Page 1 H3C SR8800-F Router Series Installation Guide New H3C Technologies Co., Ltd. http://www.h3c.com Document version: 5W104-20221206...
Page 2 The information in this document is subject to change without notice. All contents in this document, including statements, information, and recommendations, are believed to be accurate, but they are presented without warranty of any kind, express or implied. H3C shall not be liable for technical or editorial errors or omissions contained herein.
Page 3 Preface The H3C SR8800-F Router Series Installation Guide describes how to install the H3C SR8800-F routers. This preface includes the following topics about the documentation: • Audience. • Conventions. • Documentation feedback. Audience This documentation is intended for: • Network planners.
Page 4 Symbols Convention Description An alert that calls attention to important information that if not understood or followed WARNING! can result in personal injury. An alert that calls attention to important information that if not understood or followed CAUTION: can result in data loss, data corruption, or damage to hardware or software. An alert that calls attention to essential information.
Page 5 Documentation feedback You can e-mail your comments about product documentation to info@h3c.com. We appreciate your comments.
Page 6: Table Of Contents
Contents Preparing for installation ················································································ 1 Safety recommendations ··································································································································· 1 General safety recommendations ·············································································································· 1 Electricity safety ········································································································································· 1 Moving safety ············································································································································· 1 ESD prevention ·········································································································································· 1 Laser safety ················································································································································ 2 Examining the installation site ···························································································································· 2 Weight support ··········································································································································· 2 Temperature ···············································································································································...
Page 7: Preparing For Installation
Preparing for installation This chapter describes preparations for installing an SR8800-F router. Safety recommendations To avoid possible bodily injury and equipment damage, read the safety recommendations carefully before installation. Note that the recommendations do not cover every possible hazardous condition. General safety recommendations •...
Page 8: Laser Safety
• Always wear an ESD wrist strap and make sure it is correctly grounded when installing FRUs. For how to use an ESD wrist strap, see "Attaching an ESD wrist strap." • Hold a PCB by its edges. Do not touch any electronic components or printed circuit. •...
Page 9: Operating Altitude
Operating altitude Table 2 Operating altitude requirements Item Specifications ≤ 4000 m (13123.36 ft) (available altitude) Operating altitude ≤ 3000 m (9842.52 ft) (certified altitude) Cleanliness Dust buildup on the chassis might result in electrostatic adsorption, which causes poor contact of metal components and contact points.
Page 10: Grounding
• Keep the router far away from radio transmitting stations, radar stations, and high-frequency devices to make sure the EMI levels do not exceed the compliant range. • Use electromagnetic shielding, for example, shielded interface cables, when necessary. Grounding For the operating reliability of your router, follow these guidelines: •...
Page 11: Space
Figure 1 Airflow through the chassis (SR8805-F) (1) Direction of the airflow into the power supplies (2) Direction of the airflow out of the power supplies (3) Direction of the airflow into the chassis (4) Direction of the airflow out of the chassis Space For easy installation and maintenance, follow these space requirements: •...
Page 12: Tools And Equipment
Model Chassis dimensions Rack requirements 11 mm (0.43 in) for the grounding posts and the rear door  screw at the chassis rear • Height—575 mm (22.64 in)/13 RU • A minimum of 0.8 m (2.62 ft) • Width—436 mm (17.17 in) in depth (recommended) •...
Page 13 Category Tool Needle-nose pliers Diagonal pliers Combination pliers Wire-stripping pliers Small tools Crimping pliers RJ-45 crimping pliers File Handsaw ESD wrist strap Hair brush Paper knife Hand bellows Electric iron Auxiliary tools Solder wire Ladder Cable stripper Vacuum cleaner Crowbar Rubber hammer Lint-free paper Tools for fiber-optic cleaning...
Page 14 Contents Installing the router ························································································ 1 Installation flow··················································································································································· 1 Confirming installation preparations ··················································································································· 1 Attaching slide rails and cage nuts to the rack ··································································································· 2 Installing slide rails ····································································································································· 2 Installing cage nuts ···································································································································· 3 Installing cable management bracket and mounting brackets ··········································································· 4 Installing the cable management bracket···································································································...
