of the template is Documentation > Engineering Service > Engineering Quality > Quality Standard and Template.
Page 452 Drag the mouse to select the cells to be merged and select the menu item Table > Merge Cells. Change the content based on the original thing. If two merged cells are still not enough to accommodate the characters, use multiple lines. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 453 When the cells are merged and the printouts are made in multiple lines, avoid covering the mark "TO:" when printing the texts by using the space bar to move the printing contents to the next line. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 454 The font size depends on the number of figures and letters. The words must be medium-sized, legible, tidy and good-looking. Writing direction Write the characters in proper size, and the direction is shown in Figure 4-21. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 455 Stick the label to the proper position on the cable, fold the narrow part of the label according to the directions shown in Figure 4-22. Figure 4-22 Sticking the label onto proper position of the signal cable 1. Cable 2. Label Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 458 Labels are not needed on the equipment side unless there is special requirement. In this case, only Area 2 of the label should be filled in. Table 4-24 shows the information on the labels of alarm box external cables. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 459 Ethernet cables that connect the boards in the frames. Table 4-25 Information on labels attached to the Ethernet cables Content Meaning Example MN-B-C-D MN: cabinet For example, A01 number Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 460 There are two types of labels for fibers: one is for the fiber that connects the optical interfaces on two devices, the other is for the fiber that connects the device and the optical distribution frame (ODF). Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 461: For Example, A01
T: optical transmitting interface Example of the Label Figure 4-27 shows the label on the fiber jumper between two devices: Figure 4-27 Example of the label on the fiber between two devices Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 462: Numbered In Bottom-Up Order With Two Digits, For Example
99 from left to right in order, for example, G01 is the ODF of Row G and Column 01. B: row number of the Range from 01 to 99, for terminal device example, 01-01 Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 463: C: Column Number Of The
DDF. Meaning of the Label Table 4-28 shows the information on both sides of the labels attached to the trunk cable that connects two devices. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 464: Table Of Contents
01 C: physical slot number Numbered in top-down and left-right order with two digits, for example, D: cable number Numbered in top-down and left-right order with two digits, for example, Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 465: R: Optical Receiving Interface
"G01-01-05-12-T" indicates that the local end of the trunk cable is connected to the transmitting terminal of Trunk Cable 12 on Slot 05, Frame 01 in the cabinet on Row G, Column 01 in the equipment room. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 466: Ddf
Any damage to the insulation layer of the conducting line is not allowed. ● The cable arrangement should take the future maintenance and capacity expansion into consideration. The Requirements of Bundling Describes the method and requirements of cable binding. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 467 When making turning for the bundled cable, keep the bend radius as big as possible to avoid breaking the cable cores at the turning. Figure 4-31 shows the specific operation of bundling. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 468 Introduction to Binding Straps The section describes the architecture and cutting of the binding strap. ?.1. Architecture The binding strap fulfills its locking function by cooperation of these two sides. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 469 You can use a pair of scissors if there is no cutterbar on site. Procedure Step 1 Install the binding strap on the plastic axis of the cutterbar, as shown in Figure 4-33. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 470 Bundling the Binding Strap This section describes how to bund the binding strap. ?.1. Procedures for Bundling the Binding Strap This procedure describes how to bind bundling of the binding strap Prerequisites None Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 471 Step 5 Turn the binding strap around the fiber bundle with appropriate strain till the mat side adhibits the hook side snugly, as shown in Figure 4-36. Figure 4-36 Step 3 of bundling optical fiber Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 472 ?.1. Assembling the Straight BNC Male Connector with the Coaxial Cable This section describes how to assemble the straight BNC male connector with the coaxial cable. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 473 4-39. The external conductor, insulation layer and internal conductor should be exposed as shown in Figure 4-39. Table 4-30 lists the recommended length of the reserved external conductor (L1), reserved insulation layer (L2) and stripped sleeve (L3). Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 474 1.6 mm 10-12 MC 75-1-1 SYFVZ-75- 2.2 mm 10-12 1-1(A) SYV-75-2- 3.9 mm 10-12 National trunk 155M-I SYV-75-4- 6.7 mm 10-12 National trunk 155M-III SFYV-75-2 3.2 mm 10-12 National trunk -II Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 475 If the diameter of the cable that matches the connector plug is 2.2 mm and that of the coaxial cable is 1.6 mm, twist the external conductors of the coaxial cable as one. You do not need to unfold the external conductor. Otherwise, it cannot be crimped tight. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 476 Step 5 Use a welding tool to weld the internal conductor of the coaxial cable with the internal conductor of the coaxial cable connector, as shown in Figure 4-44. Figure 4-44 Welding the internal conductor Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 477 Figure 4-46 Blowing the heat shrink tubing ----End ?.2. Assembling the L9-M Male Connector with the Coaxial Cable This section describes how to assemble the L9-M male connector with the coaxial cable. Prerequisites None Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 478 See Figure 4-48. Table 4-30 lists the recommended length of the reserved external conductor (L1), reserved insulation layer (L2) and stripped sleeve (L3). Figure 4-48 Stripping off the coaxial cable Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 479 10-12 National trunk 155M-III SFYV-75-2 3.2 mm 10-12 National trunk -II SFYV-75-2 4.4 mm 10-12 National trunk 155M-II Figure 4-49 Size of the connector and stripping size of the coaxial cable Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 480 Step 4 Insert the insulation layer and internal conductor into the connector of the coaxial cable. The external conductor of the coaxial cable partly wraps the external conductor of the connector, as shown in Figure 4-52. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 481 1.6 mm, crimp the external conductor of the coaxial cable twice by using the crimper with a jaw of 2.5 mm. That is, crimp the external connector, rotate it by 90 degree, and then crimp it again. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 482 Crimper (with a jaw of 2.5 mm) Coaxial cable, whose components are shown in Figure 4-55. Straight SMB female connector, whose components are shown in Figure 4-55. Figure 4-55 Straight SMB female connector and coaxial cable Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 483 L3 (mm) Remarks Type Diameter of the Label for Coaxial the NM Cable cable SYFVZP- 1.6 mm 10-12 MC 75-1-1 SYFVZ-75- 2.2 mm 10-12 1-1(A) SYV-75-2- 3.9 mm 10-12 National trunk 155M-I Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 484 If the diameter of the cable that matches the connector plug is 2.2 mm and that of the coaxial cable is 1.6 mm, twist the external conductors of the coaxial cable as one. You do not need to unfold the external conductor. Otherwise, it cannot be crimped tight. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 485 Step 5 Use a welding tool to weld the internal conductor of the coaxial cable with the internal conductor of the coaxial connector, as shown in Figure 4-61. Figure 4-61 Welding the internal conductor Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 486 Procedure Step 1 Set the multimeter to the resistance gear. Step 2 On the SMB connector side, connect the two probes of the multimeter to the internal and external conductors respectively. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 487 The commonly used network cables are classified into straight through network cables and crossover network cables based on the different pin assignments. Figure 4-64 shows the pin assignment of the straight through network cables. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 488 X1.4 X2.4 Blue Twisted pair X1.5 X2.5 White or blue X1.7 X2.7 White or brown Twisted pair X1.8 X2.8 Brown Figure 4-65 shows the pin assignment of the crossover network cables. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 489 White or blue X1.7 X2.7 White or brown Twisted pair X1.8 X2.8 Brown Figure 4-66 shows the pin assignment of the RJ45 connector. Figure 4-66 Pin assignment of the RJ45 connector Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 490 Network Network Twisted cable cable pair cable sleeve shield layer Procedure Step 1 Lead the network cable through the connector external sleeve A, as shown in Figure 4-68. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 491 ● When stripping the shield layer, do not scratch the insulation layer covering the twisted cores. Step 3 Lead the connector metal sleeve B through the twisted pair cable. The sleeve should envelop the shield layer F, as shown in Figure 4-70. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 492 Step 5 Lead the four pairs of twisted cables, which are marked in different colors, through the connector cable tray C respectively according to the colors. See Figure 4-72 Figure 4-73. Figure 4-72 Leading twisted pair cables through connector cable tray Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 493 See Figure 4-74 Figure 4-75. Figure 4-74 Aligning the four pairs of twisted cables on the connector cable tray Figure 4-75 Alignment of cores in different colors on the cable tray Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 494 Step 9 Move the connector metal shell B toward the connector body to envelop the connector body and connector cable tray. Then, use the crimper to crimp the connector, as shown in Figure 4-78. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 495 ?.3. Assembling the RJ45 connector with the Non-Shielded Ethernet Cable This section describes the materials of the RJ45 connector for the non-shielded Ethernet cable and procedures of assembling the RJ45 connector with the non- shielded Ethernet cable. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 496 Figure 4-81 Stripping the twisted pair cable Step 2 Align the twisted pairs in sequence and match the colors according to Figure 4-82. Cut the ends of the twisted pairs straight. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 497 Repeat Step 2. In Step 2, for the wire sequence, refer to the mapping relation of the crossover cables in Table 4-34. Repeat Step 3 to make the cable components at the other end. ----End Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 498 RJ45 connector with another well crimped RJ45 connector. Figure 4-84 Figure 4-85 show an unqualified RJ45 connector and a qualified RJ45 connector respectively. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 499 Step 2 Hold the RJ45 connector and slant it to a 45-degree angle. Side-glance the top edge of each metal contact slice. Figure 4-86 an unqualified RJ45 connector. Figure 4-86 Metal contact slices of inconsistent parallelism and height Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 500 If the RJ45 connector does not meet this requirement, replace the RJ45 connector and assemble the connector again. Otherwise, the RJ45 connector is intact. See Figure 4-89. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 501 3, 6, 1, 4, ,5 2, 7, 8 and G of the subsidiary end turns on in sequence. This indicates that the connectivity of the crossover cable is proper. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 502 ?.1. Assembling OT Terminals and Power Cables This section briefs the components of ring terminals and power cables, and describes the procedure for assembling them. Prerequisites none. Tools, Equipment and Materials Wire stripper Heat gun Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 503 The conductor D with length L1 appears, as shown Figure 4-92. The recommended values of L1 are shown in Table 4-35. Figure 4-92 Peeling a power cable Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 504 ● When peeling the insulation layer of a power cable, do not hurt the metal conductor of the cable. ● If the bare press-fitting terminal is not provided by Huawei, adapt the value of L1 according to the actual value L of the terminal. L1 = L + (1-2) mm.
Page 505 Step 5 Push the heat shrink tubing A towards the connector till the tube covers the press- fit part. Heat the heat shrink tubing using a heat gun, as shown in Figure 4-95. Figure 4-95 1-5 Heating a heat shrink tubing Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 506 Figure 4-96 Cord end terminal crimper Figure 4-97 Components of a cord end terminal and a power cable A Cold soldering terminal B Insulation layer of power C Conductor of power cable cable Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 507 1, 1.5, 2.5 Step 2 Put the cable conductor into the cord end terminal A. Align the conductor with the edge of the cord end terminal, as shown in Figure 4-99. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 508 The width of the tubular terminal after press-fit should be less than the maximum width described in Table 4-37 Table 4-37 Maximum width of tubular terminal after press-fit Cross-Sectional Area of Tubular Maximum Width of Terminal after Press-Fit(mm) Terminal(mm 0.25 Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 509 Cleaning fiber connectors is to remove dust or other dirt to avoid performance degradation of optical transmission systems. Figure 4-101 shows an optical fiber connector. Figure 4-101 Optical fiber connector Optical fiber connectors should be free of: Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 510 The optical fiber connectors must be stored in proper packages to keep them clean. ● Figure 4-102 shows the recommended protective caps, whereas Figure 4-103 shows the protective caps not recommended. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 511 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 Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 512 Dustfree absorbent swab (made of medical cotton or long fiber cotton) shown in Figure 4-105 Figure 4-106 Figure 4-104 CLETOP cassette cleaner Figure 4-105 Dustfree absorbent swabs for cleaning the SC and FC connectors Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 513 Otherwise, the equipment may be damaged or the service may be interrupted. Procedure Shut down the laser and disconnect the fiber end before inspecting the fiber connector. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 514: Huawei Ne05E,Ne08E
If the output power is unstable or out of the range, however, the defective fiber can cause damage to the equipment. Figure 4-108 Damaged or defective fiber end face Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 515 800-micrometer fiber cores. For details on acceptable and unacceptable fibers, see Figure 4-109, Figure 4-110 Figure 4-111. Figure 4-109 Clean fiber end face Figure 4-110 Acceptable fibers with imperfections Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 516 OTDR meter is used to test the optical path quality. Currently, the Ethernet port rate is increasing. Since the 50G optical module link uses the PAM4 encoding technology, there are higher requirements on the optical Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 517 Check whether the loss and reflection of each link and node are normal. (The loss of a fiber splicing connector should be less than 0.3 dB, the loss of a connector should be less than 0.75 dB, and the reflection Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 518 The following lists the required tools, equipment and materials for cleaning optical fiber connectors: ● CLETOP cassette cleaner ● Optical power meter ● 400X fiber microscope (A video fiber microscope is recommended.) Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 519 Press down and hold the lever of the cassette cleaner. The shutter slides back and exposes a new cleaning area. See Figure 4-112. Figure 4-112 Using the CLETOP cassette cleaner Place the fiber end face gently against the cleaning area. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 520 Do not drag the fiber end face on the same cleaning area more than once. Otherwise, the connector can be contaminated or damaged. Figure 4-113 Dragging the fiber end face gently on one cleaning area Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 521 Tools, Equipment, and Materials The following provides the required tools, equipment and materials: ● Optical power meter ● 400X fiber microscope (A video fiber microscope is recommended.) Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 522 Clean the fiber end face on the lens tissue. See Figure 4-115 Figure 4-116. NO TICE Drag the fiber end face on the same area in the lens tissue only once. Otherwise, the connector can be contaminated or damaged. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 523 Figure 4-116 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 524 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 525 Figure 4-117 Dustfree absorbent swabs for cleaning the SC and FC connectors Figure 4-118 Dustfree absorbent swabs for cleaning the LC connectors Put a little cleaning solvent on the dustfree absorbent swab. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 526 4.1.2.2 Basic Operation Process and Precautions To ensure that the device provides uninterrupted communication services for users, device parts are replaced when the power is on in most cases. Therefore, to ensure Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 527 NO TICE Huawei engineers need to obtain the telephone number of the GTAC to contact Huawei headquarters as soon as possible when an exception or a problem that Huawei engineers cannot locate or solve temporarily occurs.
Page 528 – Prepare spare parts. NO TICE Before replacing the chassis or control board, contact Huawei engineers to see if a license is required. You can apply for a license or use Stick License to activate some license control items. –...
Page 529 NO TE The operation is considered successful only when the new parts are proved to be running normally. Otherwise, contact Huawei technical support personnel. Return and repair the faulty parts. If a part that is replaced is faulty, maintenance personnel should fill in the Offsite Repair Card for Faulty Materials, and send the card and the faulty part to Huawei for timely maintenance.
Page 530 Avoid direct eye exposure to the laser beam launched from the optical interface board or fiber. NO TICE ● Before replacing the chassis, contact Huawei engineers to see if a license is required. You can apply for a license or use Stick License to activate some license control items.
