background image

Figure A-64

 Metal contact strips of the same height

 

Step 2

Hold an RJ45 connector at 45° to better visualize its metal contact strips. Ensure that the top
edges of the metal contact strips are parallel. 

Figure A-65

 shows an unqualified connector

with uneven metal contact strips.

Figure A-65

 Uneven metal contact strips

 

Step 3

Check whether the metal contact strips are clean. If they are not clean and cannot be cleaned,
replace the RJ45 connector with a new one. 

Figure A-66

 shows an unqualified connector.

Figure A-66

 Dirty metal contract strip

 

Step 4

Check whether the metal contact strips and the plastic septa are aligned and intact. If a part is
skewed and it cannot be fixed, replace the RJ45 connector

Figure A-67

 shows an unqualified

connector with askew plastic septa.

HUAWEI USG9500 Series
Hardware Guide

A Appendix

Issue 03 (2017-12-15)

Huawei Proprietary and Confidential

Copyright © Huawei Technologies Co., Ltd.

462

Summary of Contents for USG9500 Series

Page 1: ...HUAWEI USG9500 Series V300R001 V500R001 Hardware Guide Issue 03 Date 2017 12 15 HUAWEI TECHNOLOGIES CO LTD ...

Page 2: ... be within the purchase scope or the usage scope Unless otherwise specified in the contract all statements information and recommendations in this document are provided AS IS without warranties guarantees or representations of any kind either express or implied The information in this document is subject to change without notice Every effort has been made in the preparation of this document to ens...

Page 3: ...replacement This document is intended for installation personnel and administrators who install and maintain USG The installation personnel or administrators must have experience in the installation and maintenance of networking devices Symbol Conventions The symbols that may be found in this document are defined as follows Symbol Description Indicates an imminently hazardous situation which if no...

Page 4: ...ace The keywords of a command line are in boldface Italic Command arguments are in italics Items keywords or arguments in brackets are optional x y Optional items are grouped in braces and separated by vertical bars One item is selected x y Optional items are grouped in brackets and separated by vertical bars One item is selected or no item is selected x y Optional items are grouped in braces and ...

Page 5: ...ollowing update l Added the description of the 1 4 4 15 Enhanced Application Security Service Processing Card A SPCA APPSEC FW l Added the description of the 1 4 4 16 Enhanced Application Security Service Processing Card B SPCB APPSEC FW Updates in Issue 02 2017 06 30 V500R001C60 The second commercial release has the following update Added the support of the 1 25 Gbit s SFP eSFP optical transceive...

Page 6: ...Plane 25 1 1 8 Technical Specifications 26 1 2 USG9560 29 1 2 1 Device Overview 29 1 2 2 USG9560 Components 31 1 2 3 Slot Layout and Supported Boards 33 1 2 4 Power Supply System 37 1 2 4 1 Features and Distributed Architecture of the Power Supply System 37 1 2 4 2 DC Power Supply System 38 1 2 4 3 AC Power Supply System 40 1 2 5 Heat Dissipation System 44 1 2 5 1 System Air Channel 44 1 2 5 2 Fan...

Page 7: ... 1 4 4 3 X8 X16 SPU SPU X8X16 B 117 1 4 4 4 Firewall Service Processing Unit SPU X3 20 O E8KE for USG9520 118 1 4 4 5 Firewall Service Processing Unit SPUA 20 O M for USG9520 120 1 4 4 6 Firewall Service Processing Unit SPUB 20 O M for USG9520 122 1 4 4 7 Firewall Service Processing Unit SPU X8X16 20 O E8KE for USG9560 USG9580 124 1 4 4 8 Firewall Service Processing Unit SPUA 20 O H for USG9560 US...

Page 8: ...W 1X100GE CFP 169 1 4 7 LPUF 101 and FPICs 171 1 4 7 1 LPUF 101 171 1 4 7 2 24 Port 100 1000 Base X SFP FPIC E8KE X 101 24XGE SFP 172 1 4 7 3 4 Port 10G Base LAN SFP FPIC E8KE X 101 4X10GE SFP 174 1 4 7 4 5 Port 10GBase LAN WAN SFP FPIC A E8KE X 101 5X10GE SFP 176 1 4 7 5 1 Port 40GBase LAN CFP FPIC A E8KE X 101 1X40GE CFP 178 1 4 8 LPUF 40 A and FPIC 179 1 4 8 1 LPUF 40 A 179 1 4 8 2 20 Port 100 ...

Page 9: ...ents 247 2 2 6 Installing Power Cables DC Power Distribution 250 2 2 7 Installing Power Cables AC Power Distribution 253 2 2 8 Connecting Network Cables 256 2 2 9 Connecting Optical Fibers 258 2 2 10 Post Installation Checklists 261 2 2 11 Powering On the USG9580 DC Power Distribution 262 2 2 12 Powering On the USG9580 AC Power Distribution 265 2 3 Installing USG9560 268 2 3 1 Preparing the Site 2...

Page 10: ...AC Power Distribution Guide 329 2 5 4 USG9520 Power Distribution Design Guide 331 2 5 4 1 DC Power Distribution Guide 331 2 5 4 2 AC Power Distribution Guide 333 3 Hardware Maintenance 335 3 1 Replacing Boards 336 3 1 1 Replacing an MPU SRU 336 3 1 2 Replacing an SFU 345 3 1 3 Replacing an LPU 349 3 1 4 Replacing an FPIC of the LPU 352 3 1 5 Replacing an SPU 356 3 1 6 Replacing the SPC of the SPU ...

Page 11: ...ble of the USG9580 426 A 1 2 2 AC Power Cable of the USG9560 428 A 1 2 3 AC Power Cable of the USG9520 429 A 1 3 PGND Cable 431 A 1 4 Console Cable 433 A 1 5 Auxiliary Port Cable 434 A 1 6 Ethernet Cable 436 A 1 7 Optical Fiber 441 A 2 On site Cable Assembly and Installation 444 A 2 1 Cable Assembly Precautions 444 A 2 2 Assembling Power Cables 445 A 2 2 1 Assembling the OT Terminal and the Power ...

Page 12: ...troduction to Labels 481 A 5 1 1 Label Specifications 481 A 5 1 2 Type and Structure 481 A 5 1 3 Label Printing 482 A 5 1 4 Writing Labels 484 A 5 1 5 Affixing Labels 485 A 5 1 6 Label Contents 487 A 5 1 7 Labeling Precautions 487 A 5 2 Engineering Labels for Optical Fibers 488 A 5 2 1 Labels for Optical Fibers Connecting Devices 488 A 5 2 2 Labels for the Optical Fibers Connecting the Device and ...

Page 13: ...t employs an integrated chassis and has 8 LPU SPU slots Its SRUs SFUs power modules and fans work in redundancy mode 1 3 USG9520 The USG9520 has DC 4 U and AC 5 U chassis models It employs an integrated chassis and has 3 LPU SPU slots Its MPUs power modules and fans work in redundancy mode 1 4 Boards This section describes various supported boards and their specifications 1 5 Optical Electrical Mo...

Page 14: ... describes the appearance and hardware system features of the USG9580 Appearance The USG9580 has an integrated chassis and adopts a centralized routing engine and a distributed forwarding architecture Figure 1 1 shows the chassis of the USG9580 HUAWEI USG9500 Series Hardware Guide 1 Hardware Overview Issue 03 2017 12 15 Huawei Proprietary and Confidential Copyright Huawei Technologies Co Ltd 2 ...

Page 15: ...based forwarding and rapid service deployment l Compact structure for increasing interface density l Normalized system component design l Separation of control service and monitoring channels for ensuring non blocking of control and monitoring channels HUAWEI USG9500 Series Hardware Guide 1 Hardware Overview Issue 03 2017 12 15 Huawei Proprietary and Confidential Copyright Huawei Technologies Co L...

Page 16: ...mponents such as power modules fan modules clocks and management buses l Protection against misinsertion of boards l Queries about alarm prompts alarm indications running status and alarm status of the voltage and ambient temperature 1 1 2 USG9580 Components The section describes the main components on the front and rear panels of the USG9580 The USG9580 has an integrated chassis Figure 1 2 and Fi...

Page 17: ... B RU N AC T OF L SFUI 200 B RU N AC T OF L SFUI 200 B RU N AC T OF L SFUI 200 B 1 1 1 5 5 2 3 4 6 6 3 No Name Description 1 Air filter The USG9580 has three air filters on the air intake vents of the upper and lower air channels and an air intake vent at the left side of the SFU area to protect the device against dust 2 MPU The Main Processing Unit MPU on the USG9580 is in charge of system contro...

Page 18: ...ts away ћ 伄 ᰁ䖢ᰬ 䀜 ਬέ FAN STATUS Lifting Hazard May result in injury or equipment damage ᣀᢁᣢ儎䇴 Ⱦਥ㜳Րሲ㠪Ӱ䓡 ᇩȾ Insert or remobe the fan frame with both hands ਂᢁᨈᤊ伄 Hazardous moving parts keep fingers and other body parts away ћ 伄 ᰁ䖢ᰬ 䀜 ਬέ FAN STATUS Lifting Hazard May result in injury or equipment damage ᣀᢁᣢ儎䇴 Ⱦਥ㜳Րሲ㠪Ӱ䓡 ᇩȾ RS485 1 RS485 2 Insert or remobe the fan frame with both hands ਂᢁᨈᤊ伄 Hazardous mo...

Page 19: ...the eight PEMs on the USG9580 5 Protection ground terminal The OT terminal of the ground cable is connected to the protection ground terminal of the device and the other terminal of the ground cable is connected to the ground point of the cabinet or workbench or the ground bar of the equipment room 1 1 3 Slot Layout and Boards This section describes the layout of slots and supported boards on the ...

Page 20: ...1 EKEX16 FWCD00MPUB00 Yes SFU 0305G08Q 1 4 3 1 E8KE X16 SFUC 200SP Yes SPUs and SPCs 03056638 1 4 4 3 X8 X16 SPU SPU X8X16 B Yes 0305G09U 1 4 4 7 Firewall Service Processing Unit SPU X8X16 20 O E8KE for USG9560 USG9580 Yes 03057426 1 4 4 8 Firewall Service Processing Unit SPUA 20 O H for USG9560 USG9580 Yes 03057520 1 4 4 9 Firewall Service Processing Unit SPUB 20 O H for USG9560 USG9580 Yes 0305G...

Page 21: ...FP FPIC A E8KE X 101 5X10GE SFP No 03056684 1 4 5 5 6 10GE SFP Daughter Card FW 6X10G SFP No 03056686 1 4 5 6 12 10GE SFP Daughter Card FW 12X10G SFP No 03056848 1 4 5 7 3 Port 40GBase QSFP FPIC FW 3X40G QSFP No 03056631 1 4 5 8 1 Port 40GBase LAN CFP FPIC A E8KE X 101 1X40GE CFP No 03056685 1 4 5 9 1 100GE CFP Daughter Card FW 1X100G CFP No LPUF 120 and FPIC 03056682 1 4 6 1 LPUF 120 Yes 03056890...

Page 22: ... CFP No LPUF 40 A and FPIC 03056627 1 4 8 1 LPUF 40 A Yes 03056629 1 4 8 2 20 Port 100 1000Base X SFP Flexible Card P40 20xGE FE SFP No 03056628 1 4 8 3 2 Port 10GBase LAN WAN XFP Flexible Card P40 2x10GBase LAN WAN XFP No 0305G07X 1 4 8 4 4 port 10GBase LAN WAN XFP FPIC P40 4x10GBase LAN WAN XFP No LPUF 21 and FPIC 03056624 1 4 9 1 LPUF 21 Yes 0305G054 1 4 9 2 12 port 10Base T 100Base TX 1000Base...

Page 23: ...ing of the USG9580 The USG9580 supports either DC and AC power supplies but not at the same time l If DC power supply is used connect the DC power cables to the PEM input terminals l If AC power supply is used use two suitable external AC DC convertors The number of rectifier modules on the AC DC convertors depends on the system power consumption The AC DC convertor converts AC power to DC power a...

Page 24: ...AC T CF AC T CF SLOT 2 1 OF L MPUB LIN K A CT CT L E TH SF P0 LIN K A CT LIN K AC T CT L E TH SF P1 MG MT ET H CO NS OL E AU X CL K T OD 0 CL K T OD 1 CL K 1 PP S CL K S eri al RU N AL M AC T RE SE T 0 US B CF AC T CF AC T CF SLOT 2 1 OF L MPUB LIN K A CT CT L E TH SF P0 LIN K A CT LIN K AC T CT L E TH SF P1 MG MT ET H CO NS OL E AU X CL K T OD 0 CL K T OD 1 CL K 1 PP S CL K S eri al RU N AC T OF ...

Page 25: ...ont panel slots 8 12 l Rear panel fan modules lower right side NOTE PEMs A and B back up each other Figure 1 6 shows the relationships between the power modules and chassis parts Each DC power input contains one 48 V power input and one RTN input Two separate RTN inputs join together on the board HUAWEI USG9500 Series Hardware Guide 1 Hardware Overview Issue 03 2017 12 15 Huawei Proprietary and Co...

Page 26: ...OFF ALM NEG RTN PEM 48 60V 8 60A RUN ON OFF ALM NEG RTN PEM 48 60V 8 60A RUN ON OFF ALM NEG RTN PEM 48 60V 8 60A RUN ON OFF ALM NEG RTN PEM 48 60V 8 60A RUN ON OFF ALM NEG RTN PEM 48 60V 8 60A A1 A2 B1 B2 A3 A4 B3 B4 zone1 zone1 zone1 zone1 zone1 zone1 zone2 zone2 zone2 zone2 zone3 zone3 zone3 zone3 zone4 zone4 zone3 zone3 zone4 zone4 Rear view Front view DCa DCb Figure 1 7 shows the PEM HUAWEI US...

Page 27: ... on the output is normal ALM Red Power failure indicator If the indicator is steady on l The lightning protection link of the power module has failed l The input power cable is not connected to the power module Table 1 5 lists the technical specifications of the PEM Table 1 5 Technical specifications of the DC PEM Item Technical Specification Type PEMB Dimensions Width x Depth x Height 58 mm x 115...

Page 28: ... output as steady DC power after being converted by the AC DC module and being transmitted along external cables to the PEM to power all boards and fans Table 1 6 Power supply solution of the USG9580 AC power system AC Power Module DC Power Module Powered Area Powered Part AC power chassis A PEM A1 PEM B1 Zone1 l Front panel slots 5 7 19 21 l Rear panel fan modules upper left side PEM A2 PEM B2 Zo...

Page 29: ...UN ON OFF ALM NEG RTN PEM 48 60V 8 60A RUN ON OFF ALM NEG RTN PEM 48 60V 8 60A RUN ON OFF ALM NEG RTN PEM 48 60V 8 60A A1 A2 B1 B2 A3 A4 B3 B4 zone1 zone1 zone1 zone1 zone1 zone1 zone2 zone2 zone2 zone2 zone3 zone3 zone3 zone3 zone4 zone4 zone3 zone3 zone4 zone4 Rear view Front view DCa DCb An AC power chassis is 2 U high Install the AC power chassis in the same cabinet as the device If they canno...

Page 30: ... As the USG9580 does not support AC power chassis management the DB9 interface on the rear of the AC power chassis does not need to connect to the monitoring cable in the installation auxiliary material package Table 1 7 describes indicators on the panel of the AC power chassis HUAWEI USG9500 Series Hardware Guide 1 Hardware Overview Issue 03 2017 12 15 Huawei Proprietary and Confidential Copyrigh...

Page 31: ...indicator of the module is on but the module does not report alarms Fault indicator Red Off On No output due to the over voltage output power off fan fault over temperature power off or internal module fault Table 1 8 lists the technical specifications of the AC power chassis Table 1 8 Technical specifications of the AC power supply module Item Technical Specification Type EPS200 4850A Dimensions ...

Page 32: ... separate air channels that draw air from the front and exhaust air from the rear The air filters are installed over the air intake vents Each filter covers a large area and has a curved face and low windage resistance These features increase heat dissipation efficiency The air filters on the upper and lower chassis are identical l The air channel in the SFU slot area is located on the left side o...

Page 33: ...ith the air exhaust vents and work in 2 2 backup mode Each fan module is equipped with one fan When one fan fails the heat dissipation system can still allow the device to continue operating at the ambient temperature of 40 C for a short time The fan modules are hot swappable NOTE The heat dissipation system allows the device to operate at the ambient temperature for a short time as long as at the...

Page 34: ...fications of the fan module Table 1 10 Technical specifications of the fan module Item Technical Specifications Dimensions width x depth x height 210 4 mm x 100 mm x 243 7 mm Weight 3 4 kg Power consumption typical value 30 W Maximum noise 74 dB Fan Speed Adjustment When the system is fully configured fan speeds are adjusted based on temperatures reported by the temperature sensors on the LPUs SPU...

Page 35: ...ce and features of air filters The USG9580 draws air from the front and exhausts air from the rear The two air filters on the upper and lower chassis are identical To maximize air intake the filters are fully perforated Air filters are fixed to the chassis with fasteners to facilitate filter removal and replacement Figure 1 13 shows an air filter Figure 1 13 Air filter The air channel in the SFU s...

Page 36: ...y take over its tasks to ensure service continuity For more details about USG9580 SFUs see 1 4 3 1 E8KE X16 SFUC 200SP The switching network responsible for switching data between LPUs SPUs is a key component of the USG9580 The USG9580 uses switching chips developed by Huawei and Memory Crossbar Memory M C M to provide three level switching Level 1 and level 3 switching use a shared memory model a...

Page 37: ...each the crossbar switching chips the crossbar switching chips schedule the cells to the corresponding outbound interfaces according to the destination interfaces of the data packets The cells are then sent to the level 3 switching chips on another LPU The switching of cells by the level 2 switching chips is then completed 3 After the cells reach the level 3 switching chips on another LPU the syst...

Page 38: ...lly collects the operating data of system units through the Monitorbus The MPU generates related control information based on the collected information such as the detection of board installations and fan speed adjustments Through the joint test action group JTAG bus the MPU remotely or locally tests system units or performs in service upgrading of system units Reliability The main control modules...

Page 39: ...cations Power supply mode DC 8 hot swappable PEMs AC 8 PEMs 2 external AC power chassis Rated input voltage range DC 48 V DC to 60 V DC AC l 220 V rated voltage 200 V AC to 240 V AC 50 60 Hz l 110 V rated voltage 100 V AC to 120 V AC 50 60 Hz Maximum input voltage range DC 72 V DC to 38 V DC AC l 220 V rated voltage 175 V AC to 264 V AC 47 Hz to 63 Hz l 110 V rated voltage 90 V AC to 175 V AC 47 H...

Page 40: ... air filters in the air intake vents of air channels Environment specifications System reliability MTB F year 25 MTT R hour 0 5 Ambient temperaturec Long termd 0 C to 45 C Short term 5 C to 50 C Rema rks Limit of the temperature change rate 30 C hour Storage temperature 40 C to 70 C Ambient relative humidity Long term 5 RH to 85 RH no coagulation Short term 5 RH to 95 RH no coagulation Storage rel...

Page 41: ...tem has not been operating continuously for more than 96 hours and the accumulated operation time of the system per year does not exceed 15 days 1 2 USG9560 The USG9560 is a 14 U device It employs an integrated chassis and has 8 LPU SPU slots Its SRUs SFUs power modules and fans work in redundancy mode 1 2 1 Device Overview This section describes the appearance and hardware system features of the ...

Page 42: ...ng channels for ensuring non blocking of control and monitoring channels l Carrier class reliability and manageability l Modular level shielding for meeting Electro Magnetic Compatibility EMC requirements l Hot swappable boards power modules and fans l U shaped air channels for improving system heat dissipation l Distributed power supply for enhancing power supply capabilities of a single chassis ...

Page 43: ...S E T 0 U S B C F AC T C F AC T CF SLOT 2 1 O F L SRUA LI N K A C T C TL E TH S FP 0 LI N K A C T LI N K A C T C TL E TH S FP 1 M G M T E TH C O N S O LE A U X C LK T O D 0 C LK T O D 1 C LK 1 P P S C LK S er ia l R U N A L M A C T R E S E T 0 U S B C F AC T C F AC T CF SLOT 2 1 O F L SRUA LI N K A C T C TL E TH S FP 0 LI N K A C T LI N K A C T C TL E TH S FP 1 M G M T E TH C O N S O LE A U X C LK...

Page 44: ...1 18 USG9560 rear panel Diagram of partitioned Power supply in the Syatem 㔕 ב ᝅഴ FAN A3 FFU A4 FFU B4 PEM FAN B3 A1 A2 B1 B2 FAN FFU A FAN FFU B Insert or remobe the fan frame with both hands ਂᢁᨈᤊ伄 Hazardous moving parts keep fingers and other body parts away ћ 伄 ᰁ䖢ᰬ 䀜 ਬέ FAN STATUS Lifting Hazard May result in injury or equipment damage ᣀᢁᣢ儎䇴 Ⱦਥ㜳Րሲ㠪Ӱ䓡 ᇩȾ Insert or remobe the fan frame with both h...

Page 45: ...Power supply areas Power supply areas of the four PEMs on the USG9560 6 PEM module The USG9560 uses four PEMs for DC power supply The USG9560 backplane is divided into two areas each of which has two PEM power inputs These eight power inputs work in 2 2 backup mode If the USG9560 uses the AC power supply one additional external AC power chassis is required 1 2 3 Slot Layout and Supported Boards Th...

Page 46: ...s 03056638 1 4 4 3 X8 X16 SPU SPU X8X16 B Yes 0305G09U 1 4 4 7 Firewall Service Processing Unit SPU X8X16 20 O E8KE for USG9560 USG9580 Yes 03057426 1 4 4 8 Firewall Service Processing Unit SPUA 20 O H for USG9560 USG9580 Yes 03057520 1 4 4 9 Firewall Service Processing Unit SPUB 20 O H for USG9560 USG9580 Yes 0305G09V 1 4 4 10 Firewall Performance Expansion Card SPC 20 O E8KE Yes 03057429 1 4 4 1...

Page 47: ...FW 6X10G SFP No 03056686 1 4 5 6 12 10GE SFP Daughter Card FW 12X10G SFP No 03056848 1 4 5 7 3 Port 40GBase QSFP FPIC FW 3X40G QSFP No 03056631 1 4 5 8 1 Port 40GBase LAN CFP FPIC A E8KE X 101 1X40GE CFP No 03056685 1 4 5 9 1 100GE CFP Daughter Card FW 1X100G CFP No LPUF 120 and FPIC 03056682 1 4 6 1 LPUF 120 Yes 03056890 1 4 6 2 20 Port 10 100 1000Base RJ45 FPIC FW 20X1G RJ45 No 03056633 1 4 6 3 ...

Page 48: ...9 1 4 8 2 20 Port 100 1000Base X SFP Flexible Card P40 20xGE FE SFP No 03056628 1 4 8 3 2 Port 10GBase LAN WAN XFP Flexible Card P40 2x10GBase LAN WAN XFP No 0305G07X 1 4 8 4 4 port 10GBase LAN WAN XFP FPIC P40 4x10GBase LAN WAN XFP No LPUF 21 and FPIC 03056624 1 4 9 1 LPUF 21 Yes 0305G054 1 4 9 2 12 port 10Base T 100Base TX 1000Base T RJ45 FPIC 12x10 100 1000Base TX RJ45 No 03056626 1 4 9 3 12 po...

Page 49: ...gram of partitioned Power supply in the Syatem 㔕 ב ᝅഴ FAN A3 FFU A4 FFU B4 PEM FAN B3 A1 A2 B1 B2 FAN FFU A FAN FFU B Insert or remobe the fan frame with both hands ਂᢁᨈᤊ伄 Hazardous moving parts keep fingers and other body parts away ћ 伄 ᰁ䖢ᰬ 䀜 ਬέ FAN STATUS Lifting Hazard May result in injury or equipment damage ᣀᢁᣢ儎䇴 Ⱦਥ㜳Րሲ㠪Ӱ䓡 ᇩȾ Insert or remobe the fan frame with both hands ਂᢁᨈᤊ伄 Hazardous moving...

Page 50: ... fan modules upper right side NOTE PEMs A and B back up each other Figure 1 21 shows the relationships between the power modules and chassis parts Each DC power input contains one 48 V power input and one RTN input Two separate RTN inputs join together on the board Figure 1 21 Power supply architecture of the USG9560 DC power system Rear view Front view RUN ON OFF ALM NEG RTN PEM 48 60V 8 60A RUN ...

Page 51: ... on the output is normal ALM Red Power failure indicator If the indicator is steady on l The lightning protection link of the power module has failed l The input power cable is not connected to the power module Table 1 17 lists the technical specifications of the PEM Table 1 17 Technical specifications of the DC PEM Item Technical Specification Type PEMB Dimensions Width x Depth x Height 58 mm x 1...

Page 52: ...t as steady DC power after being converted by the AC DC module and being transmitted along external cables to the PEM to power all boards and fans Table 1 18 Power supply solution of the USG9560 AC power system AC Power Module DC Power Module Powered Area Powered Part AC power chassis PEM A1 PEM B1 Zone1 l Front panel slots 5 8 10 l Rear panel fan modules upper left side PEM A2 PEM B2 Zone2 l Fron...

Page 53: ... high Install the AC power chassis in the same cabinet as the device If they cannot be installed in the same cabinet install them in as close proximity as possible The USG9560 uses one AC power chassis There are four air circuit breakers on the AC power chassis The current of the air circuit breaker is 20 A Figure 1 24 and Figure 1 25 show the AC power chassis Figure 1 24 Front view of the AC powe...

Page 54: ... in the installation auxiliary material package Table 1 19 describes indicators on the panel of the AC power chassis Table 1 19 Indicator description Indicator Color Normal Abnormal Cause Power running indicator Green On Off Power failure no AC input over voltage AC input or under voltage AC input and no output from the power module HUAWEI USG9500 Series Hardware Guide 1 Hardware Overview Issue 03...

Page 55: ... specifications of the AC power supply module Item Technical Specification Type EPS200 4850A Dimensions Width x Depth x Height 442 mm x 650 mm x 88 mm Number of power inputs 4 Maximum input voltage range l 220 V rated voltage 175 V AC to 264 V AC 47 Hz to 63 Hz l 110 V rated voltage 90 V AC to 175 V AC 47 Hz to 63 Hz The output power reduces to half of the maximum output when the input voltage is ...

Page 56: ... technical specifications of fan modules 1 2 5 1 System Air Channel This section describes the system air channels and air flows of the USG9560 The USG9560 draws air from the front and exhausts air from the rear The air intake vent is located above the board area on the front chassis the air exhaust vent is located above the board area on the rear chassis The air filter covers a large area and has...

Page 57: ...sipation system can still allow the device to continue operating at the ambient temperature of 40 C for a short time The fan modules are hot swappable NOTE The heat dissipation system allows the device to operate at the ambient temperature for a short time as long as at the time of failure the system has not been operating continuously for more than 96 hours and the accumulated operation time of t...