Page 15: Installing The Router
Installing the router This section describes the procedure for installing the router. NOTE: • The chassis and component views in this section are for illustration only. • Keep the packages of the router and components for future use. Installation flow Figure 1 Installation flow Start Confirm installation...
Page 16: Attaching Slide Rails And Cage Nuts To The Rack
• The available installation height of the rack is greater than the total height of the routers to be installed, and enough clearance is reserved for cable routing. • The router is ready for installation and has been carried to a place near the rack and convenient for moving.
Page 17: Installing Cage Nuts
Available slide rails Chassis Router weight with Max. Slide rail Adjustment Occupied model full load-bearing model range space configuration capacity 500 to 800 mm LSTM2KSGD0 360 kg (793.65 lb) (19.685 to 31.50 2 RU Installing cage nuts Before mounting the chassis in the rack, attach cage nuts to the front rack posts. As shown in Figure 2, determine the positions of the cage nuts according to the holes on the...
Page 18: Installing Cable Management Bracket And Mounting Brackets
Installing cable management bracket and mounting brackets Before installing the router in a rack, install the cable management bracket and mounting brackets shipped with the router. The cable management bracket is used for cabling the router, and mounting brackets are used for attaching the chassis to the rack. Installing the cable management bracket Attach the cable management bracket to the left mounting bracket, as shown in Figure...
Page 19: (Optional) Installing An Air Filter
Figure 4 Installing mounting brackets (SR8805-F) (1) Screws for fixing the mounting brackets to the chassis (2) Left mounting bracket (3) Right mounting bracket (Optional) Installing an air filter Air filters are optional components for the router. If you have ordered an air filter, install the air filter before mounting the router in the rack.
Page 20: Mounting The Router In The Rack
Figure 5 Installing the air filter (SR8805-F) Mounting the router in the rack WARNING! • Do not hold the handle of a fan tray or power supply, air vents, or the handle on the real panel to move the router. Doing so might cause equipment damage or even bodily injury. •...
Page 21: Grounding The Router
Figure 6 Installing the chassis in a rack (SR8805-F) If the screw holes on the mounting brackets cannot align with the cage nuts on the rack, perform the following verifications: • Verify that the bottom edge of the slide rail aligns with the middle of the narrowest metal area between holes.
Page 22: Grounding The Router Through The Pe Wire Of An Ac Power Supply
Figure 7 Connecting the grounding cable to a grounding strip Grounding the router through the PE wire of an AC power supply CAUTION: • Make sure the AC power supply uses a three-wire cable with a protection wire. • Make sure the PE wire of the AC power supply is correctly grounded at the power distribution room or AC power supply transformer side.
Page 23: Grounding The Router Through The Rtn Wire Of A Dc Power Supply
Figure 8 Grounding the router through the PE wire of the AC power supply Grounding the router through the RTN wire of a DC power supply CAUTION: Make sure the RTN wire is correctly grounded from the DC egress of the DC power cabinet. You can ground the router through the return (RTN) wire of the DC power supply, as shown in Figure 9, if the following conditions exist:...
Page 24 Contents Installing FRUs ······························································································ 1 Attaching an ESD wrist strap ····························································································································· 1 Installing MPUs/service modules ······················································································································· 1 Installing a subcard ············································································································································ 3 Installing the power supply system ···················································································································· 4 Installing a power supply adapter ··············································································································· 4 Installing a power supply in the chassis ····································································································· 5 Connecting the power cord ························································································································...
Page 25: Installing Frus
Installing FRUs There is no required order for installing FRUs. As a best practice, connect power cords after completing installing all required FRUs. Keep the chassis and the component packages for future use. Attaching an ESD wrist strap The router is provided with an ESD wrist strap. To minimize ESD damage to electronic components, wear an ESD wrist strap and make sure it is reliably grounded when installing modules.
Page 26 Examine the card status LED (SLOT) on the MPU. If the RUN LED flashes, the card in the  slot operates correctly. For more information about card status LED (SLOT), see "Card status LEDs." Verify the card operating status at the CLI. For more information, see device management in  H3C SR8800-F Routers Fundamentals Command Reference.