Page 531 Role LsId Primary ------------------------------------------------------------------------------- Present Registered Normal OTHER 0 Present Registered Normal OTHER 0 Present Registered Normal OTHER 0 Present Registered Normal Master Present Registered Normal Slave Present Registered Normal OTHER 0 Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 532 NO TICE ● To ensure valid part replacement, when replacing the control board, contact Huawei engineers to determine whether a license needs to be applied for. You can apply for a license or use Stick License to activate some license control items.
Page 533 This requirement is to ensure that the replacement control board can work properly. If a spare control board's version is later than a control board to be replaced, contact Huawei technical support to determine whether this spare control board can be used and to obtain replacement guidance.
Page 534 OTHER 0 Present Registered Normal OTHER 0 Present Registered Normal Slave Present Registered Normal Master Present Registered Normal OTHER 0 Present Registered Normal OTHER 0 Present Registered Normal OTHER 0 ------------------------------------------------------------------------------- Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 535 NO TICE ● To ensure valid part replacement, when replacing the control board, contact Huawei engineers to determine whether a license needs to be applied for. You can apply for a license or use Stick License to activate some license control items.
Page 536 This requirement is to ensure that the replacement control board can work properly. If a spare control board's version is later than a control board to be replaced, contact Huawei technical support to determine whether this spare control board can be used and to obtain replacement guidance.
Page 537 After replacing a part, collect the tools. If the part is faulty, maintenance personnel should fill in the Offsite Repair Card for Faulty Materials, and send the card and the faulty part to Huawei for timely maintenance. 4.1.2.5 Replacing the PIC Board Impact on the System Replacing the PIC board will interrupt services for about three to five minutes.
Page 538 Hold the board's ejector levers and pull the board out of the slot along the guide rails. When the board is half out, hold the lower side of the board and steadily remove the other half. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 539 After replacing a part, collect the tools. If the part is faulty, maintenance personnel should fill in the Offsite Repair Card for Faulty Materials, and send the card and the faulty part to Huawei for timely maintenance. Issue 05 (2023-03-31)
Page 540 OTHER 0 Present Registered Normal OTHER 0 Present Registered Normal OTHER 0 Present Registered Normal OTHER 0 Present Registered Normal OTHER 0 Present Registered Normal OTHER 0 Present Registered Normal OTHER 0 Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 541 After replacing a part, collect the tools. If the part is faulty, maintenance personnel should fill in the Offsite Repair Card for Faulty Materials, and send the card and the faulty part to Huawei for timely maintenance. 4.1.2.7 Replacing the FAN Board Impact on the System If the FAN board has to be replaced, replace it quickly.
Page 542 After replacing a part, collect the tools. If the part is faulty, maintenance personnel should fill in the Offsite Repair Card for Faulty Materials, and send the card and the faulty part to Huawei for timely maintenance. 4.1.2.8 Replacing the Optical Module...
Page 543 Last physical up time : 2013-07-29 15:39:23 Last physical down time : 2013-07-29 15:38:41 Current system time: 2013-07-30 09:15:33 Statistics last cleared:never Last 300 seconds input rate: 23513 bits/sec, 2 packets/sec Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 544 Clamp the top and bottom sides of an LC/PC connector using hands or a fiber extractor and press the spring. Remove the fiber connector. Cover the fiber connector with a dust cap. Step 5 Pull out the optical module to be replaced. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 545 An optical module must not be inserted inversely. If you cannot completely insert an optical module into the interface, do not push it. Instead, you should reverse it and insert it into the interface again. Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 546 Broadcast: 585 packets JumboOctets: 0 packets Lost: 0 packets, Overflow: 0 packets, Underrun: 0 packets System: 0 packets, Overruns: 0 packets TxPause: 0 packets Last 300 seconds input utility rate: 0.01% Issue 05 (2023-03-31) Copyright © Huawei Technologies Co., Ltd.
Page 547 After replacing a part, collect the tools. If the part is faulty, maintenance personnel should fill in the Offsite Repair Card for Faulty Materials, and send the card and the faulty part to Huawei for timely maintenance. Issue 05 (2023-03-31)

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