Page 58: ...ifications of the fan module Table 1 22 Technical specifications of the fan module Item Technical Specifications Dimensions width x depth x height 210 4 mm x 100 mm x 243 7 mm Weight 3 4 kg Power consumption typical value 30 W Maximum noise 74 dB Fan Speed Adjustment When the system is fully configured fan speeds are adjusted based on temperatures reported by the temperature sensors on the LPUs SP...

Page 59: ...air filters The USG9560 draws air from the front and exhausts air from the rear There is a 3 U high space in the upper part of the chassis and an air filter on the front of the chassis To maximize air intake the filter is fully perforated The air filter is fixed to the chassis with a fastener to facilitate filter removal and replacement Figure 1 28 shows an air filter Figure 1 28 Air filter NOTE P...

Page 60: ...he entire switching network is unblocked The process of transmitting data packets across the switching network is as follows 1 Data packets enter an LPU through physical interfaces and are fragmented into cells of a fixed length These cells are then sent to the level 1 switching chips After being buffered and scheduled the cells enter the crossbar switching chips on the SFU The level 1 switching c...

Page 61: ... software and system logs l Data storage The SRU provides two interfaces for CF cards which serve as mass storage devices to store data files System Maintenance Unit As the system maintenance unit the SRU collects monitored information to test system units locally or remotely or implement in service upgrading of system units The SRU periodically collects the operating data of system units through ...

Page 62: ...depth is 770 mm covering the dust filter and cable rack Installation position N68E cabinet or a standard 19 inch cabinet Weight Empty chassis 43 2 kg Full configuratio n maximum 112 9 kg Power specifications Power supply mode DC 4 hot swappable PEMs AC 4 PEMs 1 external AC power chassis Rated input voltage range DC 48 V DC to 60 V DC AC l 220 V rated voltage 200 V AC to 240 V AC 50 60 Hz l 110 V r...

Page 63: ...Front to back airflow Air filter 1 air filter in the air intake vent of the air channel Environment specifications System reliability MTBF year 25 MTTR hour 0 5 Ambient temperaturec Long termd 0 C to 45 C Short term 5 C to 50 C Remarks Temperature change rate limit 30 C hour Storage temperature 40 C to 70 C Ambient relative humidity Long term 5 RH to 85 RH no coagulation Short term 5 RH to 95 RH n...

Page 64: ...d the accumulated operation time of the system per year does not exceed 15 days 1 3 USG9520 The USG9520 has DC 4 U and AC 5 U chassis models It employs an integrated chassis and has 3 LPU SPU slots Its MPUs power modules and fans work in redundancy mode 1 3 1 Device Overview This section describes the appearance and hardware system features of the USG9520 Appearance The USG9520 has an integrated c...

Page 65: ...clocks and management buses l Protection against misinsertion of boards l Queries about alarm prompts alarm indications running status and alarm status of the power supply l Queries about alarm prompts alarm indications running status and alarm status of the voltage and ambient temperature 1 3 2 USG9520 Components This section describes the main components of the USG9520 The USG9520 has AC and DC ...

Page 66: ... an LPU or SPU 3 ESD jack The equipment end of the wrist strap is inserted into the ESD jack For the wrist strap to be effective ensure that the device is grounded Figure 1 33 Rear panel of the USG9520 DC chassis High touch current earth connection essential before supply and or telecommunication network connections WARNING ཝ 䀜 θ 䘔 Ⓠⴈ䙐 ؗ 㖇㔒ҁࢃൽ亱 ݾ ൦ Air Filter Refer to diagram of cable routing The ...

Page 67: ... The equipment end of the wrist strap is inserted into the ESD jack For the wrist strap to be effective ensure that the device is grounded AC Chassis Figure 1 34 Front panel of the USG9520 AC chassis 4 5 3 2 1 AUX ACT MPU E8KE X3 MPU RUN ALM ACT RESET OFL LINK CLK TOD MGMT ETH CONSOLE AUX ACT MPU E8KE X3 MPU RUN ALM ACT RESET OFL LINK CLK TOD MGMT ETH CONSOLE OFF ON 100 120V 200 240V 50 60Hz 16A 2...

Page 68: ...has one fan module with two fans on it The fans are deployed on the air intake vents of chassis air channels and work in 1 1 backup mode 2 Air filter The air filters of the USG9520 are deployed on the air intake vents of chassis air channels to protect the device against dust 3 Protection ground terminal The OT terminal of the ground cable is connected to the protection ground terminal of the devi...

Page 69: ...s the specifications of boards supported by the USG9520 Table 1 26 Boards supported by the USG9520 Type BOM Description Hot Swappa ble or Not MPU 03056305 1 4 2 3 E8KE X3 MPU Yes 0305G06R 1 4 2 4 MPUD Yes SPUs and SPCs 03056640 1 4 4 1 X3 SPU SPU X3 B Yes 03056989 1 4 4 2 X3 SPU SPU X3 B2 Yes 0305G09T 1 4 4 4 Firewall Service Processing Unit SPU X3 20 O E8KE for USG9520 Yes 03057427 1 4 4 5 Firewa...

Page 70: ...682 1 4 6 1 LPUF 120 Yes 03056890 1 4 6 2 20 Port 10 100 1000Base RJ45 FPIC FW 20X1G RJ45 No 03056633 1 4 6 3 24 Port 100 1000 Base X SFP FPIC E8KE X 101 24XGE SFP No 03056632 1 4 6 4 5 Port 10GBase LAN WAN SFP FPIC A E8KE X 101 5X10GE SFP No 03056684 1 4 6 5 6 10GE SFP Daughter Card FW 6X10GE SFP No 03056686 1 4 6 6 12 10GE SFP Daughter Card FW 12X10GE SFP No 03056848 1 4 6 7 3 Port 40GBase QSFP ...

Page 71: ...5G054 1 4 9 2 12 port 10Base T 100Base TX 1000Base T RJ45 FPIC 12x10 100 1000Base TX RJ45 No 03056626 1 4 9 3 12 port 100Base FX 1000Base X SFP FPIC 12x100 1000Base SFP No 0305G055 1 4 9 4 1 port OC 192c STM 64c POS XFP FPIC 1 x OC 192c STM 64c POS XFP No 03056625 1 4 9 5 1 port 10GBase LAN WAN XFP FPIC 1 x 10GBase LAN WAN No 0305G07W 1 4 9 6 4 Port 10GBase WAN LAN XFP FPIC 4x10GBase LAN WAN No In...

Page 72: ...module The USG9520 DC power module is 1 U high as shown in Figure 1 37 The power modules are hot swappable Figure 1 37 DC power module and panel RUN RUN ALM ALM NEG NEG RTN RTN OFF OFF ON ON 48V 60V 42A 48V 60V 42A 48V 60V 42A 48V 60V 42A OFF OFF ON ON The indicators of the USG9520 DC power module are displayed on the panel through LED Table 1 27 describes the indicators Table 1 27 Description of ...

Page 73: ...ers for power distribution 50 A Each module corresponds to an air breaker 1 3 4 3 AC Power Supply System This section describes the appearance functions and technical specifications of the AC power module and AC power distribution box PDB NOTE If a newly shipped USG9520 uses the 2200 W AC power module which requires the 2200 W AC PDB and power cable with the C19 straight connector The USG9520 ship...

Page 74: ...er receptacle Power switch FAULT indicator ALARM indicator RUN indicator Name Description Power cable clip Fixes the power cable in place Power receptacle Connects the C19 connector of the AC power cable Power switch Allows you to turn the power output on or off HUAWEI USG9500 Series Hardware Guide 1 Hardware Overview Issue 03 2017 12 15 Huawei Proprietary and Confidential Copyright Huawei Technol...

Page 75: ... The communication of the power module has been interrupted FAULT indicator red l Steady on An unrecoverable fault occurs in the power supply module such as fan failure no output current or short circuit of output current l Off The power module does not have any faults Buckle and ejector lever The R4850G2 AC power module provides protection functions against l Input overvoltage l Input undervoltag...

Page 76: ...st 17 A current is recommended Output voltage 53 3V DC Maximum output current 53 3 V DC 50 A Maximum output power 2200 W rated input voltage 220 V AC 1100 W rated input voltage 110V AC 1600 W AC Power System The USG9520 1600 W AC PDB has a 1 U standard modular structure It contains the EPW30B 48A AC power module Both the 1600 W AC PDB and EPW30B 48A AC power module are hot swappable Figure 1 39 sh...

Page 77: ...ervoltage l Short circuit l Various faults through the alarm function Table 1 30 lists the technical specifications of the EPW30B 48A AC power module Table 1 30 Technical specifications of EPW30B 48A AC power module Item Description Model EPW30B 48A Dimensions Height Width Depth 40 mm x 116 mm x 208 mm Weight 1 8 kg Number of inputs 1 Maximum input voltage range l 220 V rated voltage 175 V AC to 2...

Page 78: ...ir channels and air flows of the USG9520 The USG9520 draws air from the left side and exhausts air from the rear The air intake vent is located at the left side of the chassis and the air exhaust vent is located at the rear of the chassis The air filter covers a large area and has a curved face and low windage resistance improving heat dissipation efficiency The system draws in air for heat dissip...

Page 79: ...s two fans that work in 1 1 backup mode When a fan fails the heat dissipation system enables the system to continue operating for a short time at the ambient temperature of 40 C The fan module is hot swappable Figure 1 42 shows the fan module NOTE The heat dissipation system allows the device to operate at the ambient temperature for a short time as long as at the time of failure the system has no...

Page 80: ...0 5 Hz the fan module or power module is faulty or not all PEMs are powered on Table 1 32 lists the technical specifications of the fan module Table 1 32 Technical specifications of the fan module Item Specifications Dimensions width x depth x height 160 mm x 108 mm x 213 mm Weight 1 5 kg Maximum wind pressure 700 Pa Maximum wind rate 850 m3 h Maximum noise 78 dB HUAWEI USG9500 Series Hardware Gui...

Page 81: ...t heat dissipation requirements of a fully configured system 27 C 45 C 80 6 F 113 F Linear variation The fan speed is adjusted smoothly and linearly without a sudden increase in volume Over 45 C 113 F High 100 rotational speed Fans rotate at high speeds to meet heat dissipation requirements 1 3 5 3 Air Filter This section describes the appearance and features of air filters The air filter of the U...

Page 82: ...e LPUs and SPUs are controlled and maintained and messages can be exchanged l Device management and maintenance Devices can be managed and maintained through the management interfaces serial interfaces provided by the MPU l Data configuration The MPU stores configuration data startup files upgrade software and system logs l Data storage The MPU has one USB card which serves as a mass storage devic...

Page 83: ...U 3 slots 1 2 3 Dimensions and weight Dimensions widtha x depth x heightb DC chassis 442 mm x 650 mm x 175 mm 4 U AC chassis 442 mm x 650 mm x 220 mm 5 U The depth is 750 mm including the dust filter and cable rack Installation position N68E cabinet or a standard 19 inch cabinet Weight Empty chassis DC chassis 15kg AC chassis 25kg Full configuration maximum DC chassis 30 7 kg AC chassis 40 7 kg Po...

Page 84: ...DC 1272 W AC 1414 W Heat dissipation Fan module 1 hot swappable fan module that has two fans Air flow Left to back airflow Air filter 1 air filter in the air intake vent of the air channel Environment specifications System reliability MTBF year 25 MTTR hour 0 5 Ambient temperaturec Long termd 0 C to 45 C Short term 5 C to 50 C Remarks Temperature change rate limit 30 C hour Storage temperature 40 ...

Page 85: ...1 4 1 1 Types and Mappings of Boards This section describes the board types supported by the USG9500 and mappings between boards and cards The USG9500 supports the following types of boards l MPU SRU The USG9500 MPU SRU has an integrated board structure It controls the system in a centralized manner and learns routing information It is the system s control center l SFU The USG9500 SFU has an integ...

Page 86: ...G9 560 US G95 80 First Software Version Supporti ng the Board Subcard Hotsw appabl e MP U S RU EKEX16 FWCD00MP UB00 030 5G 06 U Yes V300R00 1C01 Yes E8KE X8 SRUA 200 030 5G 08 N Yes V300R00 1C01 Yes E8KE X3 MPU 030 563 05 Yes V500R00 1C00 Yes MPUD 030 5G 06R Yes V300R00 1C01 Yes SFU E8KE X16 SFUC 200SP 030 5G 08 Q Yes V300R00 1C01 Yes E8KE X8 SFUC 200 030 5G 08P Yes V300R00 1C01 Yes SPU SPU X3 B 0...

Page 87: ... SPC IPS 20 l SPCA 20 O H M l SPCB 20 O H M l SPCA APPSEC FW l SPCB APPSEC FW Yes SPU X8X16 B 030 566 38 Yes Yes V300R00 1C01 l SPC 20 O E8KE l SPC APPSEC FW l SPC IPS 20 l SPCA 20 O H M l SPCB 20 O H M l SPCA APPSEC FW l SPCB APPSEC FW Yes HUAWEI USG9500 Series Hardware Guide 1 Hardware Overview Issue 03 2017 12 15 Huawei Proprietary and Confidential Copyright Huawei Technologies Co Ltd 75 ...

Page 88: ...Yes SPUA 20 O M 030 574 27 Yes V500R00 1C50 Yes SPUB 20 O M 030 575 18 Yes V500R00 1C50 Yes SPU X8X16 20 O E8KE 030 566 35 Yes Yes V300R00 1C01 l SPC 20 O E8KE l SPC APPSEC FW l SPC IPS 20 l SPCA 20 O H M l SPCB 20 O H M l SPCA APPSEC FW l SPCB APPSEC FW Yes HUAWEI USG9500 Series Hardware Guide 1 Hardware Overview Issue 03 2017 12 15 Huawei Proprietary and Confidential Copyright Huawei Technologie...

Page 89: ... FW l SPC IPS 20 l SPCA 20 O H M l SPCB 20 O H M l SPCA APPSEC FW l SPCB APPSEC FW Yes SPUB 20 O H 030 575 20 Yes Yes V500R00 1C50 l SPC 20 O E8KE l SPC APPSEC FW l SPC IPS 20 l SPCA 20 O H M l SPCB 20 O H M l SPCA APPSEC FW l SPCB APPSEC FW HUAWEI USG9500 Series Hardware Guide 1 Hardware Overview Issue 03 2017 12 15 Huawei Proprietary and Confidential Copyright Huawei Technologies Co Ltd 77 ...

Page 90: ...W 20X1 G RJ45 l 1 4 5 3 24 Port 100 1000 Base X SFP FPIC E8KE X 101 24 XGE SFP l 1 4 5 4 5 Port 10GBase LAN WAN SFP FPIC A E8KE X 101 5X 10GE SFP l 1 4 5 5 6 10GE SFP Daughter Card FW 6X10 G SFP l 1 4 5 6 12 10GE SFP Daughter Card FW 12X1 0G SFP l 1 4 5 7 3 Port 40GBase Yes HUAWEI USG9500 Series Hardware Guide 1 Hardware Overview Issue 03 2017 12 15 Huawei Proprietary and Confidential Copyright Hu...

Page 91: ...Hotsw appabl e QSFP FPIC FW 3X40 G QSFP l 1 4 5 8 1 Port 40GBase LAN CFP FPIC A E8KE X 101 1X 40GE CFP l 1 4 5 9 1 100GE CFP Daughter Card FW 1X10 0G CFP HUAWEI USG9500 Series Hardware Guide 1 Hardware Overview Issue 03 2017 12 15 Huawei Proprietary and Confidential Copyright Huawei Technologies Co Ltd 79 ...

Page 92: ...X1 G RJ45 l 1 4 6 3 24 Port 100 1000 Base X SFP FPIC E8KE X 101 24 XGE SFP l 1 4 6 4 5 Port 10GBase LAN WAN SFP FPIC A E8KE X 101 5X 10GE SFP l 1 4 6 5 6 10GE SFP Daughter Card FW 6X10 GE SFP l 1 4 6 6 12 10GE SFP Daughter Card FW 12X1 0GE SFP l 1 4 6 7 3 Port Yes HUAWEI USG9500 Series Hardware Guide 1 Hardware Overview Issue 03 2017 12 15 Huawei Proprietary and Confidential Copyright Huawei Techn...

Page 93: ...w appabl e 40GBase QSFP FPIC FW 3X40 G QSFP l 1 4 6 8 1 Port 40GBase LAN CFP FPIC A E8KE X 101 1X 40GE CFP l 1 4 6 9 1 100GE CFP Daughter Card FW 1X10 0GE CFP HUAWEI USG9500 Series Hardware Guide 1 Hardware Overview Issue 03 2017 12 15 Huawei Proprietary and Confidential Copyright Huawei Technologies Co Ltd 81 ...

Page 94: ...000 Base X SFP FPIC E8KE X 101 24 XGE SFP l 1 4 7 3 4 Port 10G Base LAN SFP FPIC E8KE X 101 4X 10GE SFP l 1 4 7 4 5 Port 10GBase LAN WAN SFP FPIC A E8KE X 101 5X 10GE SFP l 1 4 7 5 1 Port 40GBase LAN CFP FPIC A E8KE X 101 1X 40GE CFP Yes HUAWEI USG9500 Series Hardware Guide 1 Hardware Overview Issue 03 2017 12 15 Huawei Proprietary and Confidential Copyright Huawei Technologies Co Ltd 82 ...

Page 95: ... 4 8 2 20 Port 100 1000B ase X SFP Flexible Card P40 20x GE FE SFP l 1 4 8 3 2 Port 10GBase LAN WAN XFP Flexible Card P40 2x10 GBase LAN WAN XFP l 1 4 8 4 4 port 10GBase LAN WAN XFP FPIC P40 4x10 GBase LAN WAN XFP Yes HUAWEI USG9500 Series Hardware Guide 1 Hardware Overview Issue 03 2017 12 15 Huawei Proprietary and Confidential Copyright Huawei Technologies Co Ltd 83 ...

Page 96: ...45 FPIC 12x10 10 0 1000Bas e TX RJ45 l 1 4 9 3 12 port 100Base FX 1000Base X SFP FPIC 12x100 1 000Base SFP l 1 4 9 4 1 port OC 192c STM 64c POS XFP FPIC 1 x OC 192c STM 64c POS XFP l 1 4 9 5 1 port 10GBase LAN WAN XFP FPIC 1 x 10GBase LAN WAN l 1 4 9 6 4 Port Yes HUAWEI USG9500 Series Hardware Guide 1 Hardware Overview Issue 03 2017 12 15 Huawei Proprietary and Confidential Copyright Huawei Techno...

Page 97: ... Board Subcard Hotsw appabl e 10GBase WAN LAN XFP FPIC 4x10GBa se LAN WAN Integ rated LPU LPUI 101 030 566 37 Yes Yes Yes V300R00 1C01 Yes HUAWEI USG9500 Series Hardware Guide 1 Hardware Overview Issue 03 2017 12 15 Huawei Proprietary and Confidential Copyright Huawei Technologies Co Ltd 85 ...

Page 98: ...PU X3 B SPU X3 B2 SP U X8 X1 6 B SP U A 20 O M SP U A 20 O H SP U B 20 O M SP U B 20 O H SPC 20 O E8KE 03 05 66 36 Yes Yes Yes Yes Ye s Ye s Ye s V 30 0 R 00 1 C 01 Ye s SPC APPSEC FW 03 05 66 88 Yes Yes Yes Yes Ye s Ye s Ye s V 50 0 R 00 1 C 00 Ye s HUAWEI USG9500 Series Hardware Guide 1 Hardware Overview Issue 03 2017 12 15 Huawei Proprietary and Confidential Copyright Huawei Technologies Co Ltd...

Page 99: ...2 SP U X8 X1 6 B SP U A 20 O M SP U A 20 O H SP U B 20 O M SP U B 20 O H SPC IPS 20 03 05 66 39 Yes Yes Yes Yes Ye s Ye s Ye s V 30 0 R 00 1 C 01 Ye s SPCA 20 O H M 03 05 74 29 Yes Yes Ye s Ye s Ye s V 50 0 R 00 1 C 50 Ye s HUAWEI USG9500 Series Hardware Guide 1 Hardware Overview Issue 03 2017 12 15 Huawei Proprietary and Confidential Copyright Huawei Technologies Co Ltd 87 ...

Page 100: ... B2 SP U X8 X1 6 B SP U A 20 O M SP U A 20 O H SP U B 20 O M SP U B 20 O H SPCB 20 O H M 03 05 75 22 Yes Yes Ye s Ye s Ye s V 50 0 R 00 1 C 50 Ye s SPCA APPSEC FW 03 05 78 72 Yes Yes Ye s Ye s Ye s V 50 0 R 00 1 C 80 Ye s HUAWEI USG9500 Series Hardware Guide 1 Hardware Overview Issue 03 2017 12 15 Huawei Proprietary and Confidential Copyright Huawei Technologies Co Ltd 88 ...

Page 101: ...SPU X8X1 6 20 O E8K E SPU X3 B SPU X3 B2 SP U X8 X1 6 B SP U A 20 O M SP U A 20 O H SP U B 20 O M SP U B 20 O H SPCB APPSEC FW 03 05 78 73 Yes Yes Ye s Ye s Ye s V 50 0 R 00 1 C 80 Ye s HUAWEI USG9500 Series Hardware Guide 1 Hardware Overview Issue 03 2017 12 15 Huawei Proprietary and Confidential Copyright Huawei Technologies Co Ltd 89 ...

Page 102: ...t 10 100 1000B ase RJ45 FPIC FW 20X1G RJ45 030568 90 Yes Yes V500 R001 C50 No 1 4 9 3 12 port 100Base FX 1000Base X SFP FPIC 12x100 1000 Base SFP 030566 26 Yes V300 R001 C01 No 1 4 8 2 20 Port 100 1000Base X SFP Flexible Card P40 20xGE FE SFP 030566 29 Yes V300 R001 C01 No 1 4 7 2 24 Port 100 1000 Base X SFP FPIC E8KE X 101 24XG E SFP 030566 33 Yes Yes Yes V300 R001 C01 No HUAWEI USG9500 Series Ha...

Page 103: ... P40 2x10GB ase LAN WAN XFP 030566 28 Yes V300 R001 C01 No 1 4 8 4 4 port 10GBase LAN WAN XFP FPIC P40 4x10GB ase LAN WAN XFP 0305G0 7X Yes V300 R001 C01 No 1 4 9 6 4 Port 10GBase WAN LAN XFP FPIC 4x10GBase LAN WAN 0305G0 7W Yes V300 R001 C01 No 1 4 7 3 4 Port 10G Base LAN SFP FPIC E8KE X 101 4X10G E SFP 0305G0 9L Yes V300 R001 C01 No HUAWEI USG9500 Series Hardware Guide 1 Hardware Overview Issue ...

Page 104: ...V500 R001 C00 No 1 4 5 6 12 10GE SFP Daughter Card FW 12X10G SFP 030566 86 Yes Yes V500 R001 C00 No 1 4 7 5 1 Port 40GBase LAN CFP FPIC A E8KE X 101 1X40G E CFP 030566 31 Yes Yes Yes V300 R001 C01 No 1 4 5 9 1 100GE CFP Daughter Card FW 1X100G CFP 030566 85 Yes Yes V500 R001 C00 No 1 4 5 7 3 Port 40GBase QSFP FPIC FW 3X40G QSFP 030568 48 Yes Yes V500 R001 C50 No HUAWEI USG9500 Series Hardware Guid...

Page 105: ...nd cards Structure of the Integrated Board The integrated board on the USG9500 is a plug in board and consists of a circuit board connectors upward and downward ejector levers captive screws and a bolt as shown in Figure 1 44 Figure 1 44 Structure of the integrated board 1 2 3 4 SR UA UA UA A A RU A UA UA A UA UA A A A A 1 Ejector lever 2 Captive screw 3 Connector 4 Bolt HUAWEI USG9500 Series Hard...

Page 106: ... board 1 2 5 3 4 1 Ejector lever 2 Subcard slot 0 3 Subcard slot 1 4 Captive screw 5 Connector The flexible subcard is a plug in board and consists of the circuit board connector heat sinks ejector lever and captive screws as shown in Figure 1 46 Figure 1 46 Structure of the flexible subcard 2 1 3 4 1 Circuit board 2 Captive screw 3 Connector 4 Heat sinks HUAWEI USG9500 Series Hardware Guide 1 Har...

Page 107: ...t subcards the default subcard slot number is 0 as shown in Figure 1 48 Figure 1 48 Subcard slot numbering for cards without subcards E8KE X LPUF 101 LPUF 101 RUN OFL LPU RUN OFL 0 l For cards with subcards if a card has only half width subcards the subcard slot numbers are 0 and 1 as shown in Figure 1 49 Figure 1 49 Subcard slot numbering for cards providing only half width subcards E8KE X LPUF 1...

Page 108: ... T A S T A 0 1 2 3 4 5 6 7 8 9 1 0 1 0 1 1 1 1 T X T X 0 R X R X T X T X 1 R X R X T X T X 2 R X R X T X T X 3 R X R X T X T X 4 R X R X T X T X 5 R X R X T X T X 6 R X R X T X T X 7 R X R X T X T X 8 R X R X T X T X 9 R X R X T X T X 1 0 1 0 R X R X T X T X 1 1 1 1 R X R X E8KE X 101 24XGE SFP S T A T U S 0 1 2 3 4 5 6 7 8 9 1 0 1 1 1 2 1 3 1 4 1 5 1 6 1 7 1 8 1 9 2 0 2 1 2 2 2 3 0 1 1 0 1 2 2 2 ...

Page 109: ...C O N SO LE AU X LIN K AC T LINK ACT LINK ACT Name Description Buttons and indicators on the panel OFL button To remove a board press and hold the button for six seconds until the OFL indicator turns on NOTE This button only works on the standby MPU OFL indicator red Steady on You can remove the board RUN indicator green l Blinks every 2 seconds 0 5 Hz The system is working properly l Blinks twice...

Page 110: ...X It is reserved for use after capacity expansion SFP LINK ACT indicator green l Steady on The link is normal l Blinking Data is being transmitted MGMT ETH interface 10M 100M 1000M Base TX auto sensing It connects to the NMS workstation and has LINK and ACT indicators MGMT ETH LINK indicator green on Ethernet network interfaces l Steady on The link is normal l Off The link is Down MGMT ETH ACT ind...

Page 111: ...ode 10M 100M 1000M auto sensing interfaces supporting full duplex mode Standards compliance IEEE 802 3 2002 Cable specification Category 5 unshielded twisted pair UTP cables recommended when the interface rate is 10 Mbit s or 100 Mbit s super category 5 Shielded Twisted Pair STP cables recommended when the interface rate is 1000 Mbit s Table 1 40 lists the console interface attributes Table 1 40 C...

Page 112: ...ment DTE Cable specification 8 core shielded cable Technical Specifications Table 1 42 lists the technical specifications of the EKEX16 FWCD00MPUB00 Table 1 42 Technical specifications of the EKEX16 FWCD00MPUB00 Item Specifications Board silkscreen name MPUB Dimensions width x depth x height 398 5 mm x 554 mm x 40 5 mm Typical power consumption 85 W Maximum power consumption 95 W Typical heat cons...