Page 27: Installing A Subcard
Figure 2 Installing a card (MPU) Installing a subcard CAUTION: To ensure good ventilation, install filler panels in unused slots. This section describes how to install a subcard on a base card. The base card installation procedure is the same as the card installation procedure (see "Installing MPUs/service modules").
Page 28: Installing The Power Supply System
Figure 3 Installing a subcard Installing the power supply system WARNING! Provide a circuit breaker for each power supply. CAUTION: In case of dual grid inputs, make sure the amplitude, phase, and frequency of the input voltage of the two grids are the same. The switch uses 1+1 power redundancy and supports dual grid inputs.
Page 29: Installing A Power Supply In The Chassis
Wear an ESD wrist strap and make sure it makes good skin contact and is reliably grounded. For more information, see "Attaching an ESD wrist strap." Unpack the power supply adapter. Holding the adapter handle with one hand and supporting the adapter bottom with the other, slide the adapter all the way into the chassis along the guide rails.
Page 30: Connecting The Power Cord
Wear an ESD wrist strap and make sure it has a good skin contact and is reliably grounded. For more information, see "Attaching an ESD wrist strap." Remove the filler panel (if any) from the target slot. Keep the filler panel secure for future use. Unpack the power supply, and verify that the model is correct.
Page 31 Table 1 Power cord connection for SR8800-F routers Power input Model Description (AC/DC) PSR320-A Connecting the power cord for a PSR320-A/PSR650-A power supply PSR650-A PSR1200-A Connecting the power cord for a PSR1200-A power supply Connecting the power cord for a PSR1400-A power supply (using a releasable cable tie to secure the power cord) PSR1400-A Connecting the power cord for a PSR1400-A power supply (using a...
Page 32 Figure 6 Connecting the power cord for a PSR320-A/PSR650-A power supply Connecting the power cord for a PSR1200-A power supply Unpack the power cord, and verify the power cord model is correct. The PSR1200-A power supply uses a 16A AC power cord. Connect the power cord to the power socket, and ensure a good contact.
Page 33 Figure 7 Connecting the power cord for a PSR1200-A power supply Connecting the power cord for a PSR1400-A power supply (using a releasable cable tie to secure the power cord) The accessories provided with the power supply are different in batches. If a releasable cable tie is provided with the power supply, follow this procedure to connect and secure the power cord.
Page 34 Figure 8 Connecting the power cord for a PSR1400-A power supply (using a releasable cable tie to secure the power cord) Connecting the power cord for a PSR1400-A power supply (using a power cord retainer suite to secure the power cord) The accessories provided with the power supply are different in batches.
Page 35 Figure 9 Connecting the power cord for a PSR1400-A power supply (using a power cord retainer suite to secure the power cord) Connecting the power cord for a PSR2500-12AHD power supply Unpack the power cord and make sure the power cord model is correct. The PSR2500-12AHD power supply uses a 16A AC power cord or a high-voltage DC power cord.
Page 36 Figure 10 Connecting a 16A AC power cord for a PSR2500-12AHD power supply Connecting the power cord for a PSR650-D power supply WARNING! Before connecting the DC power cord for a PSR650-D power supply, make sure the DC power source circuit breakers are turned off. To connect the power cord for a PSR650-D power supply: Remove the protection cover from the power supply.
Page 37 Figure 11 Connecting the power cord for a PSR650-D power supply Connecting the power cord for a PSR1200-D power supply Loosen the captive screw that secures the terminal block plug to the chassis and remove the terminal block plug. Figure 12 Removing the terminal block plug Unpack the DC power cord provided with the power supply.
Page 38 Figure 13 Inserting the DC power cord into the terminal block plug Correctly orient the terminal block plug and insert it into the power supply. Use a Phillips screwdriver to fasten the screw on the plug. Figure 14 Attaching the terminal block plug to the power supply Connect the other end of the DC power cord to the DC power source.
Page 39: (Optional) Installing A Cf Card For An Mpu
Connect the end of the blue DC power cord marked with – to the negative terminal (–) on the power supply. Connect the end of the black DC power cord marked with + to the positive terminal (+) on the power supply.