Page 113: ...tton To remove a board press and hold the button for six seconds until the OFL indicator turns on NOTE This button works only on the standby SRU OFL indicator red Steady on You can remove the board RUN indicator green l Blinks every 2 seconds 0 5 Hz The system is working properly l Blinks twice each second 2 Hz The system is in the alarm state ALM indicator red l Steady on The system is in the ala...

Page 114: ...ady on The link is normal l Blinking Data is being transmitted MGMT ETH interface 10M 100M 1000M Base TX auto sensing It connects to the NMS workstation and has LINK and ACT indicators MGMT ETH LINK indicator green on Ethernet network interfaces l Steady on The link is normal l Off The link is Down MGMT ETH ACT indicator amber on Ethernet interfaces l Blinking Data is being transmitted l Off No da...

Page 115: ...nce IEEE 802 3 2002 Cable specification Category 5 unshielded twisted pair UTP cables recommended when the interface rate is 10 Mbit s or 100 Mbit s super category 5 Shielded Twisted Pair STP cables recommended when the interface rate is 1000 Mbit s Table 1 45 lists the console interface attributes Table 1 45 Console interface attributes Attribute Description Connector type RJ45 Operation mode Dup...

Page 116: ...able 1 47 Technical specifications of the E8KE X8 SRUA 200 Item Specifications Board silkscreen name SRUA Dimensions width x depth x height 398 5 mm x 554 mm x 35 mm Typical power consumption 149 W Maximum power consumption 160 W Typical heat consumption 508 4 BTU hour Maximum heat consumption 545 9 BTU hour Board weight 4 8 kg 1 4 2 3 E8KE X3 MPU E8KE X3 MPU is the USG9520 MPU It is hot swappable...

Page 117: ...is working properly l Blinks twice each second 2 Hz The system is in the alarm state ALM indicator red l Steady on The system is in the alarm state l Off The system is working properly ACT active standby indicator green l Steady on The MPU is in the active state l Off The MPU is in the standby state RESET button The button is used for resetting the MPU If you press the RESET button you can reset t...

Page 118: ...Cable specification Category 5 unshielded twisted pair UTP cables recommended when the interface rate is 10 Mbit s or 100 Mbit s super category 5 Shielded Twisted Pair STP cables recommended when the interface rate is 1000 Mbit s Table 1 49 lists the console interface attributes Table 1 49 Console interface attributes Attribute Description Connector type RJ45 Operation mode Duplex Universal Asynch...

Page 119: ...ons of the E8KE X3 MPU Table 1 51 Technical specifications of the E8KE X3 MPU Item Description Silkscreen of the board name MPU E8KE X3 MPU Dimensions W x D x H 198 5 mm x 551 mm x 40 mm Typical power consumption 32 W Maximum power consumption 35 2 W Typical heat consumption 109 2 BTU hour Maximum heat consumption 120 1 BTU hour Board weight 1 7 kg 1 4 2 4 MPUD MPUD is the USG9520 MPU and is hot s...

Page 120: ...rns on NOTE This button works only on the standby MPUD OFL indicator red If the indicator is on you can remove the board RUN indicator green If the indicator blinks once every two seconds 0 5 Hz the system is in the normal state If the indicator blinks twice each second 2 Hz the system is in the alarm state ALM indicator red If the indicator is steady on the system is in the alarm state If the ind...

Page 121: ...TX auto sensing RJ45 Connects to the NMS workstation and has LINK and ACT indicators Console interface RJ45 Connects to the console for on site configuration of the system AUX interface RJ45 Connects to the Modem for remote maintenance through dialing CF card interface TYPE II standard compatible with TYPE I standard Used to hold a CF card to store data files as a massive storage device Interface ...

Page 122: ...te 9600 bit s default value adjustable Data equipment type Data Circuit terminating Equipment DCE Cable specification 8 core shielded cable Table 1 56 lists the AUX interface attributes Table 1 56 AUX interface attributes Attribute Description Connector type RJ45 Operation mode Duplex UART Electrical attribute RS 232 Baud rate 9600 bit s default value adjustable Data equipment type Data Terminal E...

Page 123: ...switching between boards The USG9520 does not support SFUs 1 4 3 1 E8KE X16 SFUC 200SP E8KE X16 SFUC 200SP is the USG9580 SFU It uses non blocking switch fabric is hot swappable and is responsible for data switching of the entire system Panel Figure 1 56 shows the E8KE X16 SFUC 200SP Figure 1 56 E8KE X16 SFUC 200SP R U N A C T O F L SFUI 200 B R U N R U N A C T A C T O F L O F L SFUI 200 B SFUI 20...

Page 124: ...e technical specifications of the E8KE X16 SFUC 200SP Table 1 58 Technical specifications of the E8KE X16 SFUC 200SP Item Specifications Board silkscreen name SFUI 200 B Dimensions width x depth x height 410 mm x 553 5 mm x 40 5 mm Typical power consumption 90 W Maximum power consumption 100 W Typical heat consumption 307 1 BTU hour Maximum heat consumption 341 2 BTU hour Board weight 4 26 kg 1 4 ...

Page 125: ...second 2 Hz The system is in the alarm state ACT green l Steady on The SFU is working properly l Off The SFU is faulty Interface Attributes The E8KE X8 SFUC 200 does not have external interfaces Technical Specifications Table 1 59 shows the technical specifications of the E8KE X8 SFUC 200 Table 1 59 Technical specifications of the E8KE X8 SFUC 200 Item Specifications Specifications SFUI 200 C Dime...

Page 126: ... board has two slots and each slot can house a firewall SPC or an application security SPC The SPU X3 B goes into the LPU SPU slot of the USG9520 The board is hot swappable Panel Figure 1 58 shows the SPU X3 B Figure 1 58 SPU X3 B SPU X3 B SPUC RUN OFL SPUC SPUC RUN RUN OFL OFL Name Description OFL button To remove a board press and hold the button for six seconds until the OFL indicator turns on ...

Page 127: ...ypical power consumption 116 W Maximum power consumption 127 6 W Typical heat consumption 395 8 BTU hour Maximum heat consumption 435 4 BTU hour Board weight 5 23 kg Maximum input voltage range DC 72 V to 38 V CPU 1 2 GHz 1 4 4 2 X3 SPU SPU X3 B2 The SPU X3 B2 is a motherboard that works with the USG9520 By default this board does not have any service processing capability and must be used togethe...

Page 128: ...cond 4 Hz The board is in the alarm state or starting and not registered Interface Attributes The SPU X3 B2 does not have external interfaces Technical Specifications Table 1 61 lists the technical specifications of the SPU X3 B2 Table 1 61 Technical specifications of the SPU X3 B2 Item Specifications Board silkscreen name SPUE SPU X3 B2 Dimensions width x depth x height 400 mm x 520 mm x 41 mm Ty...

Page 129: ...rewall SPC or an application security SPC The SPU X8X16 B goes into the LPU SPU slot of the USG9560 and USG9580 The board is hot swappable Panel Figure 1 60 shows the SPU X8X16 B Figure 1 60 Appearance of the SPU X8X16 B SPU X8X16 B SPUD RUN OFL SPUD SPUD RUN RUN OFL OFL Name Description OFL button To remove a board press and hold the button for six seconds until the OFL indicator turns on OFL ind...

Page 130: ...16 B Dimensions width x depth x height 400 mm x 520 mm x 41 mm Typical power consumption 125 W Maximum power consumption 138 W Typical heat consumption 426 5 BTU hour Maximum heat consumption 470 9 BTU hour Board weight 5 34 kg Maximum input voltage range DC 72 V to 38 V CPU 1 2 GHz 1 4 4 4 Firewall Service Processing Unit SPU X3 20 O E8KE for USG9520 The SPU X3 20 O E8KE is inserted into the LPU ...

Page 131: ...FL button To remove an SPC press and hold the OFL button for six seconds until the OFL indicator turns red for one second and then turns off OFL indicator l If the indicator is green and blinks once every second 1 Hz the SPC is running normally l If the indicator is green and blinks four times every second 4 Hz the SPC is in the alarm state or starting but not registered l If the indicator turns r...

Page 132: ...nput voltage range DC 72 V to 38 V CPU number 2 CPU 1 2 GHz Memory DDR3 16 GB CPU 1 4 4 5 Firewall Service Processing Unit SPUA 20 O M for USG9520 The SPUA 20 O M is inserted into the LPU SPU slot of the USG9520 has no expansion slot and is hot swappable Panel Figure 1 62 shows the SPUA 20 O M Figure 1 62 SPUA 20 O M SPUA 20 O M SPUE RUN OFL OFL OFL SPUE SPUE RUN RUN OFL OFL SPUA 20 O M OFL OFL NO...

Page 133: ...the indicator is green and blinks once every second 1 Hz the SPC is running normally l If the indicator is green and blinks four times every second 4 Hz the SPC is in the alarm state or starting but not registered l If the indicator turns red for one second and then turns off you can safely remove the SPC Interface Attributes The SPUA 20 O M does not have external interfaces Technical Specificatio...

Page 134: ...lot of the USG9520 provides no expansion slot and is hot swappable Panel Figure 1 63 shows the SPUB 20 O M Figure 1 63 SPUB 20 O M SPUB 20 O M SPUE RUN OFL OFL OFL SPUE SPUE RUN RUN OFL OFL SPUB 20 O M OFL OFL NOT SWAP Name Description SPU OFL button To remove an SPU press and hold the OFL button for six seconds until the OFL indicator turns on OFL indicator red Steady on You can remove the SPU HU...

Page 135: ...blinks four times every second 4 Hz the SPC is in the alarm state or starting but not registered l If the indicator turns red for one second and then turns off you can safely remove the SPC Interface Attributes The SPUB 20 O M does not have external interfaces Technical Specifications Table 1 65 lists the technical specifications of the SPUB 20 O M Table 1 65 Technical specifications of the SPUB 2...

Page 136: ...PU X8X16 20 O E8KE SPU X8X16 20 O E8KE OFL OFL HOT SWAP SPUD RUN OFL SPUD SPUD RUN RUN OFL OFL SPU X8X16 20 O E8KE OFL OFL NOT SWAP Name Description SPU OFL button To remove an SPU press and hold the OFL button for six seconds until the OFL indicator turns on OFL indicator red Steady on You can remove the SPU RUN indicator green l Blinks every 2 seconds 0 5 Hz The SPU is running normally l Blinks ...

Page 137: ... you can safely remove the SPC Interface Attributes The SPU X8X16 20 O E8KE does not have external interfaces Technical Specifications Table 1 66 lists the technical specifications of the SPU X8X16 20 O E8KE Table 1 66 Technical specifications of the SPU X8X16 20 O E8KE Item Specifications Board silkscreen name SPUD SPU X8X16 20 O E8KE Dimensions width x depth x height 400 mm x 520 mm x 41 mm Typi...

Page 138: ...FL button for six seconds until the OFL indicator turns on OFL indicator red Steady on You can remove the SPU RUN indicator green l Blinks every 2 seconds 0 5 Hz The SPU is running normally l Blinks four times every second 4 Hz The SPU is in the alarm state or starting but not registered SPC NOT SWAP The SPC and SPU share one sales code in a slot They both must be replaced at the same time OFL but...

Page 139: ...Table 1 67 lists the technical specifications of the SPUA 20 O H Table 1 67 Technical specifications of the SPUA 20 O H Item Specifications Board silkscreen name SPUD SPUA 20 O H Dimensions width x depth x height 400 mm x 520 mm x 41 mm Typical power consumption 215 W Maximum power consumption 235 W Typical heat consumption 733 6 BTU hour Maximum heat consumption 801 9 BTU hour Board weight 6 64 k...

Page 140: ...s four times every second 4 Hz The SPU is in the alarm state or starting but not registered SPC NOT SWAP The SPC and SPU share one sales code in a slot They both must be replaced at the same time OFL button To remove an SPC press and hold the OFL button for six seconds until the OFL indicator turns red for one second and then turns off OFL indicator l If the indicator is green and blinks once ever...

Page 141: ...9 BTU hour Maximum heat consumption 1160 1 BTU hour Board weight 6 76 kg Maximum input voltage range DC 72 V to 38 V CPU number 2 CPU 1 6 GHz Memory DDR4 32 GB CPU 1 4 4 10 Firewall Performance Expansion Card SPC 20 O E8KE The SPC 20 O E8KE is a dual CPU service sub card of the firewall service board can be inserted into an SPU slot and is hot swappable Panel Figure 1 67 shows the SPC 20 O E8KE Fi...

Page 142: ...e Attributes The SPC 20 O E8KE does not have external interfaces Technical Specifications Table 1 69 lists the technical specifications of the SPC 20 O E8KE Table 1 69 Technical specifications of the SPC 20 O E8KE Item Specifications Board silkscreen name SPCB02 SPC 20 O E8KE Dimensions width x depth x height 175 mm x 280 mm x 36 mm Typical power consumption 159 W Maximum power consumption 174 9 W...

Page 143: ...the board is running normally l If the indicator is green and blinks four times every second 4 Hz the board is in the alarm state or starting but not registered l If the indicator turns red for one second and then turns off you can safely remove the board Interface Attributes The SPCA 20 O H M does not have external interfaces Technical Specifications Table 1 70 lists the technical specifications ...

Page 144: ... sub card of the firewall service board can be inserted into an SPU slot and is hot swappable Panel Figure 1 69 shows the SPCB 20 O H M Figure 1 69 SPCB 20 O H M SPCH01 SPCH01 SPCB 20 O H M SPCB 20 O H M O FL O FL Name Description OFL button To remove a board press and hold the OFL button for six seconds until the OFL indicator turns red for one second and then turns off HUAWEI USG9500 Series Hard...

Page 145: ...of the SPCB 20 O H M Item Specifications Board silkscreen name SPCH01 SPCB 20 O H M Dimensions width x depth x height 175 mm x 280 mm x 36 mm Typical power consumption 180 W Maximum power consumption 200 W Typical heat consumption 614 2 BTU hour Maximum heat consumption 682 4 BTU hour Board weight 1 42 kg CPU number 2 CPU 1 6 GHz Memory DDR4 32 GB CPU 1 4 4 13 Application Security Service Processi...

Page 146: ...ly l If the indicator is green and blinks four times every second 4 Hz the board is in the alarm state or starting but not registered l If the indicator turns red for one second and then turns off you can safely remove the board Interface Attributes The SPC APPSEC FW does not have external interfaces Technical Specifications Table 1 72 lists the technical specifications of the SPC APPSEC FW Table ...

Page 147: ...slot on the mother board You can insert the SPC IPS 20 in a slot on the mother board or use it together with a firewall SPC on the motherboard This board is hot swappable NOTE With version V300R001 the SPC IPS 20 only processes the IPS services Panel Figure 1 71 shows the SPC IPS 20 Figure 1 71 SPC IPS 20 Name Description OFL button To remove a board press and hold the OFL button for six seconds u...

Page 148: ...hnical Specifications Table 1 73 lists the technical specifications of the SPC IPS 20 Table 1 73 Technical specifications of the SPC IPS 20 Item Specifications Board silkscreen name IPSC01 SPC IPS 20 Dimensions width x depth x height 175 mm x 280 mm x 36 mm Typical power consumption 159 W Maximum power consumption 174 9 W Typical heat consumption 542 5 BTU hour Maximum heat consumption 596 8 BTU h...

Page 149: ...til the OFL indicator turns red for one second and then turns off OFL indicator l If the indicator is green and blinks once every second 1 Hz the board is running normally l If the indicator is green and blinks four times every second 4 Hz the board is in the alarm state or starting but not registered l If the indicator turns red for one second and then turns off you can safely remove the board In...

Page 150: ...rovide content security This subcard takes up a slot on the motherboard You can insert the SPCB APPSEC FW independently in a slot on the motherboard or use it together with a firewall SPC on the motherboard The board is hot swappable Panel Figure 1 73 shows the SPCB APPSEC FW Figure 1 73 SPCB APPSEC FW SPCH01 SPCH01 SPCB APPSEC FW SPCB APPSEC FW O FL O FL Name Description OFL button To remove a bo...

Page 151: ...al Specifications Table 1 75 lists the technical specifications of the SPCB APPSEC FW Table 1 75 Technical specifications of the SPCB APPSEC FW Item Specifications Board silkscreen name SPCH01 SPCB APPSEC FW Dimensions width x depth x height 175 mm x 280 mm x 36 mm Typical power consumption 180 W Maximum power consumption 200 W Typical heat consumption 614 2 BTU hour Maximum heat consumption 682 4...

Page 152: ...Cs The LPUF 240 is not compatible with the USG9520 Panel Figure 1 74 shows the LPUF 240 Figure 1 74 LPUF 240 FW LPUF 240 LPUF240 LPUF 240 LPUF 240 RUN OFL RUN OFL Name Description OFL button To remove a board press and hold the button for five seconds until the OFL indicator turns on OFL indicator red Steady on You can remove the board RUN indicator green l Blinks every 2 seconds 0 5 Hz The system...

Page 153: ...eat consumption 1204 5 BTU hour Maximum heat consumption 1399 BTU hour Board weight 9 kg 1 4 5 2 20 Port 10 100 1000Base RJ45 FPIC FW 20X1G RJ45 The FW 20X1G RJ45 occupies one 1 2 width flexible card slot is compatible with LPUF 240s and LPUF 120s but is not hot swappable Panel Figure 1 75 shows the FW 20X1G RJ45 Figure 1 75 20 port 10 100 1000Base RJ45 FPIC panel FW 20X1G RJ45 STATUS HUAWEI USG95...

Page 154: ...he working mode is 10M or 100M it is recommended that Category 5 unshielded twisted pairs be used When the working mode is 1000M it is recommended that super Category 5 unshielded twisted pairs be used Frame format Ethernet_II Ethernet_SAP and Ethernet_SNAP Network protocol IP Technical Specifications Table 1 78 lists the technical specifications of the FW 20X1G RJ45 Table 1 78 Technical specifica...

Page 155: ...ature l Mixed insertion among the above modules NOTE Only the interfaces indexed in odd numbers support the electrical interface module Panel Figure 1 76 shows the E8KE X 101 24XGE SFP Figure 1 76 E8KE X 101 24XGE SFP E8KE X 101 24XGE SFP STA 0 1 2 3 4 5 6 7 8 9 1 0 1 1 1 2 1 3 1 4 1 5 1 6 1 7 1 8 1 9 2 0 2 1 2 2 2 3 0 1 2 2 2 3 Name Description STATUS green l Blinks every 2 seconds 0 5 Hz The sys...

Page 156: ...rame format Ethernet_II Ethernet_SAP Ethernet_SNAP and 802 3 Network protocol IP Technical Specifications Table 1 80 lists the technical specifications of the E8KE X 101 24XGE SFP Table 1 80 Technical specifications of the E8KE X 101 24XGE SFP Item Specifications Board silkscreen name E8KE X 101 24XGE SFP Dimensions width x depth x height 178 mm x 225 mm x 38 mm Typical power consumption 37 W Maxi...

Page 157: ... L A L A 3 Name Description STATUS green l Blinks every 2 seconds 0 5 Hz The system is working properly l Blinks twice each second 2 Hz The system is in the alarm state L A green l Steady on The link is connected l Blinking Data is being transmitted or received l Off The link is disconnected Interface Attributes Table 1 81 lists the attributes of interfaces on the E8KE X 101 5X10GE SFP Table 1 81 ...

Page 158: ...arlier versions you need to upgrade the software version Working mode Full duplex Frame format Ethernet_II Ethernet_SAP and Ethernet_SNAP Network protocol IP Technical Specifications Table 1 82 lists the technical specifications of the E8KE X 101 5X10GE SFP Table 1 82 Technical specifications of the E8KE X 101 5X10GE SFP Attribute Specifications Board silkscreen name E8KE X 101 5X10GE SFP Dimensio...

Page 159: ...ks every 2 seconds 0 5 Hz The system is working properly l Blinks twice each second 2 Hz The system is in the alarm state Indicator below the interface green l Steady on The link is connected l Blinking Data is being transmitted or received l Off The link is disconnected Interface Attributes Table 1 83 lists the attributes of interfaces on the FW 6X10G SFP Table 1 83 FW 6X10G SFP interface attribu...

Page 160: ...ptical Module in earlier versions you need to upgrade the software version Working mode Full duplex Frame format Ethernet_II Ethernet_SAP and Ethernet_SNAP Network protocol IP Technical Specifications Table 1 84 lists the technical specifications of the FW 6X10G SFP Table 1 84 Technical specifications of the FW 6X10G SFP Item Specifications Board silkscreen name FW 6X10G SFP Dimensions width x dep...

Page 161: ... 1 1 R X Name Description STA green l Blinks every 2 seconds 0 5 Hz The system is working properly l Blinks twice each second 2 Hz The system is in the alarm state Indicator below the interface green l Steady on The link is connected l Blinking Data is being transmitted or received l Off The link is disconnected Interface Attributes Table 1 85 lists the attributes of interfaces on the FW 12X10G SF...

Page 162: ...l Module in earlier versions you need to upgrade the software version Working mode Full duplex Frame format Ethernet_II Ethernet_SAP and Ethernet_SNAP Network protocol IP Technical Specifications Table 1 86 lists the technical specifications of the FW 12X10G SFP Table 1 86 Technical specifications of the FW 12X10G SFP Item Specifications Board silkscreen name FW 12X10G SFP Dimensions width x depth...

Page 163: ... link is connected l Blinking Data is being transmitted or received l Off The link is disconnected Interface Attributes Table 1 87 lists the attributes of interfaces on FW 3X40G QSFP Table 1 87 FW 3X40G QSFP interface attributes Attribute Description Connector type LC PC Optical interface attributes Compliant with the selected SFP optical module For details about the optional attributes of the opt...

Page 164: ... heat consumption 187 7 BTU hour Board weight 0 85 kg 1 4 5 8 1 Port 40GBase LAN CFP FPIC A E8KE X 101 1X40GE CFP The E8KE X 101 1X40GE CFP occupies one 1 2 width flexible card slot is compatible with LPUF 240s LPUF 120s and LPUF 101s works in LAN mode uses CFP optical modules but is not hot swappable Panel Figure 1 81 shows the E8KE X 101 1X40GE CFP Figure 1 81 E8KE X 101 1X40GE CFP E8KE X 101 1X...

Page 165: ...d CFP optical module For details about the optional attributes of the optical module see 1 5 5 40 Gbit s CFP Optical Modules Working mode Full duplex Frame format Ethernet_II Ethernet_SAP and Ethernet_SNAP Network protocol IP Technical Specifications Table 1 90 lists the technical specifications of the E8KE X 101 1X40GE CFP Table 1 90 Technical specifications of the E8KE X 101 1X40GE CFP Item Spec...

Page 166: ... FW 1X100G CFP FW 1X100G CFP T X T X 0 R X R X S T A T U S S T A T U S L A L A Name Description STATUS green l Blinks every 2 seconds 0 5 Hz The system is working properly l Blinks twice each second 2 Hz The system is in the alarm state L A green l Steady on The link is connected l Blinking Data is being transmitted or received l Off The link is disconnected Interface Attributes Table 1 91 lists t...

Page 167: ...FW 1X100G CFP Item Specifications Board silkscreen name FW 1X100G CFP Dimensions width x depth x height 178 mm x 130 mm x 35 mm Typical power consumption 51 W Maximum power consumption 56 1 W Typical heat consumption 174 BTU hour Maximum heat consumption 191 4 BTU hour Board weight 1 3 kg 1 4 6 LPUF 120 and FPICs The flexible LPU comprises the motherboard LPUF 120 and multiple flexible cards subca...

Page 168: ...PUF 120 LPUF120 LPUF 120 LPUF 120 RUN OFL RUN OFL Name Description OFL button To remove a board press and hold the button for five seconds until the OFL indicator turns on OFL indicator red Steady on You can remove the board RUN indicator green l Blinks every 2 seconds 0 5 Hz The system is working properly l Blinks twice each second 2 Hz The system is in the alarm state Interface Attributes The LP...

Page 169: ...FPIC FW 20X1G RJ45 The FW 20X1G RJ45 occupies one 1 2 width flexible card slot is compatible with LPUF 240s and LPUF 120s but is not hot swappable Panel Figure 1 84 shows the FW 20X1G RJ45 Figure 1 84 20 port 10 100 1000Base RJ45 FPIC panel FW 20X1G RJ45 STATUS Component Description STATUS green l Blinks every 2 seconds 0 5 Hz The system is running normally l Blinks twice each second 2 Hz The syst...

Page 170: ...king mode is 1000M it is recommended that super Category 5 unshielded twisted pairs be used Frame format Ethernet_II Ethernet_SAP and Ethernet_SNAP Network protocol IP Technical Specifications Table 1 95 lists the technical specifications of the FW 20X1G RJ45 Table 1 95 Technical specifications of the FW 20X1G RJ45 Item Specifications Silk screen board name FW 20X1G RJ45 Dimensions width x depth x...

Page 171: ...numbers support the electrical interface module Panel Figure 1 85 shows the E8KE X 101 24XGE SFP Figure 1 85 E8KE X 101 24XGE SFP E8KE X 101 24XGE SFP STA 0 1 2 3 4 5 6 7 8 9 1 0 1 1 1 2 1 3 1 4 1 5 1 6 1 7 1 8 1 9 2 0 2 1 2 2 2 3 0 1 2 2 2 3 Name Description STATUS green l Blinks every 2 seconds 0 5 Hz The system is working properly l Blinks twice each second 2 Hz The system is in the alarm state...

Page 172: ...FP Table 1 97 Technical specifications of the E8KE X 101 24XGE SFP Item Specifications Board silkscreen name E8KE X 101 24XGE SFP Dimensions width x depth x height 178 mm x 225 mm x 38 mm Typical power consumption 37 W Maximum power consumption 40 7 W Typical heat consumption 126 2 BTU hour Maximum heat consumption 138 9 BTU hour Board weight 0 9 kg 1 4 6 4 5 Port 10GBase LAN WAN SFP FPIC A E8KE X...

Page 173: ...tribute Description Connector type LC PC Optical interface attribute Compliant with the selected SFP optical module For details about the optional attributes of the optical module see l 1 5 1 1 Gbit s Electrical Transceiver l 1 5 2 1 25 Gbit s SFP eSFP Optical Module l 1 5 4 10 Gbit s SFP Optical Module NOTICE The optical interface of the 10GBase LAN WAN SFP FPIC supports 1 5 1 1 Gbit s Electrical...

Page 174: ...sumption 31 9 W Typical heat consumption 99 BTU hour Maximum heat consumption 108 8 BTU hour Board weight 0 9 kg 1 4 6 5 6 10GE SFP Daughter Card FW 6X10GE SFP The FW 6X10G SFP occupies one 1 2 width flexible card slot is compatible with LPUF 240s and LPUF 120s works in LAN or WAN mode uses SFP optical modules but is not hot swappable Panel Figure 1 87 shows the FW 6X10G SFP Figure 1 87 FW 6X10G S...

Page 175: ...odule see l 1 5 1 1 Gbit s Electrical Transceiver l 1 5 2 1 25 Gbit s SFP eSFP Optical Module l 1 5 4 10 Gbit s SFP Optical Module NOTICE The optical interface of the 10GBase LAN WAN SFP FPIC supports 1 5 1 1 Gbit s Electrical Transceiver and 1 5 2 1 25 Gbit s SFP eSFP Optical Module in V500R001C60 and later versions To use 1 5 1 1 Gbit s Electrical Transceiver and 1 5 2 1 25 Gbit s SFP eSFP Optic...

Page 176: ...odules but is not hot swappable Panel Figure 1 88 shows the FW 12X10G SFP Figure 1 88 FW 12X10G SFP FW 12X10G SFP S T A 0 1 2 3 4 5 6 7 8 9 1 0 1 1 T X 0 R X T X 1 R X T X 2 R X T X 3 R X T X 4 R X T X 5 R X T X 6 R X T X 7 R X T X 8 R X T X 9 R X T X 1 0 R X T X 1 1 R X Name Description STA green l Blinks every 2 seconds 0 5 Hz The system is working properly l Blinks twice each second 2 Hz The sy...

Page 177: ...ical Module in V500R001C60 and later versions To use 1 5 1 1 Gbit s Electrical Transceiver and 1 5 2 1 25 Gbit s SFP eSFP Optical Module in earlier versions you need to upgrade the software version Working mode Full duplex Frame format Ethernet_II Ethernet_SAP and Ethernet_SNAP Network protocol IP Technical Specifications Table 1 103 lists the technical specifications of the FW 12X10G SFP Table 1 ...

Page 178: ...1 89 FW 3X40G QSFP STATUS FW 3X40G QSFP RX TX L A RX TX L A RX TX L A Name Description STATUS green l Blinks every 2 seconds 0 5 Hz The system is working properly l Blinks twice each second 2 Hz The system is in the alarm state L A green l Steady on The link is connected l Blinking Data is being transmitted or received l Off The link is disconnected Interface Attributes Table 1 104 lists the attri...

Page 179: ...ical specifications of the FW 3X40G QSFP Item Specifications Board silkscreen name FW 3X40G QSFP Dimensions width x depth x height 178 mm x 225 mm x 38 mm Typical power consumption 50 W Maximum power consumption 55 W Typical heat consumption 170 6 BTU hour Maximum heat consumption 187 7 BTU hour Board weight 0 85 kg 1 4 6 8 1 Port 40GBase LAN CFP FPIC A E8KE X 101 1X40GE CFP The E8KE X 101 1X40GE ...

Page 180: ...attributes of interfaces on the E8KE X 101 1X40GE CFP Table 1 106 E8KE X 101 1X40GE CFP interface attributes Attribute Description Connector type LC PC Optical interface attribute Compliant with the selected CFP optical module For details about the optional attributes of the optical module see 1 5 5 40 Gbit s CFP Optical Modules Working mode Full duplex Frame format Ethernet_II Ethernet_SAP and Et...

Page 181: ...PUF 240s LPUF 120s and LPUF 101s works in LAN mode uses CFP optical modules but is not hot swappable Panel Figure 1 91 shows the FW 1X100G CFP Figure 1 91 FW 1X100G CFP FW 1X100G CFP FW 1X100G CFP T X T X 0 R X R X S T A T U S S T A T U S L A L A Name Description STATUS green l Blinks every 2 seconds 0 5 Hz The system is working properly l Blinks twice each second 2 Hz The system is in the alarm s...

Page 182: ...AP and Ethernet_SNAP Network protocol IP Technical Specifications Table 1 109 lists the technical specifications of the FW 1X100G CFP Table 1 109 Technical specifications of the FW 1X100G CFP Item Specifications Board silkscreen name FW 1X100G CFP Dimensions width x depth x height 178 mm x 130 mm x 35 mm Typical power consumption 51 W Maximum power consumption 56 1 W Typical heat consumption 174 B...

Page 183: ...o install 1 4 width flexible plug in cards install the guide rails delivered with cards NOTICE The LPUF 101 does not support the hot swap of FPICs Panel Figure 1 92 shows the LPUF 101 Figure 1 92 LPUF 101 RUN OFL 1 0 E8KE X LPUF 101 LPU RUN RUN OFL OFL LPU LPU Name Description OFL button To remove a board press and hold the button for five seconds until the OFL indicator turns on OFL indicator red...

Page 184: ...24XGE SFP The E8KE X 101 24XGE SFP occupies one 1 2 width flexible card slot is compatible with LPUF 240s LPUF 120s and LPUF 101s but is not hot swappable The 24 port 100 1000Base X SFP flexible card supports the following features l GE optical module supporting GE optical interface features l FE optical module supporting FE optical interface features l Electrical SFP module supporting 1000M elect...

Page 185: ... 101 24XGE SFP Table 1 111 E8KE X 101 24XGE SFP interface attributes Attribute Description Connector type LC PC Optical interface attribute Compliant with the selected SFP optical module For details about the optional attributes of the optical module see l 1 5 1 1 Gbit s Electrical Transceiver l 1 5 2 1 25 Gbit s SFP eSFP Optical Module Working mode Full duplex Standards compliance IEEE 802 3 2002...

Page 186: ...h flexible card slot is compatible with LPUF 101s but is not hot swappable NOTE The E8KE X 101 4X10GE SFP is a convergence subcard On average each port can converge to 20G Panel Figure 1 94 shows the E8KE X 101 4X10GE SFP Figure 1 94 E8KE X 101 4X10GE SFP L A T X 0 R X L A T X 1 R X L A T X 2 R X L A T X 3 R X E8KE X 101 4X10GE SFP S T A T U S Name Description STATUS green l Blinks every 2 seconds...

Page 187: ...ptical Module Frame format Ethernet_II Ethernet_SAP and Ethernet_SNAP Network protocol IP Technical Specifications Table 1 114 lists the technical specifications of the E8KE X 101 4X10GE SFP Table 1 114 Technical specifications of the E8KE X 101 4X10GE SFP Parameter Specifications Board silkscreen name E8KE X 101 4X10GE SFP Dimensions width x depth x height 89 1 mm x 203 3 mm x 37 2 mm Typical pow...

Page 188: ...L A L A 3 Name Description STATUS green l Blinks every 2 seconds 0 5 Hz The system is working properly l Blinks twice each second 2 Hz The system is in the alarm state L A green l Steady on The link is connected l Blinking Data is being transmitted or received l Off The link is disconnected Interface Attributes Table 1 115 lists the attributes of interfaces on the E8KE X 101 5X10GE SFP Table 1 115...

Page 189: ...rlier versions you need to upgrade the software version Working mode Full duplex Frame format Ethernet_II Ethernet_SAP and Ethernet_SNAP Network protocol IP Technical Specifications Table 1 116 lists the technical specifications of the E8KE X 101 5X10GE SFP Table 1 116 Technical specifications of the E8KE X 101 5X10GE SFP Attribute Specifications Board silkscreen name E8KE X 101 5X10GE SFP Dimensi...

Page 190: ...m state L A green l Steady on The link is connected l Blinking Data is being transmitted or received l Off The link is disconnected Interface Attributes Table 1 117 lists the attributes of interfaces on the E8KE X 101 1X40GE CFP Table 1 117 E8KE X 101 1X40GE CFP interface attributes Attribute Description Connector type LC PC Optical interface attribute Compliant with the selected CFP optical modul...

Page 191: ...ssing Unit LPUF 40 A 2 sub slots and FPIC 1 4 8 1 LPUF 40 A The LPUF 40 A is hot swappable and provides two 1 2 width slots each of which holds one FPIC It supports the following functions 1 Forwards packets at the line speed of 40 Gbit s 2 Enhances networking flexibility and provides low cost and customized solutions 3 Supports mixed insertion between different FPICs NOTICE The LPUF 40 A backplan...

Page 192: ...ributes Th LPUF 40 A does not provide interfaces externally Technical Specifications Table 1 119 lists the technical specifications of the LPUF 40 A Table 1 119 Technical specifications of the LPUF 40 A Item Description Silkscreen of the board name LPUF 40 A E8KE X LPUF 40 A Dimensions W x D x H 400 mm x 520 mm x 41 mm Typical power consumption 280 W Maximum power consumption 290 W Typical heat co...

Page 193: ... and electrical SFP modules Panel Figure 1 98 shows the P40 20xGE FE SFP Figure 1 98 P40 20xGE FE SFP P40 20 GE FE SFP P40 20 GE FE SFP S T A T U S 0 1 2 3 4 5 6 7 8 9 1 0 1 1 1 2 1 3 1 4 1 6 1 7 1 8 1 9 1 5 Name Description STATUS green l Blinks every 2 seconds 0 5 Hz The system is running normally l Blinks twice each second 2 Hz The system is in the alarm state Indicator below the interface gree...

Page 194: ...Technical specifications of the P40 20xGE FE SFP Item Specifications Board silkscreen name P40 20xGE FE SFP Dimensions width x depth x height 180 mm x 145 mm x 40 mm Typical power consumption 37 W Maximum power consumption 41 W Typical heat consumption 126 2 BTU hour Maximum heat consumption 139 9 BTU hour Board weight 0 6 kg 1 4 8 3 2 Port 10GBase LAN WAN XFP Flexible Card P40 2x10GBase LAN WAN X...

Page 195: ... 122 lists the attributes of interfaces on the P40 2x10GBase LAN WAN XFP NOTICE If you configure a 10 GE interface to work in WAN mode use single mode optical fibers to connect devices Table 1 122 P40 2x10GBase LAN WAN XFP interface attributes Attributes Description Connector type LC PC Optical interface attributes Compliant with the selected XFP optical module For details about the optional attri...

Page 196: ...he P40 4x10GBase LAN WAN XFP occupies one 1 2 width flexible card slot is compatible with LPUF 40 A works in LAN or WAN mode uses XFP optical modules but is not hot swappable NOTE The P40 4x10GBase LAN WAN XFP supports convergence The left most two ports can be converged to 10 Gbit s on average The right most two ports can be converged to 10 Gbit s on average Panel Figure 1 100 shows the P40 4x10G...

Page 197: ... Attributes Description Connector type LC PC Optical interface attributes Compliant with the selected XFP optical module For details about the optional attributes of the optical module see 1 5 3 10 Gbit s XFP Optical Module Frame format Ethernet_II Ethernet_SAP and Ethernet_SNAP Network protocol IP Technical Specifications Table 1 125 lists the technical specifications of the P40 4x10GBase LAN WAN...

Page 198: ...s hot swappable and has two 1 2 width slots each of which holds one FPIC It supports the following functions 1 forwarding packets at the line speed of 20 Gbit s 2 Networking flexibility and provisioning of low cost and customized solutions 3 Mixed application of different FPICs NOTICE The LPUF 21 backplane does not support the hot swapping of FPICs Panel Figure 1 101 shows the LPUF 21 Figure 1 101...

Page 199: ...Technical specifications of the LPUF 21 Item Specifications Board silkscreen name LPUF 21 E8KE X LPUF 21 Dimensions width x depth x height 400 mm x 520 mm x 41 mm Typical power consumption 170 W Maximum power consumption 187 W Typical heat consumption 580 1 BTU hour Maximum heat consumption 638 1 BTU hour Board weight 5 0 kg 1 4 9 2 12 port 10Base T 100Base TX 1000Base T RJ45 FPIC 12x10 100 1000Ba...

Page 200: ...X RJ45 interface attributes Attribute Description Connector type RJ45 Working mode 10M 100M 1000M adaptive supporting full duplex Cable specifications When the working mode is 10M or 100M it is recommended that Category 5 unshielded twisted pairs be used When the working mode is 1000M it is recommended that super Category 5 unshielded twisted pairs be used Compliance IEEE802 3 2002 Frame format Et...

Page 201: ...pies one 1 2 width flexible card slot is compatible with LPUF 21 but is not hot swappable The 12x100 1000Base SFP supports the following features l GE optical module for GE optical interface features l FE optical module for FE optical interface features l Electrical SFP module for features of the 10M 100M 1000M auto sensing electrical interfaces l Mixed application of GE optical FE optical and ele...

Page 202: ...e For details about the optional attributes of the optical module see l 1 5 1 1 Gbit s Electrical Transceiver l 1 5 2 1 25 Gbit s SFP eSFP Optical Module Working mode Full duplex Compliance IEEE 802 3 2002 Frame format Ethernet_II Ethernet_SAP and Ethernet_SNAP Network protocol IP Technical Specifications Table 1 130 shows the technical specifications of 12x100 1000Base SFP Table 1 130 Technical s...

Page 203: ... 104 shows the 1 x OC 192c STM 64c POS XFP Figure 1 104 1 x OC 192c STM 64c POS XFP Name Description STATUS green l Blinks every 2 seconds 0 5 Hz The system is running normally l Blinks twice each second 2 Hz The system is in the alarm state LINK ACT green l Steady on The link is connected l Blinking Data is being transmitted or received l Off The link is disconnected Interface Attributes Table 1 ...

Page 204: ...s of the 1 port OC 192c STM 64c POS XFP FPIC Item Specifications Board silkscreen name 1 x OC 192c STM 64c POS XFP Dimensions width x depth x height 180 mm x 145 mm x 40 mm Typical power consumption 16 W Maximum power consumption 17 6 W Typical heat consumption 54 6 BTU hour Maximum heat consumption 60 1 BTU hour Board weight 0 50 kg 1 4 9 5 1 port 10GBase LAN WAN XFP FPIC 1 x 10GBase LAN WAN The ...

Page 205: ...use single mode optical fibers to connect devices Table 1 133 1 x 10GBase LAN WAN interface attributes Attribute Description Connector type LC PC Optical interface attributes Compliant with the selected XFP optical module For details about the optional attributes of the optical module see 1 5 3 10 Gbit s XFP Optical Module Compliance IEEE 802 3ae Frame format Ethernet_II Ethernet_SAP and Ethernet_...

Page 206: ...ut does not support hot swap NOTE The 4x10GBase LAN WAN supports convergence The left most two ports can be converged to 10 Gbit s on average The right most two ports can be converged to 10 Gbit s on average Panel Figure 1 106 shows the 4x10GBase LAN WAN Figure 1 106 4x10GBase LAN WAN L I N K A C T T X 3 R X L I N K A C T T X 2 R X L I N K A C T T X 1 R X L I N K A C T T X 0 R X 4 10GBase LAN WAN ...

Page 207: ... XFP Optical Module Working mode Full duplex Frame format Ethernet_II Ethernet_SAP and Ethernet_SNAP Network protocol IP Technical Specifications Table 1 136 lists the technical specifications of the 4x10GBase LAN WAN Table 1 136 Technical specifications of the 4x10GBase LAN WAN Item Specifications Board silkscreen name 4x10GBase LAN WAN Dimensions width x depth x height 340 mm x 180 mm x 40 mm Ty...

Page 208: ... Name Description OFL button To remove a board press and hold the button for five seconds until the OFL indicator turns on OFL indicator red Steady on You can remove the board RUN indicator green l Blinks every 2 seconds 0 5 Hz The system is working properly l Blinks twice each second 2 Hz The system is in the alarm state LINK ACT green l Steady on The link is connected l Blinking Data is being tr...

Page 209: ...ical specifications of the LPUI 101 Table 1 138 Technical specifications of the LPUI 101 Item Specifications Board silkscreen name LPUI 101 1x100GBase LAN CFP E8KE X 101 1X100GE CFP Dimensions width x depth x height 399 2 mm x 532 6 mm x 40 1 mm Typical power consumption 339 W Maximum power consumption 373 W Typical heat consumption 1156 7 BTU hour Maximum heat consumption 1272 7 BTU hour Board we...

Page 210: ...transceivers Product Model BOM Number Interface Standard Transmis sion Distance Transmis sion Medium Auto negotiati on Remarks SFP 1000 BaseT 02314171 1000BAS E T 100 m 328 08 ft RJ 45 Supported To meet NEBS standards shielded cables must be available for this type of optical module used at sites in North America Table 1 140 lists the basic features of 1 Gbit s electrical transceivers and complian...

Page 211: ...andard 1000BASE T Transmission rate 10 1000 Mbit s Complying with IEEE802 3 Interface type RJ 45 Transmission distance 100m 328 08 ft Category 5 UTP BER 10 12 SFP RJ45 GE 100 1 5 2 1 25 Gbit s SFP eSFP Optical Module You can use different levels of 1 25 Gbit s SFP eSFP optical modules with GE interfaces and 10 GE interfaces The wavelength of common 1 25 Gbit s SFP eSFP optical modules can be 850 n...

Page 212: ... optical attenuator S SFP GE LH80 SM1550 02317348 1000BAS E ZX 80 49 71 Single mode 1550 Preferred When performin g a self loop test use an optical attenuator Table 1 143 lists the basic features of 1 25 Gbit s SFP eSFP optical modules and compliance standards Table 1 143 Basic features of 1 25 Gbit s SFP eSFP optical modules and compliance standards Item Description Interface standard IEEE802 3 S...

Page 213: ... with diameter of 50 μm 500 m l Multimode fiber OM2 with diameter of 50 μm 550 m Modal bandwidth l Multimode fiber 160 MHz km l Multimode fiber OM1 200 MHz km l Multimode fiber 400 MHz km l Multimode fiber OM2 500 MHz km Optical transmitter Optical source type VCSEL Center wavelength 850 nm Operating wavelength range 830 nm 860 nm Spectral characteristics Maximum root mean square RMS Spectral Widt...

Page 214: ...ard 1000BASE LX Transmission rate 1 25 Gbit s Interface type LC Transmission distance 10 km 6 21 mi Optical transmitter Optical source type FP Center wavelength 1310 nm Operating wavelength range 1270 1355 nm Spectral characteristics Maximum root mean square RMS Spectral Width 4 nm Maximum spectral width 20 dB N A Minimum side mode suppression ratio SMSR N A Average transmit optical power Maximum ...

Page 215: ...smission distance 40 km 25 mi Optical transmitter Optical source type DFB Center wavelength 1310 nm Operating wavelength range 1275 nm 1335 nm Spectral characteristics Maximum root mean square RMS Spectral Width N A Maximum spectral width 20 dB 1 0 nm Minimum side mode suppression ratio SMSR 30 dB Average transmit optical power Maximum transmit optical power 0 34060298 dBm Minimum transmit optical...

Page 216: ...tical source type DFB Center wavelength 1550 nm Operating wavelength range 1540 nm 1570 nm Spectral characteristics Maximum root mean square RMS Spectral Width N A Maximum spectral width 20 dB 1 0 nm Minimum side mode suppression ratio SMSR 30 dB Average transmit optical power Maximum transmit optical power 3 dBm Minimum transmit optical power 2 dBm Minimum extinction ratio 9 dB Optical receiver O...

Page 217: ... 80 km 49 71 mi Figure 1 110 10 Gbit s XFP Optical Module Table 1 148 lists the currently available 10 Gbit s XFP optical modules Table 1 148 10 Gbit s XFP optical modules Product Model BOM Number Interface Standard Transmis sion Distance km Transmis sion Medium Wavelen gth nm Remarks XFP SX MM850 02315176 10GBASE SR SW 0 3 0 19 mi Multi mode 850 XFP STM64 LX SM1310 02315208 10GBASE LR LW STM 64 O...

Page 218: ...ance standards Table 1 149 Basic features of 10 Gbit s XFP optical modules and compliance standards Item Description Interface standard IEEE802 3ae 10GE SONET OC 192 SDH STM 64 XFP MSA XFP 10G MM850 300 do not support SONET OC 192 SDH STM 64 Bit Error Ratio BER 1 x 10E 12 Temperature 0 70 C 32 F to 158 F Digital diagnosis XFP MSA INF8077i Environment standard RoHS exempted Security standard FCC cl...

Page 219: ...0 μm 400 m Modal bandwidth l Multimode fiber 160 MHz km l Multimode fiber OM1 200 MHz km l Multimode fiber 400 MHz km l Multimode fiber OM2 500 MHz km l Multimode fiber OM3 2000 MHz km l Multimode fiber OM4 4700 MHz km Optical transmitter Optical source type VCSEL Center wavelength 850 nm Operating wavelength range 840 860 nm Spectral characteristics Maximum root mean square RMS Spectral Width 0 4...

Page 220: ...rate 9 95328 Gbit s STM 64 OC 192 10GBASE LW 10 3125 Gbit s 10GBASE LR LW Interface type LC Transmission distance 10 km 6 21 mi Optical transmitter Optical source type DFB Center wavelength 1310 nm Operating wavelength range 1290 1330 nm Spectral characteristics Maximum root mean square RMS Spectral Width N A Maximum spectral width 20 dB 1 0 nm Minimum side mode suppression ratio SMSR 30 dB Averag...

Page 221: ...95328 Gbit s STM 64 OC 192 EW 10 3125 Gbit s 10GBASE ER Interface type LC Transmission distance 40 km 24 86 mi Optical transmitter Optical source type EML Center wavelength 1550 nm Operating wavelength range 1530 1565 nm Spectral characteristics Maximum root mean square RMS Spectral Width N A Maximum spectral width 20 dB 1 0 nm Minimum side mode suppression ratio SMSR 30 dB Average transmit optica...

Page 222: ...2 ZW 10 3125 Gbit s 10GBASE ZR Interface type LC PC Transmission distance 80 km 49 71 mi Optical transmitter Optical source type EML Center wavelength 1550 nm Operating wavelength range 1530 1565 nm Spectral characteristics Maximum root mean square RMS Spectral Width N A Maximum spectral width 20 dB 1 0 nm Minimum side mode suppression ratio SMSR 30 dB Average transmit optical power Maximum transm...

Page 223: ...ion distance ranges from 0 3 km 0 19 mi to 80 km 49 71 mi Figure 1 111 10 Gbit s SFP optical module Table 1 154 lists the currently available 10 Gbit s SFP optical modules Table 1 154 10 Gbit s SFP optical modules Product Model BOM Number Interfac e Standar d Transm ission Distanc e km Transmi ssion Mediu m Wavele ngth nm Remark s OMXD30 000 02318169 10GBAS E SR 0 3 0 19 mi Multi mode 850 OSX0100 ...

Page 224: ...AS E ZR 80 49 71 mi Single mode 1550 When performi ng a self loop test use an optical attenuato r Table 1 155 lists the basic features of 10 Gbit s SFP optical modules and compliance standards Table 1 155 Basic features of 10 Gbit s SFP optical modules and compliance standards Item Description Interface standard IEEE802 3ae 10GE SFP MSA SFF 8472 SONET OC 192 SDH STM 64 is not supported Bit Error R...

Page 225: ... 5 μm 26 m l Multimode fiber OM1 with diameter of 62 5 μm 33 m l Multimode fiber with diameter of 50 μm 66 m l Multimode fiber OM2 with diameter of 50 μm 82 m l Multimode fiber OM3 with diameter of 50 μm 300 m l Multimode fiber OM4 with diameter of 50 μm 400 m Modal bandwidth l Multimode fiber 160 MHz km l Multimode fiber OM1 200 MHz km l Multimode fiber 400 MHz km l Multimode fiber OM2 500 MHz km...

Page 226: ...um optical channel cost N A Maximum reflection factor 12 dB Table 1 157 lists the specifications of the OSX010000 optical modules Table 1 157 Specifications of the OSX010000 optical modules Item Specifications Interface standard 10GBASE LR Transmission rate 10 3125 Gbit s 10GBASE LR Interface type LC Transmission distance 10 km 6 21 mi Optical transmitter Optical source type DFB Center wavelength ...

Page 227: ... reflection factor 12 dB Table 1 158 lists the specifications of the OSX040N01 optical modules Table 1 158 Specifications of the OSX040N01 optical modules Item Specifications Interface standard 10GBASE ER Transmission rate 10 3125 Gbit s 10GBASE ER Interface type LC Transmission distance 40 km 24 86 mi Optical transmitter Optical source type EML Center wavelength 1550 nm Operating wavelength range...

Page 228: ...ecifications of the SFP 10G ZR optical modules Table 1 159 Specifications of the SFP 10G ZR optical modules Item Specifications Interface standard 10GBASE ER Transmission rate 10 3125 10GBASE ER 9 953 10GBASE WAN Interface type LC Transmission distance 80 km 49 72 mi Optical transmitter Optical source type EML Center wavelength 1550 nm Operating wavelength range 1530 1565 nm Spectral characteristi...

Page 229: ...Maximum optical channel cost N A Maximum reflection factor 27 dB 1 5 5 40 Gbit s CFP Optical Modules You can use 40 Gbit s CFP optical modules only on 40 GE interfaces They provide multiple wavelength ranges The transmission distance is 10 km 6 21 mi Figure 1 112 40 Gbit s CFP optical modules Table 1 160 lists the available 40 Gbit s CFP optical modules HUAWEI USG9500 Series Hardware Guide 1 Hardw...

Page 230: ...te BER 1 x 10E 12 Operating temperature 0 70 C 32 F to 158 F Digital diagnosis Environment standard RoHS exempted Safety standard FCC class B IEC 60825 1 Class 1 laser eye safe ESD 500V Human Body Model HBM Table 1 162 lists the CFP40 1331 10 LC optical module specifications Table 1 162 CFP40 1331 10 LC optical module specifications Item Specifications Interface standard 40GBASE LR4 Transmission r...

Page 231: ...ength 1264 5 1277 5 nm 1284 5 1297 5 nm 1304 5 1317 5 nm 1324 5 1337 5 nm Minimum receiver sensitivity 13 7 dBm Overload optical power 3 5 dBm Minimum optical channel overhead 1 5 dB Maximum reflection coefficient 26 dB 1 5 6 40 Gbit s QSFP Optical Module The 40 Gbit s QSFP optical modules can only be used with 40 GE interfaces The wavelength of these 40 Gbit s QSFP optical modules can be 850 nm o...

Page 232: ... 0 09 mi Multi mode 850 QSFP 40 G eSR4 02310RM B 40GBase eSR4 0 3 0 18 mi Multi mode 850 Table 1 164 lists the basic features of 40 Gbit s QSFP optical modules and their compliance standards Table 1 164 Basic features of 40 Gbit s QSFP optical modules and their compliance standards Item Description Interface standard IEEE 802 3ba Bit Error Ratio BER 1x10E 12 Temperature 0 C to 70 C 32 F to 158 F D...

Page 233: ...ce type DFB Center wavelength 1310 nm Operating wavelength range 1264 5 nm 1277 5 nm 1284 5 nm 1297 5 nm 1304 5 nm 1317 5 nm 1324 5 nm 1337 5 nm Spectral characteristics Maximum root mean square RMS spectral width N A Maximum spectral width 20 dB N A Minimum side mode suppression ratio SMSR N A Average transmit optical power Maximum transmit optical power 2 3 dBm Minimum transmit optical power 7 d...

Page 234: ...plicable cable and maximum transmission distance l Multimode fiber OM2 with diameter of 50 μm 30 m l Multimode fiber OM3 with diameter of 50 μm 100 m l Multimode fiber OM4 with diameter of 50 μm 150 m Modal bandwidth l Multimode fiber OM2 500 MHz km l Multimode fiber OM3 2000 MHz km l Multimode fiber OM4 4700 MHz km Optical transmitter Optical source type VCSEL Center wavelength 850 nm Operating w...