Page 40: (Optional) Installing A Transceiver Module
Figure 16 CF card slot view (with the protection cover) (1) CF card protection cover (2) CF card eject button (3) CF card (4) CF card status LED (CFS) You can install a CF card for an MPU that supports CF cards but does not have CF card protection cover.
Page 41: Installing An Xfp/Qsfp+/Sfp+/Sfp/Qsfp28 Transceiver Module
CAUTION: • During the installation or removal process, be careful not to touch the golden plating on the transceiver module. • Before inserting a transceiver module into a port, make sure the transceiver module aligns with the port correctly. • If a transceiver module has a fiber connected, remove the fiber before installing the transceiver module.
Page 42: Connecting An E1 Cable
Remove the dust plug from the target fiber port. As shown in Figure 19, correctly orient the transceiver module and align it with the fiber port. Push it gently into the port until you feel it snaps into place. Transceiver modules and fiber ports have disorientation rejection designs. If you cannot insert a transceiver module easily into a port, the orientation might be wrong.
Page 43 Contents Connecting your router to the network ··························································· 1 Accessing the router for the first time················································································································· 1 Setting up the configuration environment··································································································· 1 Setting terminal parameters ······················································································································· 2 Powering on the router ······························································································································· 2 Configuring the router ········································································································································ 3 Configuring authentication on a user interface··························································································· 4 Verifying the network configuration ············································································································...
Page 44: Connecting Your Router To The Network
Virtual type terminal (VTY) line—Manages and monitors users that logs in to the router through Telnet or SSH. For more information about login methods and user lines, see login management in H3C SR8800-F Routers Fundamentals Configuration Guide. Accessing the router for the first time The first time you access the router you must use a console cable to connect the console port on the router to a configuration terminal, a PC for example.
Page 45: Setting Terminal Parameters
Figure 1 Connecting a console port to a terminal Setting terminal parameters To access the device through the console port, you must run a terminal emulator program (TeraTermPro, PuTTY, or Tera Term) on the configuration terminal. For information about how to use a terminal emulator program, see the program's user guide.
Page 46: Configuring The Router
To power on the router: Turn on the power source of the router. The output displayed on the terminal varies by router software versions. The following is a sample output you can see on the terminal: System is starting... Press Ctrl+D to access BASIC-BOOTWARE MENU... Press Ctrl+T to start memory test Booting Normal Extended BootWare The Extended BootWare is self-decompressing..Done.
Page 47: Configuring Authentication On A User Interface
Complex to configure, secure, and hierarchical operators cooperate to manage password user management the router For more information about login methods, see login management in H3C SR8800-F Routers Fundamentals Configuration Guide. Verifying the network configuration Execute commands in any view.
Page 48: Connecting Your Router To The Network Through Optical Fibers
To connect your router to the network through a twisted pair cable: Connect one end of the twisted pair cable to the RJ-45 Ethernet port of your router. Connect the other end of the twisted pair cable to the RJ-45 Ethernet port of the access device in the network.
Page 49 H3C SR8800-F Routers Network Management and Monitoring Command Reference.
Page 50 Contents Troubleshooting ····························································································· 1 Troubleshooting methods··································································································································· 1 Troubleshooting the system ······························································································································· 1 Troubleshooting on startup ························································································································ 1 Troubleshooting the router during the operation ························································································ 2 Troubleshooting the power supply system ········································································································· 2 Troubleshooting the fans···································································································································· 3 Troubleshooting the MPUs································································································································· 3 Troubleshooting the service modules ················································································································...
Page 51: Troubleshooting
The service modules provide the port status LEDs, with which you can detect port failures. For more information about the LED status on the service modules, see "Service module LEDs." If you cannot locate failures by using the methods in this chapter, contact the local agents or H3C Support. For more information, see "Technical...
Page 52: Troubleshooting The Router During The Operation
Troubleshooting the router during the operation At the CLI, you can use related commands to display the router information and locate the failures. For more information about how to display the router information, see device management in H3C SR8800-F Routers Fundamentals Command Reference.