Page 235: ...tical modules Item Specifications Interface standard 40GBase eSR4 Transmission rate 41 25 Gbit s Interface type MPO Applicable cable and maximum transmission distance l Multimode fiber OM2 with diameter of 50 μm 82 m l Multimode fiber OM3 with diameter of 50 μm 300 m l Multimode fiber OM4 with diameter of 50 μm 400 m Modal bandwidth l Multimode fiber OM2 500 MHz km l Multimode fiber OM3 2000 MHz k...

Page 236: ...ange 840 nm 860 nm Receiver sensitivity 9 9 dBm Overload power 2 4 dBm Maximum optical channel cost N A Maximum reflection factor N A 1 5 7 100 Gbit s CFP Optical Modules You can use 100 Gbit s CFP optical modules only on 100 GE interfaces They provide multiple wavelength ranges The transmission distance ranges from 0 1 km 0 06 mi to 10 km 6 21 mi Figure 1 114 100 Gbit s CFP optical modules HUAWEI...

Page 237: ...s and standards of 100 Gbit s CFP optical modules Item Description Interface standard 100GBASE LR4 100GBASE SR10 Bit error rate BER 1 x 10E 12 Operating temperature 0 70 C 32 F to 158 F Digital diagnosis Environment standard RoHS exempted Safety standard FCC class B IEC 60825 1 Class 1 laser eye safe ESD 500V Table 1 170 lists the CFP 100G LR4 optical module specifications Table 1 170 CFP 100G LR4...

Page 238: ...age transmit optical power Maximum transmit optical power 4 5 dBm Minimum transmit optical power 4 3 dBm Minimum extinction ratio 4 0 dB Optical receiver Working wavelength 1294 53 1296 59 nm 1299 02 1301 09 nm 1303 54 1305 63 nm 1308 09 1310 19 nm Receiver sensitivity 10 6 dBm Overload optical power 4 5 dBm Minimum optical channel overhead 1 5 dB Maximum reflection coefficient 26 dB Table 1 171 l...

Page 239: ...cal transmitter Optical source type DFB Center wavelength 850 nm Working wavelength 840 860 nm Spectrum attributes Maximum root mean square RMS spectral width Maximum spectrum width 20 dB Minimum Side Mode Suppression Ratio SMSR Average transmit optical power Maximum transmit optical power 2 4 dBm Minimum transmit optical power 7 6 dBm Minimum extinction ratio 3 dB Optical receiver Working wavelen...

Page 240: ...ent and unpack and check the products 2 2 Installing USG9580 This section describes how to install the USG9580 2 3 Installing USG9560 This section describes how to install the USG9560 2 4 Installing USG9520 This section describes how to install the USG9520 2 5 Power Distribution Design Guide This section describes how to configure power distribution HUAWEI USG9500 Series Hardware Guide 2 Hardware ...

Page 241: ...er should provide copies before delivery Machine room site survey report Produced by a Huawei site survey engineer after site survey Engineering design including network functions networking diagrams and network addresses planning Compiled by the Huawei Engineering Design Department according to the equipment configuration of the sites Delivered at the installation site along with the equipment Pr...

Page 242: ... cable l RJ 45 crimping tool used to crimp RJ 45 cables for telephony and Ethernet applications l Crimping tool used to crimp the metal sleeve at the ends of coaxial cables l ESD gloves used to protect the device from damage caused by static electricity l ESD wrist strip used to protect the device from damage caused by static electricity l Protective gloves used to protect hands from sharp objects...

Page 243: ...humidity Y N N A Altitude Y N N A Neatness As stated in A 3 5 Dust Requirements Y N N A Corrosive Gases As stated in A 3 6 Corrosive Gases Requirements Y N N A Electrostatic discharging As stated in A 3 7 ESD Prevention Requirements Y N N A Electromagnetic shielding As stated in A 3 8 Electromagnetism Requirements for the Equipment Room Y N N A Surge protection As stated in A 3 9 Requirements for ...

Page 244: ...cated on the Packing List or the products are delivered to the wrong destination Perform step 3 Step 3 The engineering supervisor must send the Cargo Inspection Feedback Form that is confirmed and signed by the customer to the order management engineer in the local Huawei representative office within three days At the same time stop unpacking the products Step 4 Check whether the exterior of the p...

Page 245: ...ce on the more fragile parts such as the cable support or the cable fixing beam Doing so may damage the cabinet or cause an injury Remove the backing blocks from the rack only after the cabinet is carried to the installation site to avoid damaging signal cables and boards during transportation l Correctly orient the wooden case Do not place the wooden case upside down Doing so may severely damage ...

Page 246: ...re sharp and may cause injury Step 4 After straightening all the tongues on the cover remove the cover as shown in Figure 2 2 Figure 2 2 Removing the cover HUAWEI USG9500 Series Hardware Guide 2 Hardware Installation Issue 03 2017 12 15 Huawei Proprietary and Confidential Copyright Huawei Technologies Co Ltd 234 ...

Page 247: ...den panels and remove the side wooden panel as shown in Figure 2 3 Figure 2 3 Removing the side wooden panels HUAWEI USG9500 Series Hardware Guide 2 Hardware Installation Issue 03 2017 12 15 Huawei Proprietary and Confidential Copyright Huawei Technologies Co Ltd 235 ...

Page 248: ...an neat and completely painted l The labels on the cabinet Ensure that the labels on the cabinet are correct legible and complete End 2 1 4 3 Unpacking the Carton Cartons contain cables boards and terminal devices Procedure Step 1 Read the carton label carefully to understand the types and quantities of the boards in the carton Step 2 Cut off packing straps with diagonal pliers Step 3 Cut the tape...

Page 249: ... Unpacking the carton 2 3 1 5 6 8 9 7 5 7 4 1 Pressure sensitive adhesive tape 2 Packing strap 3 Carton label 4 Carton 5 Foam plate 6 Label of the board box 7 Board box 8 ESD bag 9 Board NOTICE Do not throw away any carton containing boards It is recommended that one person unpacks one carton After unpacking a carton make sure that it is empty before unpacking another carton End 2 1 4 4 Checking t...

Page 250: ... boards and components on an antistatic pad or other antistatic materials Do not use non antistatic materials such as white foams common plastic bags or paper bags to pack boards and do not let such materials touch boards l Wear an ESD wrist strap when operating the ports of boards as they are also ESD sensitive Discharge the static electricity of cables and protective sleeves before connecting th...

Page 251: ...ed as an example As shown in Figure 2 5 cabinet clearance must meet the following requirements l Aisles in the equipment room 1000 mm aisles between cabinet rows 1000 mm l Space between cabinet sides and wall 800 mm l Space between cabinet row and wall 1000 mm Figure 2 5 Diagram for cabinet deployment 1000mm 800mm 00mm m 1000mm 800mm 600mm 600mm 600mm m Device Deployment Requirements The USG9580 c...

Page 252: ... can mount the USG9580 in a 19 inch standard cabinet using guide rails Context CAUTION l The USG9580 is heavy and requires four people to lift and move l When moving the device use the handles on the chassis sides To avoid damaging the device do not use the handles on modules l Do not step on the air filter at the bottom of the cabinet Procedure Step 1 Install floating nuts and guide rails 1 Deter...

Page 253: ...for fiber spool The second hole in rack unit 41 for power The second hole in rack unit 42 for power The second hole in rack unit 38 for power The second hole in rack unit 39 for power Location of floating nuts for guide rails Location of floating nuts for guide rails Location of floating nuts for guide rails M6 1U Chassis AC power frame AC power source is used Step 2 Install mounting ears Use a Ph...

Page 254: ...cabinet place it onto the guide rails and push it into the cabinet 2 Use M6 screws to fix the mounting ears of the USG9580 to the mounting rack as shown in Figure 2 8 HUAWEI USG9500 Series Hardware Guide 2 Hardware Installation Issue 03 2017 12 15 Huawei Proprietary and Confidential Copyright Huawei Technologies Co Ltd 242 ...

Page 255: ...AC power supply one USG9580 requires two AC power chassis as shown in Figure 2 9 Figure 2 9 Mounting the AC power chassis in the cabinet Cabinet front Cabinet rear Cabinet Cabinet rear M6 18kg 39 7 1b End Follow up Procedure Verify the following HUAWEI USG9500 Series Hardware Guide 2 Hardware Installation Issue 03 2017 12 15 Huawei Proprietary and Confidential Copyright Huawei Technologies Co Ltd ...

Page 256: ...s is close to the ground bar in the equipment room connect the PGND cable of the chassis directly to the ground bar If the chassis is far away from the ground bar connect the PGND cable to the ground point on the cabinet In this section connecting the PGND cable to the ground point on the cabinet is used as an example Procedure Step 1 Install the chassis ground cable as shown in Figure 2 10 Step 2...

Page 257: ... on a multimeter 2 2 4 Installing Boards and Subcards This section describes how to install boards and subcards Context CAUTION l Ensure that the device and board are completely dry and free of liquid before inserting the board into the device l Before installing boards wear the ESD wrist strap and ensure that the strap is well grounded to prevent any electrostatic discharge from damaging sensitiv...

Page 258: ... P U S P U L P U S P U M P U M P U 8 9 10 11 12 13 14 15 16 SFUI 200 B 19 20 21 22 SFU SFU SFU SFU L P U S P U L P U S P U L P U S P U L P U S P U L P U S P U L P U S P U L P U S P U L P U S P U L P U S P U Step 2 Install a board 1 Remove the filler panel from the selected slot 2 Extend the ejector levels of the board insert the board fully into the slot and rotate the ejector level to the front o...

Page 259: ...ed into vacant slots Filler panels prevent intrusion of dust and ensure heat dissipation 2 2 5 Installing Chassis Components Air filters are used to protect devices against dust and cable racks are used to route optical fibers and cables Procedure l Install air filters on the upper and lower air intake frames NOTE The air intake vent has two air filters one on the upper end of the front panel of t...

Page 260: ...on the lower cable rack a Align the studs of the cable rack with the holes on the front panel of the device and insert the rack b Push the upper rack upward until it clicks into place c Push the lower downward until it clicks into place d Use ten M4 screws to fasten the cable rack into place HUAWEI USG9500 Series Hardware Guide 2 Hardware Installation Issue 03 2017 12 15 Huawei Proprietary and Con...

Page 261: ...sis a Align the studs of the cable rack with the holes on the rear panel of the device and insert the rack b Push the rack to the left or right until it clicks into place c Tighten the captive screws HUAWEI USG9500 Series Hardware Guide 2 Hardware Installation Issue 03 2017 12 15 Huawei Proprietary and Confidential Copyright Huawei Technologies Co Ltd 249 ...

Page 262: ...o connect power cables to the two DC supply modules Context DANGER Never install power cables when the power is on Before installing power cables ensure that the device is adequately grounded l There is a length of copper core inside the cable Do not connect anything to the core l DC power distribution cables HUAWEI USG9500 Series Hardware Guide 2 Hardware Installation Issue 03 2017 12 15 Huawei P...

Page 263: ...marker Step 2 Connect the M6 JG2 terminals of the DC power cable to the PEM modules on USG9580 Connect the M8 OT terminals of the DC power cable to the output terminals on the power supply device Step 3 Use cable ties to bind the cables together at 100 mm intervals fixing the cables along the cabling rack from bottom to top HUAWEI USG9500 Series Hardware Guide 2 Hardware Installation Issue 03 2017...

Page 264: ...2 RTN Power supply A A1 Power supply A A1 Power supply A A2 Power supply A A2 PEM A3 NEG PEM A3 RTN PEM A4 NEG PEM A4 RTN Power supply B B3 Power supply B B3 Power supply B B4 Power supply B B4 Power supply B B1 Power supply B B1 Power supply B B2 Power supply B B2 PEM B1 NEG PEM B1 RTN PEM B2 NEG PEM B2 RTN PEM B3 NEG PEM B3 RTN PEM B4 NEG PEM B4 RTN From To From To e f a b g h c d e f g h d End ...

Page 265: ...ach AC power chassis to the AC PDF Context DANGER Never install power cables when the power is on Before installing power cables ensure that the device is adequately grounded NOTICE With the 110 V AC power supply the USG9580 must use 110 V dual live wire AC input to meet the maximum system power consumption requirements with the full configuration This is because AC power modules are half load out...

Page 266: ...C power chassis Connect the other ends of the AC power cables to the AC power supply device Step 3 Connect the ends of the DC power cables to the PEM on the USG9580 Connect the other ends of the DC power cables to the output terminals of the AC power chassis Step 4 Use cable ties to bind the cables together at 100 mm intervals fixing the cables along the cabling rack from bottom to top Step 5 Affi...

Page 267: ...A3 NEG PEM A3 RTN PEM A4 NEG PEM A4 RTN PEM A1 NEG PEM A1 RTN PEM A2 NEG PEM A2 RTN From To a b c d Neutral wire Live wire B1 Neutral wire Live wire B2 Neutral wire Live wire B3 Neutral wire Live wire B4 Power chassis B3 Power chassis B3 Power chassis B4 Power chassis B4 Power chassis B1 Power chassis B1 Power chassis B2 Power chassis B2 PEM B1 NEG PEM B1 RTN PEM B2 NEG PEM B2 RTN PEM B3 NEG PEM B...

Page 268: ... through cables Currently Ethernet ports on most devices can dynamically adapt to both types of cables For devices that do not support dynamic adaptation use the correct cables In terms of electromagnetic compatibility network cables are either ordinary or shielded cables Shielded cables are preferred because of their higher electromagnetic compatibility NOTICE Before connecting a cable ensure tha...

Page 269: ... 2 2 2 3 11 1 3 C L K 1 P P S C L K S e ri a l R U N A L M A C T R E S E T C F A C T T 1 O F L MPUB C L K 1 P P S C L K S e ri a l E8KE X 101 24XGE SFP S T A T U S 0 1 2 3 4 5 6 7 8 9 1 0 1 1 1 2 1 3 1 4 1 5 1 6 1 7 1 8 1 9 2 0 2 1 2 2 2 3 0 1 1 0 1 2 2 2 2 3 1 1 1 3 Ethernet interface of the peer device Ethernet cable 1 2 Step 4 Lay out the network cable along a cabinet and route the cable throug...

Page 270: ...d fiber spools for convenient cable routing and device maintenance Determine the locations of the fiber spools based on the device arrangement in the cabinet Positioning the fiber spools too close to the device operation area may inhibit board insertion or removal or cabling However positioning the fiber spools too far away from the device may inhibit fiber spool operation Figure 2 20 Installing f...

Page 271: ...of the optical fiber Step 2 Remove the dust cap from an optical interface and insert an optical module into the optical interface Step 3 Remove the dust cap from the optical transceiver NOTE Store the dust cap for future use When optical fibers are disconnected for maintenance use the dust cap to protect the optical transceiver from dust Step 4 Remove protective caps from optical fiber connectors ...

Page 272: ... T A T U S 0 1 2 3 4 5 6 7 8 9 1 0 1 1 1 2 1 3 1 4 1 5 1 6 1 7 1 8 1 9 2 0 2 1 2 2 2 3 0 1 1 0 1 2 2 2 2 3 1 1 1 3 1 2 4 3 Optical fiber Optical interface of the peer device Step 5 Repeat Step 1 through Step 4 to install all optical transceivers and connect all optical fibers Step 6 Wind up the redundant optical fibers around a fiber management tray Step 7 Bind optical fibers at 200 mm intervals w...

Page 273: ... The cabinet is positioned according to instructions in the engineering design document 2 The deviation of the cabinet is less than 3 mm horizontally and not more than 3 mm vertically 3 All bolts are firmly fastened especially those for electrical connections Both flat washers and spring washers are used and the spring washers are placed over the flat washers 4 The cabinet is neat and clean 5 The ...

Page 274: ...connectors are securely linked especially those at the bottom of the cabinet 8 The cables are properly bound Cable ties are tied at equal intervals and in the same direction 9 The power cable and ground cable are routed separately from other cables 10 The cable layout facilitates future maintenance and expansion 11 The labels at each end of each cable are legible 12 Excess cable tie is trimmed off...

Page 275: ... supply in the Syatem 㔕 ב ᝅഴ FAN A5 FFU A7 FFU B7 FAN B5 FAN A6 FFU A8 FFU B8 FAN B6 1 2 3 17 18 4 5 6 19 20 21 22 7 8 9 10 11 12 13 14 15 16 FRONT ࢃ REAR PEM A1 A2 B1 B2 A3 A4 B3 B4 Insert or remobe the fan frame with both hands ਂᢁᨈᤊ伄 Hazardous moving parts keep fingers and other body parts away ћ 伄 ᰁ䖢ᰬ 䀜 ਬέ FAN STATUS Lifting Hazard May result in injury or equipment damage ᣀᢁᣢ儎䇴 Ⱦਥ㜳Րሲ㠪Ӱ䓡 ᇩȾ Inse...

Page 276: ... indicator status changes from off blink once every 250 ms 4 Hz off steady on and then to blink once every two seconds 0 5 Hz After the MPU SRU is registered the MPU SRU is working properly if the indicator blinks at 0 5 Hz NOTE Possible causes for an off indicator include l The BootROM is damaged l The MPU cannot be powered on Possible causes for the indicator blinking quickly include l The CF ca...

Page 277: ... The power cable and PGND cable are properly connected l The power switch in the equipment room is easy to locate so that you can quickly power off devices in case of any problems Procedure Step 1 Turn on external AC power supplies A and B Step 2 Measure the input voltage of the AC power chassis with a multimeter to ensure that the voltage falls between 90 V AC and 264 V AC Step 3 Turn on the circ...

Page 278: ...1 B2 A3 A4 B3 B4 Insert or remobe the fan frame with both hands ਂᢁᨈᤊ伄 Hazardous moving parts keep fingers and other body parts away ћ 伄 ᰁ䖢ᰬ 䀜 ਬέ FAN STATUS Lifting Hazard May result in injury or equipment damage ᣀᢁᣢ儎䇴 Ⱦਥ㜳Րሲ㠪Ӱ䓡 ᇩȾ Insert or remobe the fan frame with both hands ਂᢁᨈᤊ伄 Hazardous moving parts keep fingers and other body parts away ћ 伄 ᰁ䖢ᰬ 䀜 ਬέ FAN STATUS Lifting Hazard May result in in...

Page 279: ...m is generated Fault indicator Red If the indicator is off the AC power chassis is running properly If the indicator is on an exception has occurred The AC power chassis is powered off due to over voltage or over temperature or fans are faulty or the AC power chassis has no output due to its internal faults DC output voltage The normal voltage ranges from 43 2 V DC to 57 V DC Table 2 6 Device indi...

Page 280: ...aulty l The other control chips on the MPU SRU are faulty preventing the MPU SRU from initializing ALM Red If the indicator is steady off the MPU SRU is in the normal state If the indicator is steady red an alarm is generated SFU RUN Green From the SFU being powered on until it is registered the indicator status changes from off blink once every 250 ms 4 Hz off steady on and then to blink once eve...

Page 281: ...cy Meanwhile one AC power chassis must be installed on the device NOTICE With the 110 V AC power supply the USG9560 must use 110 V dual live wire AC input to meet the maximum system power consumption with the full configuration This is because AC power modules are half load output with 110 V AC input which cannot meet the system power consumption Cabinet Requirements You are advised to use Huawei ...

Page 282: ...een devices installed in the same cabinet between the top most device and the cabinet top and between the bottom most device and the cabinet bottom l Maintenance A minimum of 700 mm between devices and between devices and walls NOTE The length of three holes on the mounting rails is 1 U which is equivalent to 44 45 mm 2 3 2 Installing the Chassis into the Cabinet You can mount the USG9560 in a 19 ...

Page 283: ...in position Figure 2 26 Installing floating nuts and guide rails Location of floating nuts for guide rails M6 1U The third hole in rack unit 3 for device The third hole in rack unit 6 for device The first hole in rack unit 13 for device The first hole in rack unit 16 for device The second hole in rack unit 17 for fiber spool The second hole in rack unit 18 for fiber spool Chassis AC power chassis ...

Page 284: ...unt the USG9560 in the cabinet 1 Lift up the USG9560 place it onto the cabinet guide rails and push it into the cabinet 2 Use M6 screws to fix the mounting ears of the USG9560 to the mounting rack as shown in Figure 2 28 HUAWEI USG9500 Series Hardware Guide 2 Hardware Installation Issue 03 2017 12 15 Huawei Proprietary and Confidential Copyright Huawei Technologies Co Ltd 272 ...

Page 285: ...one AC power chassis is required for the USG9560 as shown in Figure 2 29 Figure 2 29 Mounting the AC power chassis in the cabinet 18kg 39 7 1b M6 Cabinet front Cabinet rear End Follow up Procedure Perform the following checks after the installation HUAWEI USG9500 Series Hardware Guide 2 Hardware Installation Issue 03 2017 12 15 Huawei Proprietary and Confidential Copyright Huawei Technologies Co L...

Page 286: ...If the chassis is close to the ground bar in the equipment room connect the PGND cable of the chassis directly to the ground bar If the chassis is far away from the ground bar connect the PGND cable to the ground point on the cabinet In this section connecting the PGND cable to the ground point on the cabinet is used as an example Procedure Step 1 Install the chassis ground cable as shown in Figur...

Page 287: ...talling Boards and Subcards This section describes how to install boards and subcards Context CAUTION l Ensure that the device and board are completely dry and free of liquid before inserting the board into the device l Before installing boards wear the ESD wrist strap and ensure that the strap is well grounded to prevent any electrostatic discharge from damaging sensitive components HUAWEI USG950...

Page 288: ...e board insert the board fully into the slot and rotate the ejector level to the front of the board 3 Use a Phillips screwdriver to fasten the captive screws to the board Figure 2 32 Installing a board a b b 2 3 1 Step 3 Install a subcard NOTE Before you install a subcard remove redundant guide rails from the board and store them for future use 1 Remove the filler panel from the board 2 Smoothly i...

Page 289: ...mponents Air filters are used to protect devices against dust and cable racks are used to route optical fibers and cables Procedure l Install air filters on the air intake frame NOTE Orient the pin on the air filter towards the hole to prevent installing upside down Otherwise the air filter cannot be installed Figure 2 34 Installing air filters on the air intake frame HUAWEI USG9500 Series Hardwar...

Page 290: ...es an NEG DC power cable and an RTN DC power cable This section describes how to connect power cables to the two DC supply modules Context DANGER Never install power cables when the power is on Before installing power cables ensure that the device is adequately grounded l There is a length of copper core inside the cable Do not connect anything to the core l DC power distribution cables HUAWEI USG...

Page 291: ...rker Step 2 Connect the M6 JG2 terminals of the DC power cable to the PEMs on the USG9560 Connect the M8 OT terminals of the DC power cable to the output terminals on the power supply device Step 3 Use cable ties to bind the cables together at 100 mm intervals fixing the cables along the cabling rack from bottom to top HUAWEI USG9500 Series Hardware Guide 2 Hardware Installation Issue 03 2017 12 1...

Page 292: ...ALM NEG RTN PEM 48 60V 8 60A RUN ON OFF ALM NEG RTN PEM 48 60V 8 60A Power A A1 Power A A1 PEM A1 NEG PEM A1 RTN a b c d PEM A1 PEM A2 PEM B1 PEM B2 End Follow up Procedure NOTICE The power cable has polarity After the device is powered on if the PEM indicator blinks red check whether the anode and cathode of the PEM power cable are properly connected If they are not properly connected immediately...

Page 293: ... installing power cables ensure that the device is adequately grounded NOTICE l With the 110 V AC power supply the USG9560 must use 110 V dual live wire AC input to meet the maximum system power consumption requirements with the full configuration This is because AC power modules are half load output with 110 V AC input which cannot meet system power consumption requirements l As the USG9560 does ...

Page 294: ...C power chassis Connect the other ends of the AC power cables to the AC power supply device Step 3 Connect the ends of DC power cables to the PEM modules on USG9560 Connect the other ends of the DC power cables to the output terminals of the AC power chassis Step 4 Use cable ties to bind the cables together at 100 mm intervals fixing the cables along the cabling rack from bottom to top Step 5 Affi...

Page 295: ...ower chassis A1 Power chassis A2 Power chassis A2 PEM A1 NEG PEM A1 RTN PEM A2 NEG PEM A2 RTN PEM B1 NEG PEM B1 RTN PEM B2 NEG PEM B2 RTN Live wire End Follow up Procedure NOTICE The power cable has polarity After the device is powered on if the PEM indicator blinks red check whether the anode and cathode of the PEM power cable are properly connected If they are not properly connected immediately ...

Page 296: ...traight through cables Currently Ethernet ports on most devices can dynamically adapt to both types of cables For devices that do not support dynamic adaptation use the correct cables In terms of electromagnetic compatibility network cables are either ordinary or shielded cables Shielded cables are preferred because of their higher electromagnetic compatibility NOTICE Before connecting a cable ens...

Page 297: ... P P S C LK S er ia l E8KE X LPUF 101 LPUF 101 RUN OFL E8KE X 101 24XGE SFP S TA T U S 0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 0 1 10 12 22 23 11 13 E8KE X 101 24XGE SFP S TA T U S 0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 0 1 10 12 22 23 11 13 Ethernet cable Ethernet interface of the peer device Step 4 Lay out the network cable along a cabinet and route t...

Page 298: ...t Positioning the fiber spools too close to the device operation area may inhibit board insertion or removal or cabling However positioning the fiber spools too far away from the device may inhibit fiber spool operation Figure 2 39 Installing fiber spools M6 Install the fiber spool left Install the fiber spool right M6 Installing Optical Transceivers and Connecting Optical Fibers CAUTION Do not lo...

Page 299: ...om the optical transceiver NOTE Store the dust cap for future use When an optical fiber is disconnected for maintenance use the dust cap to protect the optical transceiver Step 4 Remove protective caps from optical fiber connectors insert optical fibers into the optical transceiver and connect the fiber to the peer device NOTE Ensure that the Tx and Rx ports are correctly connected Ensure that the...

Page 300: ... 9 1 0 1 1 1 2 1 3 1 4 1 5 1 6 1 7 1 8 1 9 2 0 2 1 2 2 2 3 0 1 1 0 1 2 2 2 2 3 1 1 1 3 1 2 4 3 Optical fiber Optical interface of the peer device Step 5 Repeat Step 1 through Step 4 to install all optical transceivers and connect all optical fibers Step 6 Wind up excess optical fibers around a fiber management tray Step 7 Use tape to bind the optical fibers together at 200 mm intervals Use cable t...

Page 301: ... The cabinet is positioned according to instructions in the engineering design document 2 The deviation of the cabinet is less than 3 mm horizontally and not more than 3 mm vertically 3 All bolts are firmly fastened especially those for electrical connections Both flat washers and spring washers are used and the spring washers are placed over the flat washers 4 The cabinet is neat and clean 5 The ...

Page 302: ...onnectors are securely linked especially those at the bottom of the cabinet 8 The cables are properly bound Cable ties are tied at equal intervals and in the same direction 9 The power cable and ground cable are routed separately from other cables 10 The cable layout facilitates future maintenance and expansion 11 The labels at each end of each cable are legible 12 Excess cable tie is trimmed off ...

Page 303: ...1P PS CL K Se ria l R U N A C T O F L SFUI 200 C Diagram of partitioned Power supply in the Syatem 㔕 ב ᝅഴ FAN A3 FFU A4 FFU B4 PEM FAN B3 A1 A2 B1 B2 FAN FFU A FAN FFU B Insert or remobe the fan frame with both hands ਂᢁᨈᤊ伄 Hazardous moving parts keep fingers and other body parts away ћ 伄 ᰁ䖢ᰬ 䀜 ਬέ FAN STATUS Lifting Hazard May result in injury or equipment damage ᣀᢁᣢ儎䇴 Ⱦਥ㜳Րሲ㠪Ӱ䓡 ᇩȾ Insert or remobe ...

Page 304: ...icator blinks at 0 5 Hz NOTE Possible causes for an offline indicator are l The BootROM is damaged l The MPU cannot be powered on Possible causes for the indicator blinking quickly include l The CF card is faulty l The other control chips on the MPU SRU are faulty preventing the MPU SRU from initializing ALM Red If the indicator is steady off the MPU SRU is in the normal state If the indicator is ...

Page 305: ...ween 90 V AC and 264 V AC Step 3 Turn on the circuit breakers of external AC power supplies A and B and check the status of the indicators on the AC power chassis Step 4 Measure the input voltage of the device with a multimeter to ensure that the voltage falls between 72 V DC and 38 V DC Step 5 Measure the input voltage of the device with a multimeter to ensure that the voltage falls between 72 V ...

Page 306: ...the device PEM A1 PEM A2 PEM B1 PEM B2 R U N A L M A C T R E S E T O F L LI NK A LI NK CT M G M T ET H RUN ALM ACT Green blinking once every two seconds Grey off Green steady on for active SRU Green off for standby SRU STATUS Blinking green ALM Red off RUN ON OFF ALM RUN Green steady on End Result Table 2 8 Indicators on the AC power chassis Item Color Status Description Possible Exception Causes ...

Page 307: ... faulty or not all PEMs are powered on MPU SRU RUN Green From the time the MPU SRU is powered on until it is registered the indicator status changes from off blink once every 250 ms 4 Hz off steady on and then to blink once every two seconds 0 5 Hz After the MPU SRU is registered the MPU SRU is working properly if the indicator blinks at 0 5 Hz NOTE Possible causes for an off indicator include l T...

Page 308: ...hat the device works properly Power Supply System Requirements l If DC power supply is used ensure that the outputs of the DC power distribution box fall between 72 V DC and 38 V DC Two power modules are needed and each power module must be connected to two different power sources for redundancy l If AC power supply is used ensure that the output voltage of the AC power distribution cabinet falls ...

Page 309: ... 800mm 600mm 600mm 600mm m Device Clearance Requirements The USG9520 DC chassis is 4 U high and the USG9520 AC chassis is 5 U The USG9520 requires front and back maintenance mode The device must meet the following clearance requirements l Airflow A minimum of 75 mm between the air intake of the cabinet and neighboring objects If the air intake of the cabinet is next to another communication device...

Page 310: ...stall the cable rack Figure 2 45 Installing the cable rack M4 l Install the mounting ears NOTE Before installing the mounting ears measure the distance L between the mounting bar and the front door The mounting ear is installed is different ways depending on the distance L as shown in the following figures Figure 2 46 Space between the surface of the mounting ear and the inside of the front door L...

Page 311: ...dles on the chassis sides when moving the device To avoid damaging the device do not use the module handles l Do not step on the air filter at the bottom of the cabinet Procedure Step 1 Install floating nuts and guide rails 1 Determine where to install floating nuts and mark the positions using a marker as shown in Figure 2 48 2 Fix the floating nuts in the positions 3 Use M6 screws to fix the gui...

Page 312: ...rd hole in rack unit 3 for device The first hole in rack unit 7 for device The second hole in rack unit 8 for fiber spool The second hole in rack unit 9 for fiber spool Step 2 Mount the USG9520 in the cabinet 1 Lift up the USG9520 place it onto the cabinet guide rails and push it into the cabinet 2 Use M6 screws to fix the mounting ears of the USG9520 to the mounting rack as shown in Figure 2 49 H...

Page 313: ... the device ensure that the PGND cable of the cabinet is correctly connected and the ground resistance is zero ohm Context If the chassis is close to the ground bar in the equipment room connect the PGND cable of the chassis directly to the ground bar If the chassis is far away from the ground bar connect the PGND cable to the ground point on the cabinet In this section connecting the PGND cable t...

Page 314: ...completely dry and free of liquid before inserting the board into the device l Before installing boards wear the ESD wrist strap and ensure that the strap is well grounded to prevent any electrostatic discharge from damaging sensitive components Procedure Step 1 Select slots based on slot distribution You can determine whether a slot is suitable for a board by checking whether the color on both en...

Page 315: ...b Step 3 Install a subcard NOTE Before you install a subcard remove redundant guide rails from the board and store them for future use 1 Remove the filler panel from the board 2 Smoothly insert the subcard into the board along the guide rail 3 Use a Phillips screwdriver to fasten the captive screws to the board Figure 2 53 Installing a subcard 2 3 1 End Follow up Procedure Verify the following l B...

Page 316: ...s how to connect power cables to the two DC supply modules Context DANGER Never install power cables when the power is on Before installing power cables ensure that the device is adequately grounded l There is a length of copper core inside the cable Do not connect anything to the core l DC power distribution cables Cable Image NEG cable RTN cable l DC cable terminals HUAWEI USG9500 Series Hardwar...

Page 317: ...s WARNING ཝ 䀜 θ 䘔 Ⓠⴈ䙐 ؗ 㖇㔒ҁࢃൽ亱 ݾ ൦ Air Filter Refer to diagram of cable routing The air filter can not be covered by cables 䈭 ᝅഴ䎦㓵θ 㓵㔼уᗍ䚤ᥗ䱨 㖇 STATUS Don t touch the fan leaves before they slow down ћ 伄 儎䙕 ᰁ䖢ᰬ 䀜 ਬ RUN NEG RTN ALM ON OFF OFF ON 48 60V 42A RUN NEG RTN ALM ON OFF OFF ON 48 60V 42A Power A A1 A1 A2 A2 B1 B1 B2 B2 Power B Power A A1 PWR0 NEG PWR0 RTN Power A A1 Power B B1 PWR1 NEG PWR1 ...

Page 318: ... the previous stage power and properly connect the power cable 1 Install a plastic cover on each power module 2 The power cables are fixed securely and have sufficient contact with the terminals 3 The cables in the corner are unbent 4 The power cable labels are filled in and attached to the cables as required All labels are neat and face the same direction allowing for easy viewing 5 The power cab...

Page 319: ...110 V AC input which cannot meet system power consumption requirements l There is a length of copper core inside the cable Do not connect anything to the core l AC power distribution cables Figure 2 56 AC power distribution cables l For details see Guide to Power Distribution Design of the USG9520 Procedure Step 1 Mark both ends of each power cable using a non permanent marker Step 2 Install an AC...

Page 320: ...e AC power cable into the receptacle on the AC power module and close the cable clip around the plug Insert the other end of the AC power cable into a socket or a power supply device on the top of the cabinet HUAWEI USG9500 Series Hardware Guide 2 Hardware Installation Issue 03 2017 12 15 Huawei Proprietary and Confidential Copyright Huawei Technologies Co Ltd 308 ...

Page 321: ...љЈ澞 ߎ੮ࠀ 90 ङઁؔ Ӳ澞 ੮ॐથ߄ࡀ߄ ૅ ਙ ص થୂўङ ૅߕ މ Иङխ ӟ ઁؔङஒ ࡌ澞 ߑ 6 ি ў ୂўդ० ߄ࡀ߄ ૅ ҫপ 㿃 M ୠ 6H 斊 J ҹџ放 X ך 䇌 ਵ 6 ך 䇌иਵ戅 6 HUAWEI USG9500 Series Hardware Guide 2 Hardware Installation Issue 03 2017 12 15 Huawei Proprietary and Confidential Copyright Huawei Technologies Co Ltd 309 ...

Page 322: ...eivers on the ports and how to connect them to the peer device ports using network cables according to the network plan Context Before connecting the network cable check the following l Construction conditions Ensure that the peer device has been installed in the equipment room and the port to which the network cable is to be connected has been determined l Cabling route The engineering document s...

Page 323: ...nly in odd numbered interfaces on the 24 port 100 1000Base X SFP flexible interface card Step 3 Connect one end of a network cable to the electrical transceiver of the USG9520 and the other end to the Ethernet port of the peer device based on the network plan Figure 2 59 Connecting a network cable RESET LINK MGMT ETH MPU RUN ALM ACT RESET OFL LINK E8KE X LPUF 101 LPUF 101 RUN OFL E8KE X 101 24XGE ...

Page 324: ...eivers on the ports and connect them to the ports of the peer device using optical fibers according to the network plan Installing Fiber Spools NOTE Wind excess optical fibers around fiber spools for convenient cable routing and device maintenance Determine the locations of the fiber spools based on the device arrangement in the cabinet Positioning the fiber spools too close to the device operatio...

Page 325: ...optical fiber Step 2 Remove the dust cap from an optical interface and insert an optical module into the optical interface Step 3 Remove the dust cap from the optical transceiver NOTE Store the dust cap for future use When optical fibers are disconnected for maintenance use the dust cap to protect the optical transceiver from intrusion of dust Step 4 Remove protective caps from optical fiber conne...

Page 326: ...ep 6 Wind up excess optical fibers around a fiber management tray Step 7 Bind optical fibers at 200 mm intervals with binding tape and use cable ties to fix the bundle of the optical fibers to the cabling rack Step 8 Affix permanent labels 20 mm from both ends of the optical fiber End Follow up Procedure After you power on the USG9500 check the connection by looking at the optical port indicator I...

Page 327: ...aced over the flat washers 4 The cabinet is neat and clean 5 The doors can be opened and closed smoothly 6 All labels tags and nameplates are correct legible and complete Installation Environment Checklist No Item 1 The equipment is free of fingerprints or other smudging 2 The cables are free of excessive electrical tape and cable ties 3 The area around the equipment is free of tape cable ties pac...

Page 328: ... power cable and ground cable are routed separately from other cables 10 The cable layout facilitates future maintenance and expansion 11 The labels at each end of each cable are legible 12 Excess cable tie is trimmed off without leaving rough edges 2 4 11 Powering On the USG9520 DC Power Distribution Check whether the USG9520 is operating properly with the DC power supply Power on the USG9520 acc...

Page 329: ... essential before supply and or telecommunication network connections WARNING ཝ 䀜 θ 䘔 Ⓠⴈ䙐 ؗ 㖇㔒ҁࢃൽ亱 ݾ ൦ Air Filter Refer to diagram of cable routing The air filter can not be covered by cables 䈭 ᝅഴ䎦㓵θ 㓵㔼уᗍ䚤ᥗ䱨 㖇 STATUS Don t touch the fan leaves before they slow down ћ 伄 儎䙕 ᰁ䖢ᰬ 䀜 ਬ RUN NEG RTN ALM ON OFF OFF ON 48 60V 42A RUN NEG RTN ALM ON OFF OFF ON 48 60V 42A Rear view of the DC cabinet PWR0 PWR1...

Page 330: ...U is registered the MPU is working properly if the indicator blinks at 0 5 Hz NOTE Possible causes for an off indicator include l The BootROM is damaged l The MPU cannot be powered on Possible causes for the indicator blinking quickly include l The CF card is faulty l The other control chips on the MPU are faulty preventing the MPU from initializing ALM Red If the indicator is steady off the MPU i...

Page 331: ...al AC power supplies A and B Step 2 Measure the input voltage of the device with a multimeter Ensure that the voltage falls between 90 V AC and 264 V AC Step 3 Turn on the AC power switch of the device Step 4 Wait three minutes and then check the status of the indicators Figure 2 63 shows the indicator status of main parts when the device is operating properly Table 2 11 describes all indicators H...

Page 332: ...inet Rear view of the AC cabinet OFF ON RUN Green steady on ALARM Red off STATUS Blinking green STATUS RUN ALM ACT ESET OFL Grey off ALM Green steady on for active MPU Green off for standby MPU ACT RUN Green blinking once every two seconds End Result Table 2 11 Device indicators Item Indicator Color Status Description AC power module RUN Green Operation indicator If this indicator is steady on the...

Page 333: ... MPU is registered the MPU is working properly if the indicator blinks at 0 5 Hz NOTE Possible causes for an off indicator include l The BootROM is damaged l The MPU cannot be powered on Possible causes for the indicator blinking quickly include l The CF card is faulty l The other control chips on the MPU are faulty causing the MPU not to be able to initialize ALM Red If the indicator is steady of...

Page 334: ... distribution cables and circuit breakers of the DC PDF Figure 2 65 shows the schematic diagram on the DC PEMB Figure 2 65 Schematic diagram of DC PEMB PEMB A1 PEMB B2 PEMB B1 PEMB A2 A1 B2 B1 A2 a1 b2 b1 a2 PDF PEMB C1 PEMB D2 PEMB D1 PEMB C2 C1 D2 C2 c1 d2 d1 c2 D1 HUAWEI USG9500 Series Hardware Guide 2 Hardware Installation Issue 03 2017 12 15 Huawei Proprietary and Confidential Copyright Huawe...

Page 335: ...nfiguration is unnecessary select the circuit breaker of each DC line using the following formula A1 A2 B1 B2 C1 C2 D1 D2 I P Vin D 4 I rated current of the circuit breaker of each line on the PDF in Ampere A P total power of each device Vin input voltage of the power supply 38 Vin 72 D derating coefficient The recommended coefficient is 0 8 4 number of input lines on the power module Table 2 13 d...

Page 336: ...lack 110A Each power module should be equipped with one cable of this type The cable length is determined by an onsite project survey Naked Crimping Connector JG2 25mm2 M6 1 50A Tin Plating For OEM Each cable should be equipped with one terminal of this type Naked Crimping Terminal OT 25mm2 M8 Tin Plating Naked Ring Terminal Each cable should be equipped with one terminal of this type Longer than ...

Page 337: ...2 AC Power Distribution Guide This section describes AC power distribution and AC cable matchings NOTE If the customer uses a purchased three core cable the ground core does not need to be connected to the ground terminal on the device This is because the ground terminal on the device has already been connected to a separate ground cable ensuring that the device is properly grounded Figure 2 66 sh...

Page 338: ...Description a11 b11 c11 d11 a21 b21 c21 d21 Power cable Power Cable 300 500V 60227IEC10 BVV 6mm2 Black Jacket Cores Blue Brown 43A 2 Equivalent Cores Terminal Naked Crimping Terminal OT 6mm2 M6 Tin Plating Insulated Ring Terminal 12 10AWG yellow Naked Crimping Terminal OT 6mm2 M8 Tin Plating Insulated Ring Terminal 12 10AWG yellow a12 b12 c12 d12 a22 b22 c22 d22 Cables Monitor and Alarm Cable 3m D...

Page 339: ...F Table 2 15 Current parameters of circuit breakers and power lines for the PDF DC PEMB Item Specification Note Each circuit breaker A1 A2 B1 B2 60 A To protect power supplies of different levels it is recommended that the current of the circuit breaker on the user side be greater than or equal to that of the circuit breaker of the power module 70 A Each power supply A1 A2 B1 B2 60 A To support th...

Page 340: ...nsite project survey Wire 450 750V 227 IEC 02 RV 16mm2 black 85A Each power module should be equipped with one cable of this type The cable length is determined by an onsite project survey Naked Crimping Terminal JG2 16mm2 M6 95 A Tin Plated for OEM Each cable should be equipped with one terminal of this type Naked Crimping Terminal OT 16mm2 M8 Tin Plating Naked Ring Terminal Each cable should be ...

Page 341: ...mm 5 8 Short Tube for North American Each cable should be equipped with one terminal of this type Naked Crimping Terminal OT 35mm2 M8 Tin Plating Naked Ring Terminal Each cable should be equipped with one terminal of this type Longer than 35 m A PDF should be placed near the device Formula for calculating cable cross sectional area S I L 74 S cross sectional area I the current flowing through the ...

Page 342: ...e AC power module EPS200 4850A Table 2 17 Cables and terminals for the EPS200 4850A Item Description a1 b1 c1 d1 Power cable Power Cable 300 500V 60227IEC10 BVV 6mm2 Black Jacket Cores Blue Brown 43A 2 Equivalent Cores Terminal Naked Crimping Terminal OT 6mm2 M6 Tin Plating Insulated Ring Terminal 12 10AWG yellow Naked Crimping Terminal OT 6mm2 M8 Tin Plating Insulated Ring Terminal 12 10AWG yello...

Page 343: ... each power line for the PDF Table 2 18 Current parameters of each circuit breaker and each power line for the PDF DC PEMA Item Specification Note Each circuit breaker A and B 50 A To protect power supplies of different levels it is recommended that the current of the circuit breaker on the user side should be greater than or equal to that of the circuit breaker of the power module 50 A Each power...

Page 344: ...The cable length is determined by the project survey on site Wire 450 750V 227 IEC 02 RV 16mm2 black 85A Each power module should be equipped with one cable of this type The cable length is determined by the project survey on site Naked Crimping Terminal JG2 16mm2 M6 95 A Tin Plated for OEM Each cable should be equipped with one terminal of this type Naked Crimping Terminal OT 16mm2 M8 Tin Plating...

Page 345: ...e device This is because the ground terminal on the device has already been connected to a separate ground cable ensuring that the device is properly grounded Figure 2 70 shows the AC power module Figure 2 70 AC power distribution rectifier module A rectifier module B A B a b PDF NOTE AC power modules A and B are connected to two AC PDFs or AC distribution box through cables a and b It is recommen...

Page 346: ...uipped with one cable of this type The cable length is determined by an onsite project survey EPW30B 48 A External Suite Power Cords All Over The World Class I Equipment With Connector C13 External Cable Set Each power module should be equipped with one cable of this type The cable length is determined by an onsite project survey HUAWEI USG9500 Series Hardware Guide 2 Hardware Installation Issue 0...

Page 347: ... 3 4 Replacing Power Modules This section describes the power modules of the device and the procedure for replacing the power modules 3 5 Replacing a CF Card This section describes the procedure for replacing a CF card 3 6 Replacing an Optical Module This section describes the procedure for replacing an optical module 3 7 Replacing an Air Filter This section describes the procedure for replacing a...

Page 348: ... is requested with the backplane ESN services can operate properly without the reapplication of the license file If the license file is requested with the ESN of the MPU SRU to be replaced you need to reapply for the license file after the MPU SRU is replaced l After creating an SSH user and RSA key pair log in to the device through SSH If the MPU SRU needs to be replaced replace the MPU SRU and t...

Page 349: ...check whether there is any bent pin in the connector Step 6 Check the location of the MPU SRU to be replaced Before pulling out an MPU SRU that is to be replaced determine the location of the MPU SRU that is the cabinet chassis and slot where the MPU SRU resides The USG9500 have two MPUs SRUs l The MPUs of the USG9520 reside in slots 4 and 5 l The SRUs of the USG9560 reside in slots 9 and 10 l The...

Page 350: ...port the lower edge of the MPU SRU with one hand and hold the panel of the MPU SRU with the other hand Then pull out the MPU SRU smoothly from the slot as shown in Figure 3 1 3 5 Place the moved MPU SRU in the ESD bag Figure 3 1 Removing an MPU SRU SRUA RUA UA UA A UA A A UA A UA UA A A A A A A A SRUA RUA UA UA UA A A A A U U U U UA A UA A A A A A A A SRUA RUA UA UA UA UA A A U UA A U UA UA A A A ...

Page 351: ...ne hand and hold the panel with the other hand Then insert the new MPU SRU smoothly into the chassis along the guide rail of the slot Stop sliding the MPU SRU forward when the ejector levers on the front panel of the MPU SRU reach the chassis as shown in Figure 3 4 1 2 Turn the ejector levers on the MPU SRU outward and upward to form a 45 degree angle and at the same time push the MPU SRU into the...

Page 352: ...nd enter the BootROM password WWW HUAWEI by default to enter the extended BootROM menu Step 14 Optional To use CF card 1 of the new MPU you need to load the startup software package PAF file license file and configuration file saved to the local PC to CF card 1 To use CF card 1 of the to be replaced MPU skip this step and go to step Step 15 1 In the main menu enter 3 to enter the Ethernet submenu ...

Page 353: ...rameters 4 Return to main menu Enter your choice 1 4 3 Note two protocols for download tftp ftp You can modify the flags following the menu tftp 0x80 ftp 0x0 clear field go to previous field D quit boot device mottsec3 processor number 0 host name host file name vxWorks st V500R001_software cc Indicates the name of the file to be downloaded inet on ethernet e 192 168 71 0 172 16 104 208 Indicates ...

Page 354: ...her o 3 In the Ethernet submenu enter 2 to download the file to the CF card Ethernet Submenu 1 Download file to SDRAM through ethernet interface and boot 2 Download file to CFcard through ethernet interface 3 Modify ethernet interface boot parameters 4 Return to main menu Enter your choice 1 4 2 4 In the submenu enter 1 to download the file to CF card 1 Download to CFcard through ethernet interfac...

Page 355: ...nd configuration file 1 Enter 4 in the main menu to access the menu for setting the startup file Main Menu bootload ver 163 00 1 Boot with default mode 2 Boot from CFcard 3 Enter ethernet submenu 4 Set boot file and path 5 Modify boot ROM password 6 Chkdsk CFcard 7 Format CFcard 8 List file in CFcard 9 Delete file from CFcard 10 Set patch mode 11 Set version back signal 12 Reboot Press Ctrl B to r...

Page 356: ...and 3 Repeat Step 15 2 and specify the PAF and license files to be used for the next startup The file names are paf txt and license txt 4 Repeat step Step 15 2 to specify the configuration file to be used for the next startup 5 In the startup file menu enter 1 to return to the BootROM main menu 6 On the BootROM main menu enter 12 to restart the device Step 16 Check the running status of the new MP...

Page 357: ... Present Registered Normal NA Step 17 Upload the license file and activate it For details see Uploading a License File and Activating a License End Follow up Procedure After replacing the MPU SRU collect all tools If the replaced MPU SRU is faulty fill in the Repair Transmission Sheet and send the faulty module with the Repair Transmission Sheet to the equipment supplier or the specified repair se...

Page 358: ...minal to the ESD jack on the rack 2 Loosen the two captive screws by turning them counter clockwise with a Phillips screwdriver as shown in Figure 3 5 1 3 Turn the ejector levers on the panel of the SFU outward and upward When the ejector levers and the panel form a 45 degree angle the SFU is removed from the backplane as shown in Figure 3 5 2 NOTICE Pull out the SFU slowly and smoothly to prevent...

Page 359: ... of the slot as shown in Figure 3 6 1 Stop sliding the SFU forward when the ejector levers on the front panel of the SFU reaches the chassis 3 Turn the ejector levers on the SFU outward and upward to form a 45 degree angle and at the same time push the SFU into the slot Then turn the ejector levers inward and downward until the panel of the SFU touches the slot as shown in Figure 3 6 2 4 Using a P...

Page 360: ...g is displayed sysname display device USG9560 s Device status Slot Type Online Register Status Primary 1 SPU Present Registered Normal NA 2 SPU Present Registered Normal NA 3 SPU Present Registered Normal NA 4 SPU Present Registered Normal NA 5 SPU Present Registered Normal NA 6 LPU Present Registered Normal NA 7 LPU Present Registered Normal NA 8 LPU Present Registered Normal NA 9 MPU Present NA ...

Page 361: ...ollowing tools l ESD wrist strap or ESD gloves l Phillips screwdriver l ESD bag Procedure Step 1 Check the location of the LPU to be replaced l Before pulling out an LPU that is to be replaced first check the location of the LPU that is the cabinet chassis and slot where the LPU resides l USG9580 has 16 LPU slots numbered from 1 to 16 l USG9560 has 8 LPU slots numbered from 1 to 8 l USG9520 has 3 ...

Page 362: ... 2 NOTICE Pull out the LPU slowly and smoothly to prevent it from hitting neighboring boards and affecting running boards Touching parts on the LPU when swapping it may damage the LPU 4 Hold the ejector levers on the panel of the LPU and pull out the LPU smoothly from the chassis along the guide rail of the slot After the LPU protrudes from the chassis by roughly 40 cm support the lower edge of th...

Page 363: ... reaches the chassis as shown in Figure 3 8 1 3 Turn the ejector levers on the LPU outward and upward to form a 45 degree angle and at the same time push the LPU into the slot Then turn the ejector levers inward and downward until the panel of the LPU touches the frame as shown in Figure 3 8 2 4 Using the Phillips screwdriver turn the two captive screws clockwise to tighten them as shown in Figure...

Page 364: ... Present Registered Normal NA 13 SFU Present Registered Normal NA 14 CLK Present Registered Normal Master 15 CLK Present Registered Normal Slave 16 PWR Present Registered Normal NA 17 PWR Present Registered Normal NA 18 FAN Present Registered Normal NA 19 FAN Present Registered Normal NA Step 9 Check service operations End Follow up Procedure After replacing the LPU collect all tools If the replac...

Page 365: ...ds l Press and hold the OFL button on the panel of the LPU for five seconds until the OFL indicator turns on l In the user view run the power off slot slot id command Step 5 Pull out the FPIC to be replaced from the LPU 1 Put on the ESD wrist strap and connect the ground terminal to the ESD jack on the rack 2 Using the Phillips screwdriver turn the two captive screws counter clockwise to loosen th...

Page 366: ...ts on the LPU when swapping it may damage the LPU 2 Hold the captive screws of the FPIC and insert the FPIC smoothly along the guide rails of the slot until the FPIC is completely seated in the slot as shown in Figure 3 10 1 3 Using the Phillips screwdriver turn the two captive screws clockwise to tighten them as shown in Figure 3 10 2 HUAWEI USG9500 Series Hardware Guide 3 Hardware Maintenance Is...

Page 367: ... system does not generate any alarm related to the new FPIC the new FPIC is working normally l Run the display device command on the console interface If the LPUs in the corresponding slots are working normally the following is displayed sysname display device USG9520 s Device status Slot Type Online Register Status Primary 1 SPU Present Registered Normal NA 2 LPU Present Registered Normal NA 4 MP...

Page 368: ...ols If the replaced FPIC is faulty fill in the Repair Transmission Sheet and send the faulty module with the Repair Transmission Sheet to the equipment supplier or the specified repair service provider 3 1 5 Replacing an SPU This section describes the precautions and procedures for replacing an SPU Context The new SPU must be of the same type as the one that is to be replaced Tool Before replacing...

Page 369: ...r view run the power off slot slot id command Step 4 Pull out the SPU 1 Put on the ESD wrist strap and connect the ground terminal to the ESD jack on the chassis 2 Using the Phillips screwdriver turn the two captive screws counter clockwise to loosen them as shown in Figure 3 11 1 3 Turn the ejector levers on the panel of the SPU outward and upward When the ejector levers and the panel form a 45 d...