Page 53: Troubleshooting The Fans
Troubleshooting the fans If the fan tray is operating correctly, the status of the fan tray LEDs on the MPU is as follows: • For the MPU with only one fan tray LED, the LED is green. • For the MPU with two fan tray LEDs, the OK LED is on and the FAIL LED is off. If the fan tray LEDs do not conform to the status mentioned above, the fan tray fails.
Page 54: Troubleshooting Interfaces
Calculate the total power consumption, and make sure your power supply can provide enough power. For more information, see "Power supplies." Verify that the service module is fully seated. You can remove the service module, install it again, and press the ejector levers inward until the ejector levers touch the panel tightly. If the router has empty service module slots, install the service module in an empty service module slot, and verify that the service module is operating correctly.
Page 55: Technical Support
CF card is faulty. If the failure persists, contact the local agents or H3C Support. Technical support If the failures still exist, contact the agents or H3C Support. To report the failures, prepare the following information: • Arrival time of the router •...
Page 56 Contents Replacement procedures ··············································································· 1 Replacing the power supply system ·················································································································· 1 Replacing a power supply adapter ············································································································· 1 Replacing a power supply ·························································································································· 2 Replacing a card ················································································································································ 4 Replacing a subcard ·········································································································································· 5 Replacing a fan tray ··········································································································································· 6 Removing a fan tray ···································································································································...
Page 57: Replacement Procedures
Replacement procedures WARNING! • When replacing a field replaceable unit (FRU) on an operating router, be aware of electrical safety hazards. • To avoid bodily injury and device damage, strictly follow the replacement procedure in this section when you replace a component. CAUTION: As a best practice to avoid data theft, remove all data from an FRU that has a storage medium, for example, a CF card, hard disk, or flash before disposal of that FRU.
Page 58: Replacing A Power Supply
Figure 1 Removing a power supply adapter Replacing a power supply Replacement precautions Before you replace a power supply, read the following precautions carefully: • To avoid device damage and bodily injury, strictly follow the procedures shown in Figure 2 Figure 3 to remove and install a power supply, respectively.
Page 59 Replacement conditions Replace a power supply when any of the following conditions exists: • The power supply is faulty. • The power output of the current power supplies cannot meet the power requirements of the router. The system power consumption equals the total dynamic power consumption of all cards plus the maximum power consumption of fans.
Page 60: Replacing A Card
MPU. For the MPU status LED description, see "MPU active/standby status LED." For more information about the commands, see device management commands in H3C reboot display device SR8800-F Routers Fundamentals Command Reference.
Page 61: Replacing A Subcard
Press the ejector levers outward to separate the card from the backplane, as shown by callout 2 Figure Use one hand to slowly move the card outward. Support the bottom of the card with the other hand while pulling the card out of the slot along slide rails, as shown by callout 3 in Figure Put the removed card on the antistatic mat.
Page 62: Replacing A Fan Tray
Figure 6 Replacing a subcard (1) Loosen the mounting screw (2) Press the ejector levers outward (3) Pull the card out Replacing a fan tray WARNING! To avoid bodily injury, do not touch the rotating fans. CAUTION: To ensure correct operation of the router, install a new fan tray within five minutes after the fan tray is removed.
Page 63: Installing A Fan Tray
For more information about the FAN LEDs, see "Fan tray status LEDs." Verify the fan status by using the display fan command. For more information, see device  management in H3C SR8800-F Routers Fundamentals Command Reference. Replacing an air filter CAUTION:...
Page 64: Replacing A Cf Card
H3C SR8800-F Routers Fundamentals Command Reference. If the LED is flashing, it means that data is being read from or written to the CF card. In this  case, you cannot remove the CF card. Wait until the CF card LED stops flashing.
Page 65: Replacing A Transceiver Module
Use a Phillips screwdriver to loosen the screw at the right side of the CF card protection cover, and pull the CF card protection cover outward. Skip this step if the MPU does not have a CF card protection cover. Push the eject button on the CF card slot all the way until the CF card in the slot ejects.