Page 370: ...e rails of the slot until the SPU is completely seated in the slot as shown in Figure 3 12 1 3 Turn the ejector levers on the SPU outward and upward to form a 45 degree angle and at the same time push the SPU into the slot Then turn the ejector levers inward and downward until the panel of the SPU touches the slot as shown in Figure 3 12 2 4 Using the Phillips screwdriver turn the two captive scre...

Page 371: ...mal NA 2 SPU Present Registered Normal NA 3 SPU Present Registered Normal NA 4 SPU Present Registered Normal NA 5 SPU Present Registered Normal NA 6 LPU Present Registered Normal NA 7 LPU Present Registered Normal NA 8 LPU Present Registered Normal NA 9 MPU Present NA Normal Master 10 MPU Present Registered Normal Slave 11 SFU Present Registered Normal NA 12 SFU Present Registered Normal NA 13 SFU...

Page 372: ... the connector of the new SPC Step 3 Power off the SPC to be replaced NOTE l Before replacing an SPC power it off If you remove a SPC while it is running and then insert another one the SPC and its SPU may not work properly l After powering off the SPC the number of device CPUs In this case sessions reselect CPUs based on the hash algorithm If the selected CPU is different from the previous one th...

Page 373: ... the ESD bag NOTICE Pull out the SPC slowly and smoothly so that it does not bump into neighboring boards and cause a malfunction When removing an SPC do not touch the parts on it to avoid damaging the SPC 2 Holding the captive screws of the SPC insert the SPC smoothly along the guide rails of the slot until the SPC is full inserted as shown in Figure 3 14 1 3 Using the Phillips screwdriver turn t...

Page 374: ...Us If the SPUs in the corresponding slots are working normally the following is displayed sysname display device USG9520 s Device status Slot Type Online Register Status Primary 1 SPU Present Registered Normal NA 2 LPU Present Registered Normal NA 4 MPU Present NA Normal Master 5 MPU Present Registered Normal Slave 6 CLK Present Registered Normal Master 7 CLK Present Registered Normal Slave 8 PWR ...

Page 375: ...the Active and Standby FWs in Hot Standby Scenarios V500R001C50 and Later Versions This section describes how to expand SPU capacity for the active and standby FWs in hot standby scenarios Precautions Expand SPU capacity as follows only when V500R001C50 or a later version is being used on the FW Before expanding SPU capacity prepare new SPUs The SPUs to be installed on the active and standby FWs f...

Page 376: ...85 80 84 85 80 84 85 80 84 85 80 84 85 80 84 85 80 84 85 80 84 85 80 84 85 80 84 85 80 84 85 80 84 85 80 84 85 80 84 85 80 84 85 80 84 85 80 84 85 80 84 85 80 84 85 80 84 85 80 84 85 80 84 85 80 84 85 80 84 85 80 84 85 80 84 85 80 84 85 80 84 85 80 84 85 80 84 85 80 84 85 80 84 85 80 84 85 80 84 85 80 84 85 80 84 85 80 84 85 80 84 85 80 84 85 80 84 85 80 84 85 80 84 85 80 84 85 80 84 85 80 84 85 8...

Page 377: ... 80 84 85 80 84 85 80 84 85 80 84 85 80 84 85 80 84 85 80 84 85 80 84 85 80 84 85 80 84 85 80 84 85 80 84 85 80 84 85 80 84 85 80 84 85 80 84 85 80 84 85 80 84 85 80 84 85 80 84 85 80 84 85 80 84 85 80 84 85 80 84 85 80 84 85 80 84 85 80 84 85 80 84 85 80 84 85 80 84 85 80 84 85 80 84 85 80 84 85 80 84 85 80 84 85 80 84 85 80 84 85 80 84 85 80 84 85 80 84 85 80 84 85 80 84 85 80 84 85 80 84 85 80 ...

Page 378: ...andby FW run the undo hrp track spu enable command on the standby FW to disable the VGMP group from monitoring the SPU In this way after the SPU is inserted into the standby FW its VGMP group priority does not increase active standby switchover is not triggered and service traffic is still forwarded by the active FW Step 5 Insert the SPU into the slot of the standby FW 1 Take out the new SPU from ...

Page 379: ...R Present Registered Normal NA 9 PWR Present Registered Abnormal NA 10 FAN Present Registered Normal NA 2 Run the display device pic status command on the standby FW to query the running status of the subcard The subcard is running properly if all items on the corresponding subcard are displayed as follows HRP_S sysname display device pic status Pic status information in Chassis 1 SLOT PIC Status ...

Page 380: ...ble is updated wait 2 minutes before performing subsequent operations Step 7 Run the hrp track spu enable command on the standby FW to enable the VGMP group to monitor the SPU HRP_S sysname system view HRP_S sysname hrp track spu enable After the VGMP group is enabled to monitor the SPU the VGMP group priority of the standby FW becomes higher than that of the active FW triggering active standby sw...

Page 381: ...ctive FW If two FWs work in load balancing mode run the hrp switch active command on one FW to switch the operating mode to the active standby mode and then expand SPC capacity The following table lists which services are affected when an SPC is hot swapped Service Affected IPv4 session No IPv6 session No Source NAT PAT or easy IP mode No Source NAT No PAT mode or triplet NAT Yes Port pre allocati...

Page 382: ...0 84 85 80 84 85 80 84 85 80 84 85 80 84 85 80 84 85 80 84 85 80 84 85 80 84 85 80 84 85 80 84 85 80 84 85 80 84 85 80 84 85 80 84 85 80 84 85 80 84 85 80 84 85 80 84 85 80 84 85 80 84 85 80 84 85 80 84 85 80 84 85 80 84 85 80 84 85 80 84 85 80 84 85 80 84 85 80 84 85 80 84 85 80 84 85 80 84 85 80 84 85 80 84 85 80 84 85 80 84 85 80 84 85 80 84 85 80 84 85 80 84 85 80 84 85 80 84 85 80 84 85 80 84...

Page 383: ...nute before performing subsequent operations Step 4 Run the undo hrp track spu enable command on the standby FW to disable the VGMP group from monitoring the SPU HRP_S sysname system view HRP_S sysname undo hrp track spu enable After the SPC is inserted into the standby FW its VGMP group priority increases and becomes higher than that of the active FW triggering active standby switchover In additi...

Page 384: ...Type Online Register Status Primary 1 SPU Present Registered Normal NA 2 SPU Present Registered Normal NA 3 LPU Present Registered Normal NA 4 MPU Present NA Normal Master 6 CLK Present Registered Normal Master 8 PWR Present Registered Normal NA 9 PWR Present Registered Abnormal NA 10 FAN Present Registered Normal NA 2 Run the display device pic status command on the standby FW to query the operat...

Page 385: ...FWs takes around 2 minutes Therefore after confirming that the card table is updated wait 2 minutes before performing subsequent operations Step 7 Run the hrp track spu enable command on the standby FW to enable the VGMP group to monitor the SPU HRP_S sysname system view HRP_S sysname hrp track spu enable After the VGMP group is enabled to monitor the SPU the VGMP group priority of the standby FW ...

Page 386: ...ter the fans stop rotating you can continue pulling out the module l The USG9580 has four fans You can replace only one fan at a time l The fan modules of the USG9580 are located at the rear of the chassis Figure 3 17 shows the appearance of a fan module Figure 3 17 Fan module Tools l ESD wrist strap or ESD gloves l Phillips screwdriver Procedure Step 1 Check the location of the fan module to be r...

Page 387: ...wly and horizontally insert the fan module along the guide rails in the slot until the back of the fan module properly connects to the backplane Using the Phillips screwdriver fasten the fan module to the chassis by tightening the captive screws as shown in Figure 3 19 Figure 3 19 Installing the fan module on the USG9580 2 1 Step 6 Verify that the fan module is working properly Normally after the ...

Page 388: ...Repair and send the faulty fan module and the card to the local Huawei office for repair After replacing the fan module collect all tools If the replaced fan module is faulty fill in the Repair Transmission Sheet and send the faulty module with the Repair Transmission Sheet to the equipment supplier or the specified repair service provider 3 3 2 Replacing the Fan Module of the USG9560 This section...

Page 389: ... ground terminal to the ESD jack on the chassis Step 3 Using the Phillips screwdriver loosen the captive screws on the fan module as shown in Figure 3 21 Step 4 Pull the upper handle upward and the lower handle downward and draw the fan module about 5 cm out of the slot then stop When the fan blades stop rotating continue pulling out the fan module as shown in Figure 3 21 HUAWEI USG9500 Series Har...

Page 390: ...tely starts drawing air from the chassis In this case you can check whether the new fan module is working properly in the following ways l Check the FAN indicator on the panel of the fan module If it is green the fan module is working normally If the indicator is red the fan module is not working normally l Run the display fan command on the console interface to view the running status of the fan ...

Page 391: ... must spend not more than five minutes to replace a fan module Otherwise the security and stability of the device is severely affected l During the process of pulling out the old fan module first pull out part of the fan module After the fans stop rotating pull out the fan module completely l The USG9520 has one fan module The fan module is located at the rear of the chassis Figure 3 23 shows the ...

Page 392: ...inue pulling out the fan moduley as shown in Figure 3 24 2 Figure 3 24 Pulling out the fan module of the USG9520 NOTICE Do not take more than five minutes to replace a fan module Otherwise the security and stability of the device will be severely affected Step 5 Insert the backup fan module into the chassis Hold the handle of the fan module with one hand and support the bottom of the fan module wi...

Page 393: ...n module The fan module is working normally if the following is displayed sysname display fan Slotid 10 Present YES Registered YES Status AUTO FanSpeed No Speed 1 75 2 75 The preceding output also indicates that the fan module has returned to the normal state If the fan module does not work normally contact a local Huawei office for technical support End Follow up Procedure After replacing the fan...

Page 394: ...ring replacement Figure 3 26 shows a PEM Figure 3 26 PEM Tools l ESD wrist strap or ESD gloves l Phillips screwdriver Procedure Step 1 Check the location of the PEM to be replaced Before removing the old PEM check its location that is the cabinet and chassis where the PEM resides and label the PEM Step 2 Put on the ESD wrist strap and connect the grounding terminal to the ESD jack on the chassis S...

Page 395: ...y along the guide rails in the slot until the rear of the PEM properly connects to the backplane Using the Phillips screwdriver fasten the PEM to the chassis by turning the captive screws clockwise to tighten them as shown in Figure 3 28 Figure 3 28 Installing the PEM on the USG9580 Step 8 Connect the cables to the power module in the original sequence Step 9 Verify that the new PEM is working nor...

Page 396: ...resent Registered Normal Slave 19 SFU Present Registered Normal NA 20 SFU Present Registered Normal NA 21 SFU Present Registered Normal NA 22 SFU Present Registered Normal NA 23 CLK Present Registered Normal Master 24 CLK Present Registered Normal Slave 25 PWR Present Registered Normal NA 26 PWR Present Registered Normal NA 27 FAN Present Registered Normal NA 28 FAN Present Registered Normal NA 29...

Page 397: ...rresponding air circuit breaker on the power distribution cabinet The PEM to be replaced is powered off In addition you need to switch off the PEM l The USG9560 has four PEMs You can power off one PEM during replacement Figure 3 29 shows the PEM Figure 3 29 PEM Tools l ESD wrist strap or ESD gloves l Phillips screwdriver Procedure Step 1 Check the location of the PEM to be replaced Before removing...

Page 398: ...ly out of the chassis as shown in Figure 3 30 Figure 3 30 Removing the PEM from the USG9560 Step 7 Insert the new PEM into the chassis Holding the handle on the PEM with one hand and supporting the PEM with the other hand slowing insert the PEM vertically along the guide rails in the slot until the rear of the PEM properly connects to the backplane Using the Phillips screwdriver fasten the PEM to ...

Page 399: ...d Normal Slave 16 PWR Present Registered Normal NA 17 PWR Present Registered Normal NA 18 FAN Present Registered Normal NA 19 FAN Present Registered Normal NA The preceding command output indicates that the new PEM is normal If the new PEM does not work normally contact a local Huawei office for technical support End Follow up Procedure After replacing the PEM collect all tools If the replaced PEM...

Page 400: ... connect the grounding terminal to the ESD jack on the rack Step 4 Remove the cables from the power module to be replaced as shown in Figure 3 33 1 Step 5 Using the Phillips screwdriver loosen the captive screws on both sides of the power module as shown in Figure 3 33 2 Step 6 Turn the ejector levers on the panel of the power module outward and upward When the ejector levers and the panel form a ...

Page 401: ...9 Turn the ejector levers inward and downward with both hands until the power module touches the slot as shown in Figure 3 34 2 Step 10 Using the Phillips screwdriver fasten the power module to the chassis by screwing the captive screws as shown in Figure 3 34 3 Step 11 Connect the cables to the power module in the original sequence as 4 shown in Figure 3 34 HUAWEI USG9500 Series Hardware Guide 3 ...

Page 402: ...e If the power module is working normally the following is displayed sysname display device USG9520 s Device status Slot Type Online Register Status Primary 1 SPU Present Registered Normal NA 2 SPU Present Registered Normal NA 3 LPU Present Registered Normal NA 4 MPU Present NA Normal Master 5 MPU Present Registered Normal Slave 6 CLK Present Registered Normal Master 7 CLK Present Registered Norma...

Page 403: ...he power distribution cabinet This powers off the power module to be replaced In addition switch off the power module to be replaced l The USG9520 has two power modules Do not power off the other during the process of removing one power module l The USG9520 has two types of AC power modules 1600 W and 2200 W Figure 3 35 and Figure 3 36 show the power modules respectively These two types of power m...

Page 404: ...Switch off the corresponding circuit breaker on the power distribution cabinet This powers off the power module to be replaced In addition switch off the power module to be replaced Step 3 Put on the ESD wrist strap and connect the grounding terminal to the ESD jack on the rack Step 4 Remove the cables from the power module to be replaced as shown in Figure 3 37 or Figure 3 39 1 Step 5 Replace the...

Page 405: ...2 1 1 l Replace the EPW30B 48A power module a Use the Phillips screwdriver to loosen the captive screw on the right of the power module Holding the handle slowly pull out the power module horizontally Figure 3 39 Removing an EPW30B 48A power module on the USG9520 b Place the new power module on the slot Holding the handle with one hand and supporting the bottom of the power module with the other h...

Page 406: ... a recoverable fault has occurred on the power module Check the FAULT indicator on the panel of the power module If it is red an unrecoverable fault has occurred on the power module l Run the display device command on the console interface to check the running status of the new power module The power module is working normally if the following is displayed sysname display device USG9520 s Device s...

Page 407: ...the contents on CF card 1 Tool Before replacing CF card 1 you need the following tools l ESD wrist strap or ESD gloves l ESD bag Procedure Step 1 Check the location of the CF card to be replaced Before pulling out the CF card that is to be replaced check the location of the CF card that is the cabinet and chassis where the CF card resides Then locate the MPU SRU whose CF card is to be replaced and...

Page 408: ...e jack of CF card 1 as shown in Figure 3 41 2 The CF card automatically pops out Remove the CF card vertically as shown in Figure 3 41 3 Figure 3 41 Pulling out CF card 1 Step 7 Place the removed CF card in the ESD bag Step 8 Insert the new CF card into the CF card 1 slot on the MPU SRU and push the CF card into the proper position as shown in Figure 3 42 1 Step 9 Insert the MPU SRU into the chass...

Page 409: ...name slave cfcard Device name The preceding output also indicates that the new CF card has returned to the normal state If the new CF card does not work normally contact a local Huawei office for technical support End Follow up Procedure After replacing the CF card collect all tools If the replaced CF card is faulty fill in the Repair Transmission Sheet and send the faulty module with the Repair T...

Page 410: ...s to be replaced check the location of the CF card that is the cabinet and chassis where the CF card resides Then locate the MPU SRU whose CF card is to be replaced and label the MPU SRU Step 2 Press the CF OFL button on the panel of the MPU SRU for about 6 seconds until the CF ACT indicator turns off Step 3 Open the shielding can on the CF card as shown in Figure 3 43 1 Press the button on the CF...

Page 411: ...ny alarm related to the new MPU SRU the CF card is working properly l Run the dir command on the console interface to check whether the new CF card can be displayed If the new CF card is working normally the following is displayed sysname dir all List all files STRING 1 64 drive path file name cfcard2 Device name cfcard Device name slave cfcard2 Device name slave cfcard Device name cr The precedin...

Page 412: ...ot to damage the optical cable connector l When replacing an optical module do not look directly into the fiber connector because the laser may harm your eyes CAUTION An optical module is an electrostatic sensitive device Therefore you must take antistatic measures during the whole process of replacing an optical module to prevent the optical module from being damaged NOTE Currently the USG9500 su...

Page 413: ...angeLength 0 LongPacket 0 Jabber 0 Alignment 0 Fragment 0 Undersized Frame 0 RxPause 0 More Step 3 Record the location of the cables and check whether the labels on the cables are correct and clear If the labels are not clear re make labels and re label the cables Step 4 Wear the ESD gloves or wrist strap and connect the grounding terminal to the ESD jack on the rack Step 5 Pull out the optical mo...

Page 414: ...l module corresponds to that of the original optical module as is displayed in bold as follows sysname display interface gigabitethernet2 0 1 GigabitEthernet2 0 1 current state UP Line protocol current state UP Description Huawei GigabitEthernet2 0 1 Interface Route Port The Maximum Transmit Unit is 1500 bytes Internet Address is 172 16 1 1 24 IP Sending Frames Format is PKTFMT_ETHNT_2 Hardware ad...

Page 415: ...air filter clean the air filter at least once every three months and replace it once a year If the environment is especially dusty clean the air filter more frequently Configuring a Cleaning Cycle for the Air Filter You can configure a cleaning cycle for the air filter on the chassis using the dustproof check timer day days command in the system view When the air filter has already been running fo...

Page 416: ...the holes on both sides of the panel to pull it out of the air intake frame Then remove the air filter from the panel of the air intake frame as shown in Figure 3 47 Figure 3 47 Removing the air filter from the air intake frame on the USG9580 Step 4 Remove the air filter from the SFU area 1 The air filter is located on the left halfway up the chassis When removing the air filter hold the upper han...

Page 417: ...ir intake frame Put your fingers in the holes on both sides of the panel to install the panel back into its original position as shown in Figure 3 49 Figure 3 49 Installing the air filter on the air intake frame of the USG9580 HUAWEI USG9500 Series Hardware Guide 3 Hardware Maintenance Issue 03 2017 12 15 Huawei Proprietary and Confidential Copyright Huawei Technologies Co Ltd 405 ...

Page 418: ...ir filter you need to clean the air filter regularly It is recommended that an air filter be cleaned at least once every three months and be replaced once every year When an air filter is placed in the dusty environment it needs to be cleaned more frequently Configuring a Cleaning Cycle for the Air Filter You can configure a cleaning cycle using the dustproof check timer day days command in the sy...

Page 419: ...ng terminal to the ESD jack on the chassis Step 3 Remove the air filter from the air intake frame 1 Place your fingers into the holes on both sides of the panel to pull it out of the air intake frame Then remove the air filter from the panel of the air intake frame as shown in Figure 3 51 Figure 3 51 Removing the air filter from the air intake frame on the USG9560 Step 4 Install an air filter on t...

Page 420: ... filter should be cleaned more frequently NOTE The method for replacing an air filter of the USG9520 chassis configured with DC power supply is the same as that of replacing an air filter on a chassis configured with AC power supply Configuring a Cleaning Cycle for the Air Filter You can configure a cleaning cycle for the air filter on the chassis using the dustproof check timer day days command i...

Page 421: ...trap and connect the grounding terminal to the ESD jack on the rack Step 3 Remove the air filter from the air intake frame 1 The air filter is located behind the device Loosen the captive screws on the panel on the rear of the device as shown in Figure 3 53 1 2 Holding the panel of the air filter slowly pull the air filter out until it leaves the chassis as shown in Figure 3 53 2 Figure 3 53 Remov...

Page 422: ...following l Ensure that service data is backed up before replacing a power cable l Before operating the device make sure to cut off all input power supplies to the power distribution cabinet and label the switch to be used l The DC power cable terminals and other exposed surfaces must be fully insulated Tool Before replacing a power cable you need the following tools l Power module terminal l Powe...

Page 423: ...This section describes the procedure for replacing a network cable Context Before replacing a network cable note the following l When network cables are replaced services are interrupted temporarily l Replace network cables during a time when the network is not busy for example between 00 00 am and 06 00 am Tool Before replacing a network cable you need the following tools l Cutter l Cable ties l ...

Page 424: ...ace is steady green the link is Up Step 7 Label the new network cable as shown in Figure 3 55 Figure 3 55 Labeling a new network cable Step 8 Bind the cable with a cable tie and cut off any extra lengths of tie Step 9 Run the ping command to check the connection between both ends of the new network cable If both ends fail to communicate normally check whether the network cable is damaged or connec...

Page 425: ...d the cabling mode Step 2 Take out the new optical cable and check whether the type of the new optical cable is consistent with that of the old one The multi mode optical cable is orange and the single mode optical cable is yellow Step 3 Make a new label based on information from the old optical cable label Step 4 Lay out the new optical cable in the original place Step 5 Remove the old optical ca...

Page 426: ...nterface If the indicator is steady green the link is Up l Check whether the service on the board where the new optical cable connects is normal If services are normal the optical cable is replaced successfully l Check whether there is any new alarm or performance event End Follow up Procedure l Gather up and store the tools and old optical cable l Separate the old and the optical cables to avoid ...

Page 427: ...power supply conditions A 4 Equipment Grounding Specifications This section describes grounding specifications including general grounding specifications the grounding specifications for equipment rooms devices communication power modules signal cables and signal cables and the specifications for laying out ground cables A 5 Engineering Labels for Cables This section provides an overview of labels...

Page 428: ...sed as l DC input power cables l Cables between the AC power chassis and device Structure and Appearance The DC power cable consists of a 48 V power cable NEG and a cable RTN The power cable transfers 48 V DC from the DC distribution equipment to the terminal block of the USG9500 power module supplying power for the USG9500 The DC power cables of the USG9500 are delivered in an integrated way Cut ...

Page 429: ...T bare crimping terminal Figure A 4 shows the JG2 double hole bare crimping terminal without a cable Figure A 4 JG2 double hole bare crimping terminal NOTICE If the power supply distance is longer than 35 m you must place the DC power distribution cabinet closer to the USG9500 Prepare cables according to the distance between the USG9500and the power distribution cabinet HUAWEI USG9500 Series Hardw...

Page 430: ... Plated for OEM Power Supply Distance Shorter Than or Equal to 15 m If the power supply distance is shorter than or equal to 15 m use the 16 mm2 power cable to connect the USG9580 and the power distribution cabinet Table A 2 lists the cable terminals and cable types Table A 2 Cables for power supply distance shorter than or equal to 15 m Item Description Cable type NEG power cable 48 V Wire 450 75...

Page 431: ...upply Distance Longer Than 25 m or Shorter Than or Equal to 35 m If the power supply distance is longer than 25 m or shorter than or equal to 35 m use the 35 mm2 power cable to connect the USG9580 and the power distribution cabinet Table A 4 lists the cable terminals and cable types Table A 4 Cables for power supply distance longer than 25 m or shorter than or equal to 35 m Item Description Cable ...

Page 432: ... DC power cables of the USG9500 are delivered in an integrated way Cut the power cables to adjust them according to site requirements Figure A 5 and Figure A 6 show the two power cables Figure A 5 NEG Figure A 6 RTN DC cable terminals vary based on the device Two commonly used terminals are the OT bare crimping terminal and the JG2 double hole bare crimping terminal Bare crimping terminals must be...

Page 433: ... Distance Shorter Than 3 m Cables Between the AC power chassis and the USG9560 Place the AC power chassis as close to the device as possible If the distance is shorter than or equal to 3 m use the cabling scheme described in Table A 5 Table A 5 Cable types and terminals of the AC input power cable Item Description Cable Type NEG power cable 48 V Wire 450 750V 60227 IEC 02 RV 16mm2 blue 85A RTN pow...

Page 434: ... JG2 16mm2 M6 95A Tin Plated for OEM DC power distribution cabinet Naked Crimping Terminal OT 16mm2 M8 Tin Plating Naked Ring Terminal Power Supply Distance Longer Than 15 m or Shorter Than or Equal to 25 m If the power supply distance is longer than 15 m or shorter than or equal to 25 m use the 25 mm2 power cable to connect the USG9560 to the power distribution cabinet Table A 7 lists the cable t...

Page 435: ...lack 135A Terminal USG9560 Naked Crimping Connector JG2 34 3mm2 M6 1 4 134A Tin Plated 2AWG Hole Center Distance 15 875mm 5 8 Short Tube for North American DC power distribution cabinet Naked Crimping Terminal OT 35mm2 M8 Tin Plating Naked Ring Terminal A 1 1 3 DC Power Cable of the USG9520 This section describes the DC power cable of the USG9520 Structure and Appearance The DC power cable consist...

Page 436: ...e crimped on both ends of the power cable Figure A 11 shows the OT bare crimping terminal without a cable Figure A 11 OT bare crimping terminal Figure A 12 shows the JG2 double hole bare crimping terminal without a cable Figure A 12 JG2 double hole bare crimping terminal HUAWEI USG9500 Series Hardware Guide A Appendix Issue 03 2017 12 15 Huawei Proprietary and Confidential Copyright Huawei Technol...

Page 437: ...on Cable type NEG power cable 48 V Wire 450 750V 60227 IEC 02 RV 16mm2 blue 85A RTN power cable Wire 450 750V 60227 IEC 02 RV 16mm2 black 85A Terminal USG9520 Naked Crimping Terminal JG2 16mm2 M6 95A Tin Plated for OEM DC power distribution cabinet Naked Crimping Terminal OT 16mm2 M8 Tin Plating Naked Ring Terminal Power Supply Distance Longer Than 15 m or Shorter Than or Equal to 35 m If the powe...

Page 438: ...ny for the USG9500 A 1 2 1 AC Power Cable of the USG9580 This section describes the AC power cable of the USG9580 USG9580 AC Power Cable includes two parts l Cable between the AC power chassis and the USG9580 l Between the AC power chassis and the AC Power Distribution cabinet NOTE When the AC power passes through the AC power chassis the convertor converts the AC power into the DC power Therefore...

Page 439: ... power chassis and the power distribution cabinet is shorter than 50 m use the AC power cable shown in Table A 11 Table A 11 Cable types and cable terminals of the AC input power cable Item Description Cable Type Two wire AC power cable Power Cable 300 500V 60227 IEC 10 BVV 6mm2 Black Jacket Cores Blue Brown 43A 2 Equivalent Cores Terminal AC power chassis Naked Crimping Terminal OT 6mm2 M6 Tin Pl...

Page 440: ... USG9560 Structure and Appearance The USG9560 uses electric and electronic cables as AC power cables as shown in Figure A 15 Figure A 15 Fixed length electric and electronic cable An electric and electronic cable consists of a cable and two terminals The terminals are mainly OT bare crimp terminals Figure A 16 shows the OT bare crimping terminal without a cable Figure A 16 OT bare crimping termina...

Page 441: ...tribution cabinet Naked Crimping Terminal OT 6mm2 M8 Tin Plating Insulated Ring Terminal 12 10AWG yellow A 1 2 3 AC Power Cable of the USG9520 This section describes the AC power cable of the USG9520 Structure and Appearance The USG9520 uses an external AC cable suite In addition to Chinese standard AC power cables local standard AC power cables for Europe and North America are included Figure A 1...

Page 442: ...C19 straight female Type of connector on the peer end PI straight male PI angle male PF angle male and PG angle male based on countries and regions Cable length 3 m Maximum voltage 125 V 250 V Maximum current 16 A Table A 14 Technical specifications of the EPW30B 48A AC cable Item Specifications Type of connector on the device C13 straight female Type of connector on the peer end PI straight male ...

Page 443: ...the ground port of the cabinet l The USG9500 is installed outside the cabinet Connect one end of the PGND cable to the ground terminal of the USG9500 and the other end to the ground bar in the equipment room NOTICE Unreliable grounding may damage the USG9500 Therefore ensure that the USG9500 is reliably grounded Structure and Appearance A PGND cable has two OT bare crimp terminals and a copper cab...

Page 444: ... full threads match each other 3 Tug on the power cable gently to verify that it is connected securely 4 Connect the other end of the PGND cable to the ground port of the equipment room or cabinet NOTICE The OT terminal may rotate causing damage to the device Ensure that the OT terminal is not touching adjacent metal mechanical parts and other terminals Technical Specifications Table A 15 shows th...

Page 445: ...nsole interface on the MPU The other end has DB9 and DB25 connectors either of which connects to the serial interface on a computer Structure and Appearance Figure A 22 shows the structure of a console interface cable Table A 16 describes the pin assignment on the console interface cable Figure A 22 Console interface cable structure 1 Direction A 2 DB25 male connector 3 Label 4 RJ45 connector 5 Di...

Page 446: ...VPV 0 5mm 24AWG 8core PANTONE 430U l Symmetrical twisted cable 100 ohm SEYVP 0 48mm 26AWG 8core black Number of cores 8 Fireproof class CM Available length 15 m for the 120 ohm cable 3 m for the 100 ohm cable A 1 5 Auxiliary Port Cable The AUX interface cable is used to connect the AUX interface on the USG9500 to a modem to remotely transmit the configuration data of the USG9500 The AUX interface ...

Page 447: ...45 connector 5 Direction B 6 Direction C 7 DB9 male connector W1 and W2 communication cable Table A 18 Pin assignment on the AUX interface cable RJ45 Direction DB25 DB9 Signal 1 4 7 RTS 2 20 4 DTR 3 2 3 TXD 4 8 1 GND 5 7 5 GND 6 3 2 RXD 7 6 6 DSR 8 5 8 CTS Technical Specifications Table A 19 lists the technical specifications of the AUX interface cable HUAWEI USG9500 Series Hardware Guide A Append...

Page 448: ...e network cable is used to carry signals on Gigabit networks or networks with lower packet rates Structure and Appearance An Ethernet cable consists of twisted pairs and RJ45 connectors as shown in Figure A 24 Figure A 24 Ethernet cable structure PIN 8 PIN 1 PIN 8 PIN 1 RJ45 RJ45 Cable Name Description RJ45 RJ45 connector Cable Category 5 or higher twisted pair network cable PIN1 to PIN8 8 pins Ea...

Page 449: ...astic jacket is used for the wire name Straight Through and Crossover Cables Ethernet cables are classified into straight through and crossover cables according to the wiring scheme used at the two ends of the cables Interfaces on most devices can dynamically adapt to straight through cables and crossover cables For interfaces that cannot dynamically adapt to either type of cable connect interface...

Page 450: ...schemes Figure A 26 Connection scheme of straight through cables 1 7 6 5 4 3 2 8 1 7 6 5 4 3 2 8 RJ45 RJ45 EIA TIA 568A EIA TIA 568A 1 7 6 5 4 3 2 8 1 7 6 5 4 3 2 8 RJ45 RJ45 EIA TIA 568B EIA TIA 568B You can use straight through cables to connect A switch or hub with an USG9500 Computers including servers and workstations with USG9500s or hubs Two switches through the uplink interface l Crossover...

Page 451: ...network adapter on a computer Shielded Cable and Unshielded Cable Network cables are classified into shielded and unshielded ones based on whether the twisted pair and RJ45 connector are shielded Figure A 28 shows a shielded cable and Figure A 29 shows an unshielded cable NOTICE Only shielded cables are supported on the USG9500 Figure A 28 Shielded cable HUAWEI USG9500 Series Hardware Guide A Appe...

Page 452: ...5ohm shielded enhanced 5 types CAT5E SFTP 24AWG 8 core PANTONE 445U Number of cores 8 Fireproof class CM Available length 5 m 10 m 20 m and 30 m Table A 21 Technical specifications of the crossover cable Item Specifications Connector X1 X2 Network port connector crystal connector 8PIN 8bit shield plug 24 26AWG CAT 6 SFTP network cable Cable type Communication cable 100 15ohm shielded enhanced 5 ty...

Page 453: ... mode and multi mode optical fibers Single mode optical fibers are used for long distance transmission whereas multi mode optical fibers are used for short distance transmission Indoor single mode optical fibers usually have a yellow jacket as shown in Figure A 30 Indoor multi mode optical fibers usually have an orange jacket as shown in Figure A 31 Optical fibers are not delivered with the USG950...

Page 454: ...is without rotating the connector When you insert the fiber carefully insert the fiber head into the optical interface on the interface board To remove the optical fiber gently push on the fiber connector and then pull out the connector l FC PC connector The procedure for inserting and removing FC PC connectors is as follows When you insert an optical fiber aim the FC PC connector at the optical i...

Page 455: ...l Do not overbend optical fibers The bend radius must not be shorter than 40 mm CAUTION To avoid eye injuries do not look straight at the optical transmit interface of the laser or the optical connector Technical Specifications Table A 23 lists the technical specifications of the optical fiber and is for reference only Select optical fibers as required Table A 23 Technical specifications of the op...

Page 456: ... of a connector or if there are conductors between pins or between pins and the shell do not use the connector Precautions for Assembly l Use dedicated tools or tools from Huawei and follow the assembly procedure l When installing or removing cable components handle the cable terminals instead of the cables l Take the following precautions when cutting or peeling cables After cutting cables keep t...

Page 457: ...ssemble an OT terminal and a power cable Context Figure A 32 shows the components of an OT terminal and a power cable Figure A 32 Components of an OT terminal and a power cable A Heat shrinkable tube B Bare crimping terminal C Insulation layer of a power cable D Power cable conductor Procedure Step 1 Where the cross section of the cable conductor D is visible strip away a length L1 from the insula...

Page 458: ...f Conductor mm2 Value of L1 mm Cross Sectional Area of Conductor mm2 Value of L1 mm 1 7 10 11 1 5 7 16 13 2 5 7 25 14 4 8 35 16 6 9 50 16 NOTE If you are proficient in assembling OT terminals and power cables you can obtain the value of L1 by simply comparing the part to be crimped with the power cable Step 2 Slide the heat shrink tubing A onto the bare crimping terminal as shown in Figure A 34 HU...

Page 459: ... not exceed 2 mm Step 4 Crimp the joint parts of the bare crimping terminal and the conductor as shown in Figure A 35 NOTE The shapes of crimped parts may vary with the crimping dies Figure A 35 Crimping the joint parts of the bare crimping terminal and the conductor Step 5 Slide the heat shrink tubing A towards the connector until the tube covers the crimped part and then heat the tube with a hea...

Page 460: ...r cable Figure A 37 Components of a JG terminal and a power cable A JG terminal B Heat shrink tubing C Insulation layer of a power cable D Power cable conductor Procedure Step 1 Where the cross section of cable conductor D is exposed strip away a length L1 of insulation layer C as shown in Figure A 38 Recommended values of L1 are listed in Table A 25 HUAWEI USG9500 Series Hardware Guide A Appendix...

Page 461: ...of L mm 16 13 25 14 35 16 50 16 Step 2 Slide the heat shrink tubing B onto the bare crimping terminal as shown in Figure A 39 Figure A 39 Sliding the heat shrink tubing onto the bare crimping terminal Step 3 Attach the bare crimping terminal A to the exposed conductor and ensure that the bare crimping terminal is in sufficient contact with the insulation layer of the power cable as shown in Figure...

Page 462: ... shown in Figure A 41 Figure A 41 Heating the heat shrink tubing JG terminal End A 2 2 3 Assembling the Cord End Terminal and the Power Cable This section describes how to assemble a cord end terminal and a power cable Context Figure A 42 shows the components of a cord end terminal and a power cable The component labels in the following figure apply to all similar figures in this section HUAWEI US...

Page 463: ...isted in Table A 26 NOTICE When stripping a power cable be careful not to damage the cable conductor Figure A 43 Stripping a power cable cord end terminal Table A 26 Mapping between the cross sectional area of the conductor and the value of L1 Cross Sectional Area of Conductor mm2 Value of L1 mm Cross Sectional Area of Conductor mm2 Value of L1 mm 1 8 10 15 1 5 10 16 15 HUAWEI USG9500 Series Hardw...

Page 464: ...d end terminal ensure that the protruding length of conductor does not exceed 1mm Figure A 44 Attaching the cord end terminal to the conductor Step 3 Crimp the joint parts of the cord end terminal and the conductor as shown in Figure A 45 Figure A 45 Crimping the cord end terminal and the conductor Step 4 Check the maximum width of the tubular crimped terminal Maximum widths are listed in Table A ...

Page 465: ...ribes how to assemble RJ45 connectors and Ethernet cables A 2 3 1 Assembling the Shielded RJ45 Connector and the Ethernet Cable This section describes how to assemble a shielded RJ45 connector and a straight through Ethernet cable Context Figure A 46 shows the components of an RJ45 connector and a shielded Ethernet cable HUAWEI USG9500 Series Hardware Guide A Appendix Issue 03 2017 12 15 Huawei Pr...

Page 466: ...to the Ethernet cable Step 2 Remove a 30 mm long section of the jacket cut off the nylon twine inside the jacket and cut a 5 mm cleft in the cable jacket as shown Figure A 48 NOTICE l When removing a section of the jacket be careful not to damage the shield layer of the twisted pair cable l When removing the shielding layer be careful not to damage the insulation layer of the twisted pair cable HU...

Page 467: ...he edge of the metal shell cut off the shield layer with aluminum foil and ensure that there is no extra copper wire protruding Ensure that the exposed twisted pair cable is about 20 mm long as shown in Figure A 50 Figure A 50 Removing the shield layer of a twisted pair cable unit mm Step 5 According to colors lead the four pairs of twisted pair cables through the wire holder as shown in Figure A ...

Page 468: ... cables on the holder as shown in Figure A 53 The connections between the core wires and the pins are shown in Figure A 54 and listed in Table A 28 Figure A 53 Aligning four pairs of cables on a wire holder HUAWEI USG9500 Series Hardware Guide A Appendix Issue 03 2017 12 15 Huawei Proprietary and Confidential Copyright Huawei Technologies Co Ltd 456 ...

Page 469: ...1 White Orange 2 Orange 3 White Green 4 Blue 5 White Blue 6 Green 7 White Brown 8 Brown Step 7 Cut off the extra lengths of cable along the lower edge of the wire holder as shown in Figure A 55 Figure A 55 Cutting off extra cable HUAWEI USG9500 Series Hardware Guide A Appendix Issue 03 2017 12 15 Huawei Proprietary and Confidential Copyright Huawei Technologies Co Ltd 457 ...

Page 470: ...ctor body until the wire holder and the connector body are wrapped completely Crimp the connector as shown in Figure A 57 Figure A 57 Crimping the connector Step 10 Slide the jacket towards the metal shell until the metal shell is wrapped One end of the cable is now completely assembled as shown in Figure A 58 Figure A 58 Wrapping the metal shell HUAWEI USG9500 Series Hardware Guide A Appendix Iss...

Page 471: ...nnector jacket C Twisted pair cable Procedure Step 1 Remove a 16 mm long section of the jacket as shown in Figure A 60 NOTICE When removing the shielding layer be careful not to damage the insulation layer of the twisted pair cable Figure A 60 Removing the jacket of a twisted pair cable unit mm B C 16 0 Step 2 Align the four pairs of cables and cut the ends neatly as shown in Figure A 61 The conne...

Page 472: ...e 6 Green 7 White Brown 8 Brown Step 3 Feed the cable into the plug and crimp the connector as shown in Figure A 62 NOTE Ensure that the cable is in sufficient contact with the plug Figure A 62 Crimping the connector Step 4 To complete the assembly of the other end repeat Step 1 through Step 3 End HUAWEI USG9500 Series Hardware Guide A Appendix Issue 03 2017 12 15 Huawei Proprietary and Confidenti...

Page 473: ...a must remain intact and be aligned properly l The soldering edge of a metal contact strip must surpass the ends of the core wires The ends of the core wires must be in contact with the edge of the RJ45 trough The distance between them must be less than 0 5 mm Procedure Step 1 Hold the crimped connector with the front side facing you and check whether the metal contact strips are the same height T...

Page 474: ...trips are clean If they are not clean and cannot be cleaned replace the RJ45 connector with a new one Figure A 66 shows an unqualified connector Figure A 66 Dirty metal contract strip Step 4 Check whether the metal contact strips and the plastic septa are aligned and intact If a part is skewed and it cannot be fixed replace the RJ45 connector Figure A 67 shows an unqualified connector with askew p...

Page 475: ...ure A 68 Core wires in insufficient contact with the edge of the RJ45 trough End A 2 3 4 Testing the Connection of Assembled Cables This section describes how to test an assembled Ethernet cable which ensures that the connectors and wires at both ends are correctly connected This section illustrates how to test a straight through Ethernet cable Context Huawei provides two types of Ethernet cables ...

Page 476: ...tches or hubs Table A 31 lists the connections of core wires in a crossover cable Table A 31 Connections of core wires in a straight crossover cable RJ45 Connector 1 RJ45 Connector 2 Core Wire Color Twisted 6 2 Orange Yes 3 1 Orange White 2 6 Green Yes 1 3 Green White 4 4 Blue Twisted 5 5 Blue White 8 8 Brown Yes 7 7 Brown White Figure A 69 shows the pins of an RJ45 connector Figure A 69 RJ45 conn...

Page 477: ...her the indicators turn on simultaneously Figure A 70 shows a test with both indicators on Figure A 70 Testing wire connection and conduction Step 3 Hold the connectors shown in Figure A 71 and gently shake it Then repeat Step 2 to check whether the metal contact strips are in sufficient contact with the core wires and Ethernet ports Figure A 71 Checking connection reliability HUAWEI USG9500 Serie...

Page 478: ...or Device Running This section describes the environment requirements for device running including the requirements for the equipment room environment and power supply conditions A 3 1 Equipment Room Site Requirements Telecom equipment should run in a suitable environment When designing a project consider the communication network planning and the technical requirements of the equipment Consider h...

Page 479: ...and heating boilers l The room should be on the second floor or higher If this requirement cannot be met the equipment in the room should be on ground at least 600 mm above the highest flood level on local records The room should be at an altitude of less than 3 000 m l The room should be at least 3 7 km away from the ocean or a salt lake Otherwise the equipment room must be airtight and contain c...

Page 480: ... material that conducts static electricity or raise the floor so that static electricity can be conducted You can connect them with the grounding unit by using the current limiting resistor and connection line The resistance of the current limiting resistor is one megohm Load bearing capacity Larger than 150 kg m2 Door and windows The door of the equipment room should be 2 m high and 1 m wide One ...

Page 481: ...he regulated range Table A 33 lists the temperature humidity and altitude requirements for the equipment room Table A 33 Requirements for temperature humidity and altitude Item Requirements Environmental temperaturea Long term operationb 0 C to 45 C Short term operation 5 C to 50 C Storage temperature 40 C to 70 C Environmental relative humidity Long term operation 5 RH to 85 RH no coagulation Sho...

Page 482: ... high A 3 5 Dust Requirements The dust accumulated on the device may cause electrostatic force resulting in poor contact for metal connectors or metal connection points Electrostatic force not only affects the device s life span but also easily causes faults on the device The equipment room is free from explosive conductive magnetism permeable and corrosive dust Table A 34 describes requirements o...

Page 483: ...e located near an area where the corrosive gas concentration is high such as a chemical plant l Ensure the air intake vent of the room is upwind of the pollution source l Batteries should be separated and ideally set up in different rooms l An authoritative organization should monitor corrosive gas conditions regularly A 3 7 ESD Prevention Requirements The absolute value of electrostatic voltage m...

Page 484: ...s necessary A 3 9 Requirements for Lightning Proof Grounding Table A 36 describes requirements for lightning proof grounding Table A 36 Requirements for lightning proof grounding Item Requirements Capital construction Use reinforced concrete in equipment room construction Install the lightning proof device like a lightning rod in the room The lightning proof ground shares the same grounding body w...

Page 485: ... ground bar of the equipment room Equipotential connection Properly ground the devices and auxiliary devices in the room such as mobile base station transmission switching equipment power supply equipment and cable distribution frame Connect all protection PGND cables to the collective protection ground bar Connect all protection PGND cables in one equipment room to one protection ground bar Apply...

Page 486: ...ection describes the requirements for power supply conditions DC Power Supply Requirements The telecommunication site should receive stable and reliable DC power supply Deploy the power equipment near the telecom equipment to make the DC feeder as short as possible To reduce power consumption and installation costs ensure that the loop voltage drop from the battery port to the equipment port is le...

Page 487: ...enhance the reliability of the AC power supply system increase the capacity of storage batteries l The total capacity of the high frequency switch rectifier must satisfy the power requirements for the communication loading and battery charging Configure the backup rectifier modules If there are 10 or fewer active modules configure one backup module If there are more than 10 active modules configur...

Page 488: ...itoring and control by adopting automatic input removal and supply AC power cables should meet the following requirements l AC neutral uses the conductor with the same cross section as the phase line l AC wires are non flammable and comply with local regulations Low voltage power distribution rooms comply with local regulations AC Power Supply Recommendations Recommendations for AC power supply ar...

Page 489: ...on grounding including the shielded grounding and the lightning proof grounding of the cable distribution frame are jointly grounded at the same group of grounding body 2 The cabling racks shells metal ventilation pipes metal doors and windows in the equipment room should be grounded for protection 3 The metal parts of equipment which are neutral in normal conditions should be grounded for protect...

Page 490: ...he metal components 5 Securely connect the cabinets in the same row by fastening the captive screws and gaskets on the top of the cabinets Do not spray coating onto a rectangle area of 30 mm x 50 mm around the connection hole for captive bolt You must take measure to preventing rust and corrosion in this area Zinc electroplating with iridescent yellow chromate conversion coating should be applied ...

Page 491: ...ations for signal cables No Description 1 If there are digital trunks that connect the transmission equipment directly or indirectly to the wireless communication equipment in the station install an E1 lightning protection device for the relative interface of the transmission equipment 2 Equip the outdoor cable with a metal jacket and ground its two ends or connect them to the protection ground ba...

Page 492: ...nd of various transmission and communication equipment in the equipment room 6 The length of the protection ground cable should not exceed 45 m The protection ground cable should be as short as possible When the cable is longer than 45 m advise the user to replace the ground bar nearby A 5 Engineering Labels for Cables This section provides an overview of labels and describes the labels for optica...

Page 493: ...nsions as shown in Figure A 75 Figure A 75 Signal cable labels TO 84 0 7 5 7 0 5 5 5 5 11 0 11 0 37 0 7 5 7 0 5 5 5 5 1 5 0 6 1 0 2 0 分隔线 刀刻虚线 10 0 分隔符 刀刻虚线 单位 mm To clearly specify the position of a cable use the dividing lines on the label There is a dividing line between the cabinet number and the chassis number and another one between the chassis number and the slot number The dividing line is...

Page 494: ...ication plate has an embossment of 0 2 mm x 0 6 mm around symmetrical on both sides and the area in the middle is for affixing the label as shown in Figure A 76 Figure A 76 Power cable label 0 6mm 26 2mm 12 2mm 0 6mm 10mm 11mm TO R1 0 3 1 2 25mm 1 5mm 110mm A 5 1 3 Label Printing Contents can be printed or written on labels Printing is recommended for clarity and efficiency HUAWEI USG9500 Series H...

Page 495: ...n the printer model Before printing labels do a test print as follows 1 Try printing on a piece of standard paper that is blank on both sides Cover the label paper with the piece of standard paper and check whether the page setup conforms to the requirement 2 Make sure the printer properties such as paper size and direction have been set correctly If the printout conforms to the requirement print ...

Page 496: ...and printing is done on multiple lines avoid obscuring the To mark When aligning the text use the space bar to move the text to the next line A 5 1 4 Writing Labels Writing Tools To ensure that the labels are clear when filling out the labels by hand use black oiliness markers instead of ballpoint pens In special cases black ballpoint pens are allowed but they are not recommended When writing with...

Page 497: ...In special cases to avoid bending or otherwise affecting cables affix the label elsewhere As shown in Figure A 79 orient the labels according to the following specifications For vertical cabling orient the rectangular part of the label out to the right For cabling laid out horizontally orient the rectangular part of the label downward Figure A 79 Signal cable labeling orientation TO 1 06 A01 2 A T...

Page 498: ...ing on the orientation of the cabling the finished identification plate should be positioned on the top or on the right side of the cable as shown in Figure A 81 Orientation rules are as follows l For vertical cabling orient the identification card out to the right of the cable l For cabling laid out horizontally orient the identification card above the cable and make sure the label is facing out ...

Page 499: ...ng end of the equipment the text part of the label is on the right side of the cable The side marked TO faces outward and contains information about the location of the opposite end of the cable the other side contains information about the location of the local end Information in Area 1 at one end of the cable is the same as the information in Area 2 at the other end of the cable A 5 1 7 Labeling...

Page 500: ...ical fibers that connect two devices Table A 45 Information on one side of labels affixed to the optical fiber that connects two devices Content Meaning Example MN B C D R T MN cabinet number M The cabinet rows from front to back are labeled from A to Z N The cabinet columns from left to right are labeled from 01 to 99 A01 is the cabinet in Row A and Column 01 B chassis number Numbered bottom to t...

Page 501: ...erface T optical transmitting interface Label Example Figure A 83 shows an example of a label on an optical fiber connecting two devices Figure A 83 Example of the label on the optical fiber between two devices A01 R TO 01 05 01 G01 T 01 01 01 The labels are described as follows l A0 01 05 01 R indicates that the local end of the optical fiber is connected with the optical receiving interface 01 o...

Page 502: ...igits such as 01 D optical interface number Numbered bottom to top and left to right such as 01 R optical receiving interface T optical transmitting interface ODF MN B C R T MN row number and column number of an ODF M The cabinet rows from front to back are labeled from A to Z N The cabinet columns from left to right are labeled from 01 to 99 For example G01 is the ODF of Row G and Column 01 B row...

Page 503: ... applicable range and contents of the labels for network cables and provides examples Applicable Ranges The labels can be applied to Ethernet cables only Label Content Table A 47 describes the content on both sides of the labels affixed to Ethernet cables You can also fill in the labels according to the actual environment If the device is not installed in a cabinet remove the cabinet number Table ...

Page 504: ...ent or a terminal the label on the agent or terminal end should specify the serial number of the network interface The definitions of the cabinet number and chassis number are the same as those described in Table D 4 l For a stand alone hub without any cabinet or chassis the label should specify the precise location of the hub The serial number on the hub the network interface number of the agent ...

Page 505: ...M 45M 140M and 155M cables and 120Ω to 75Ω trunk cables A 5 4 1 Engineering Labels for Trunk Cables Between Devices Label Interpretation Table A 48 describes the engineering labels for trunk cables between devices Table A 48 Contents of engineering labels for trunk cables between devices Content Meaning Example MN B C D R T MN cabinet number A01 B chassis number Numbered bottom to top with two dig...

Page 506: ... in row G column 01 in the equipment room l D02 01 01 01 R indicates that the opposite end of the trunk cable is connected to receiving interface 01 on slot 01 chassis 01 in the cabinet in row D column 02 in the equipment room A 5 4 2 Engineering Labels for Trunk Cables Between the Device and a DDF Label Interpretation Table A 49 describes the engineering labels for trunk cables between the device...

Page 507: ...al transmit interface Usually a DDF is marked A or B A indicates that the DDF terminal is connected to an optical network device B indicates that the DDF terminal is connected to a switching device Label Example Figure A 87 shows an example of a label for trunk cables between the device and a DDF Figure A 87 Engineering labels for trunk cables between the device and a DDF A01 R TO 03 01 01 DDF AR ...

Page 508: ...A B frame number Numbered bottom to top with two digits such as 03 C physical slot number Numbered top to bottom and left to right with two digits such as 01 D cable number Numbered top to bottom and left to right with two digits such as 01 MDF MN B C MN row number and column number of the MDF M The rows of cabinets from front to back are labeled from A to Z N The columns of cabinets from left to ...

Page 509: ...ft to right On the loaded cabinet side only MN is used to identify the cabinet On the power cabinet side MN identifies the row and column number of the power distribution equipment like a control cabinet and distribution box and BC identifies the row and column number of the 48 V connector If there is no row or column number or the connector can be identified without them you can omit BC It is unn...

Page 510: ... the terminal block PGND and BGND are both copper bars on which the terminal blocks are short circuited Therefore you can connect to either terminal It is only necessary to provide the row and column of the power distribution box instead of the specific serial number of the terminal block on the copper bar For example if the label on the loaded cabinet side is A01 BGND it means that the power cabl...

Page 511: ... the identification plates with labels should face up and the text on the labels in the same cabinet should be in the same direction as shown in Figure A 90 Figure A 90 Labels for AC power cables TO A01 AC TO B01 AC Label for the power cable on the loaded cabinet namely cable position on the power distribution cabinet Label for the power cable on the power distribution cabinet namely cable positio...

Page 512: ...A 91 Rack mounting rail requirements l Customized cabinets must be 19 inch standard cabinets with a depth of more than 800 mm and 465 mm of space between the installation holes on the two rack mounting rails Figure A 92 Customized cabinet requirements HUAWEI USG9500 Series Hardware Guide A Appendix Issue 03 2017 12 15 Huawei Proprietary and Confidential Copyright Huawei Technologies Co Ltd 500 ...

Page 513: ...ce to the ground busbar directly l On customized cabinets porosity must be greater than 50 on the front and rear doors l If a device uses front and rear access modes it cannot be installed against a wall This is to ensure that at least 760 mm of space is available for maintenance A 7 Fault Tag Fault Tag Customer name Address Contact person Tel Fax Category RMA Return Analysis BOM Code Product Desc...

Page 514: ...erface cards returned the optical interfaces should be covered with protection caps l In general the analysis card will not be returned to you If you have any special requirements please contact Huawei l One Fault Tag should be adapted in one return category such as RMA Return Analysis l The items marked with are the mandatory fields that you must fill in HUAWEI USG9500 Series Hardware Guide A App...

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