Page 66: Replacing An Xfp/Qsfp+/Sfp+/Sfp/Qsfp28 Transceiver Module
Make sure the transceiver modules at the two ends of an optical fiber are the same model. Replacing an XFP/QSFP+/SFP+/SFP/QSFP28 transceiver module The replacement procedure is similar for XFP, QSFP+, QSFP28, SFP+, and SFP transceiver modules. The following uses an SFP+ transceiver module for illustration. To replace an SFP+ transceiver module: Wear an ESD wrist strap and make sure it makes good skin contact and is correctly grounded.
Page 67: Replacing An E1 Cable
There is a latching mechanism between a fiber connector and transceiver module port to prevent connector disengagement. Release the latching mechanism before removing the optical fiber. To avoid damages, do not use excessive force. Loosen the captive screws on the module. Carefully pull the module out of the port.
Page 68 Contents Appendix A Chassis views and technical specifications ································ 1 Chassis views ···················································································································································· 1 SR8803-F ··················································································································································· 1 SR8805-F ··················································································································································· 2 SR8808-F ··················································································································································· 3 SR8812-F ··················································································································································· 4 Technical specifications ····································································································································· 4 Weights and dimensions ···························································································································· 4 Module power consumption and total power consumption ········································································ 7 Heat dissipation ········································································································································...
Page 69: Appendix A Chassis Views And Technical Specifications
The available chassis models and accessories vary by country and region. This document describes only the preceding models. For the chassis models and accessories available in your country or region, contact the local H3C marketing personnel. SR8803-F Figure 1 SR8803-F front and rear views...
Page 70: Sr8805-F
SR8805-F Figure 2 SR8805-F front view (1) MPU section (2) Service module section (3) Power supply section (4) Fan tray section...
Page 71: Sr8808-F
SR8808-F Figure 3 SR8808-F front view (1) MPU section (2) Service module section (3) Power supply section (4) Fan tray section...
Page 72: Sr8812-F
SR8812-F Figure 4 SR8812-F front view (1) Service module section (2) MPU section (3) Power supply section (4) Fan tray section Technical specifications Weights and dimensions Table 1 Chassis weights and dimensions Weight (full Model Height Width Depth configuration) ≤ 29 kg (63.93 lb) SR8803-F 175 mm (6.89 in) (4 RU) 436 mm (17.17 in)
Page 73 Weight (full Model Height Width Depth configuration) NOTE: Rack height is measured in RUs. One RU is 44.45 mm (1.75 in). Table 2 Card weights and dimensions Model Net weight Height Width Depth CSR07MPUA1 1.40 kg (3.08 lb) 45 mm (1.77 in) 199 mm (7.83 in) 352 mm (13.86 in) CSR07SRPUA1...
Page 74 Model Net weight Height Width Depth PIC-TCP8L 0.40 kg (0.88 lb) 18 mm (0.71 in) 171 mm (6.73 in) 157 mm (6.18 in) PIC-PSP4L 0.40 kg (0.88 lb) 18 mm (0.71 in) 171 mm (6.73 in) 157 mm (6.18 in) PIC-PS2G4L 0.40 kg (0.88 lb) 18 mm (0.71 in)
Page 75: Module Power Consumption And Total Power Consumption
Table 3 Power supply adapter weights and dimensions Model Weight Height Width Depth Compatible power supplies 4.42 kg 128 mm 196 mm 382 mm LSQM1PWRSPA PSR650-A and PSR650-D (9.74 lb) (5.04 in) (7.72 in) (15.04 in) 4.95 kg 128 mm 196 mm 382 mm LSQM1PWRSPB...
Page 76 Does not exceed the total maximum output power of both power supplies on the router when the power supply mode is load balancing. For information about the power supply modes of the power supplies, see H3C SR8800-F Routers Probe Command Reference.
Page 77 Minimum static power Maximum dynamic power Model consumption consumption SPC-XP24LC 174 W 250 W SPC-XLP2XP4LC 91 W 143 W SPC-CP1LC 85 W 120 W CSPC-CP2LB 150 W 197 W CMPE-1104 91 W 158 W CSPEX-1204 88 W 190 W CSPEX-1104-E 79 W 164 W CSPEX-1304S...
Page 78: Heat Dissipation
Minimum static power Maximum dynamic power Model consumption consumption MIC-QP1L LSU1ADECEA0 109 W 150 W LSU1FWCEA0 109 W 250 W LSU3FWCEA0 109 W 250 W LSU1IPSBEA0 109 W 150 W NOTE: The maximum power consumption of a CMPE or CSPEX card refers to the power usage when the card is fully configured with subcards that have the highest power consumption.
Page 79: Noise
Noise The router uses fan trays that can automatically adjust the fan speed to meet the cooling requirements. The sound pressure level of the router varies by fan speed. Table 9 Sound pressure levels Sound pressure level Model At low fan speed At middle fan speed At full fan speed SR8803-F...
Page 80 Contents Appendix B FRUs and compatibility matrixes ··············································· 1 MPUs ································································································································································· 1 Overview ···················································································································································· 1 Ordering guide ··········································································································································· 2 Service modules················································································································································· 2 CSPC and SPC cards ································································································································ 2 CSPEX cards ············································································································································· 4 CMPE cards ··············································································································································· 6 Subcards ···················································································································································· 7 OAA modules ··········································································································································· 10 Service module ordering guide ················································································································...
Page 81: Appendix B Frus And Compatibility Matrixes
Appendix B FRUs and compatibility matrixes For compatibility between the cards and the software release, see the release notes. For compatibility between the cards and transceiver modules, see the card and transceiver module compatibility matrix. MPUs Overview Table 1 MPU specifications SDRAM Applicable Model...
Page 82: Ordering Guide
IMPORTANT: The USB port on the router does not support extension cables. Ordering guide You can install one MPU, or two MPUs for redundancy for the router. To install two MPUs on the router, make sure they are the same model. The available MPUs vary by router model.
Page 83 Model Description Connector Number of ports Port speed optical interface module 10/100/1000 Mbps RJ-45 10/100/1000 Mbps 16-port 1000BASE-X 100 Mbps optical interface + 8-port CSPC-GP24XP2 combo interface + 2-port 1000 Mbps 10GE optical interface 10/100/1000 Mbps module 10 Gbps 24-port 1000BASE-X RJ-45 10/100/1000 Mbps Ethernet optical interface...
Page 84: Cspex Cards
Model Description Connector Number of ports Port speed module 2-port 100GBASE CSPC-CP2LB Ethernet optical interface 100 Gbps module IMPORTANT: • An SR8805-F router installed with CSR07SRPUC1 MPUs and an SR8803-F router do not support CSPC-CP2LB cards. • On an SR8812-F router, a CSPC-CP2LB card can only be installed in slot 0, slot 4, or slot 7. NOTE: A combo interface is a logical interface that contains an SFP port and an RJ-45 Ethernet port.
Page 85 Subcard CSPEX-1504S/C CSPEX-1304S CSPEX-1204 CSPEX-1104-E model SPEX-1404S subslots 1 and 2 1 and 2 Not supported in Not supported in subslot 3 or 4 subslot 3 or 4 Supported in subslots 1 and 2 PIC-XP1L Not supported Not supported Not supported Not supported in subslot 3 or 4 Supported in...
Page 86: Cmpe Cards
Subcard CSPEX-1504S/C CSPEX-1304S CSPEX-1204 CSPEX-1104-E model SPEX-1404S subslots 1 and 2 Not supported in subslot 3 or 4 Supported in subslots 1 and 2 MIC-CQ1L1 Not supported Not supported Not supported Not supported in subslot 3 or 4 MIC-PSP4L Supported Supported Not supported Supported...
Page 87: Subcards
MIC-TCP8L Not supported NOTE: The subslot restrictions on a CMPE base card depend on the subcard mode. For more information about the subcard mode, see device management in H3C SR8800-F Routers Fundamentals Configuration Guide. Subcards PIC subcards Table 8 PIC subcard specifications...
Page 88 Model Description Connector Number of ports Port speed 2.5 Gbps 2-port OC-48c/STM-16c (OC-48/STM-16) POS optical interface (SFP, PIC-PS2G4L LC) + 4-port 1000BASE-X 1000 Mbps optical interface card (SFP, 10/100/1000 Mbps 1-port OC-192c/STM-64c 10 Gbps PIC-PUP1L POS optical interface card (OC-192/STM-64) (XFP, LC) 1-port 10GBASE-R/W PIC-XP1L...
Page 89 Model Description Connector Number of ports Port speed card (SFP, LC) 10/100/1000 Mbps 100 Mbps 20-port 1000BASE-X MIC-GP20L Ethernet optical interface 1000 Mbps card (SFP, LC) 10/100/1000 Mbps 100 Mbps 2-port 10GBASE-R 10/100/1000 Mpbs MIC-XP2L Ethernet optical interface 1000 Mbps card (SFP+, LC) 10 Gbps 100 Mbps...
Page 90: Oaa Modules
For more information about the service modules, see Table • Support for some software features depends on the service module model. For more information, contact H3C Support. Power supplies Overview CAUTION: As a best practice, use an air switch that has a rated current not less than 1.2 times the maximum input current of the power supply.
Page 91: Ordering Guide
3 RU high. • To enable flexible ordering of power supplies for different overall power consumptions, H3C provides power supply adapters. The power supply adapter allows you to insert a power supply of 1 RU high into a power supply slot of 3 RU high.
Page 92: Fan Trays
Table 12 Power supply and chassis compatibility matrix Chassis Power supply model SR8803-F SR8805-F SR8808-F SR8812-F  PSR320-A — — —    PSR650-A —    PSR650-D —    PSR1200-A —    PSR1200-D —...
Page 93: Air Filters
Air filters Air filter overview CAUTION: Clean air filters regularly (once or more times every three months) to guarantee adequate ventilation and avoid over-temperature. To prevent dusts from entering the chassis, you can install air filters at the inlet air vents of the router. Air filter ordering guide Different SR8800-F routers support different air filters.
Page 94: Ac Power Cords
DC power supply DC power cord code Description 0404A08T 10 m (32.82 ft) 0404A08U 20 m (65.62 ft) 0404A072 25 m (82.02 ft) PSR2500-12AHD 0404A0RL High voltage, 3 m (9.84 ft) AC power cords An AC power cord is used to connect an AC power supply of a router to the external AC power supply system.
Page 95 Countries or regions where the type of Countries or Other countries or power cords conforms regions seldom Plug type Code (Length) regions using this type to local safety using this type of of power cords regulations and can be power cords used legally 04041104: 3 I type...
Page 96 Countries or regions where the type of Countries or Other countries or power cords conforms regions seldom Plug type Code (Length) regions using this type to local safety using this type of of power cords regulations and can be power cords used legally 04041104: 3 I type...
Page 97 Countries or regions where the type of Countries or Other countries or power cords conforms regions seldom Plug type Code (Length) regions using this type to local safety using this type of of power cords regulations and can be power cords used legally 04041104: 3 I type...
Page 98 Table 17 16A AC power cords used in different countries or regions Countries or regions where the type of Countries or Other countries or power cords conforms regions seldom Plug type Code (Length) regions using this type to local safety using this type of of power cords power cords...
Page 99 Countries or regions where the type of Countries or Other countries or power cords conforms regions seldom Plug type Code (Length) regions using this type to local safety using this type of of power cords regulations and can power cords be used legally 04043396: 3 I type...
Page 100 Countries or regions where the type of Countries or Other countries or power cords conforms regions seldom Plug type Code (Length) regions using this type to local safety using this type of of power cords regulations and can power cords be used legally 04043396: 3 I type...
Page 101 Countries or regions where the type of Countries or Other countries or power cords conforms regions seldom Plug type Code (Length) regions using this type to local safety using this type of of power cords regulations and can power cords be used legally 04043396: 3 I type...
Page 102 Contents Appendix C LEDs ························································································· 1 MPU LEDs ························································································································································· 1 CF card status LED ···································································································································· 2 Management Ethernet port LEDs··············································································································· 3 10-GE MCC port LEDs ······························································································································· 3 Power status LEDs ····································································································································· 3 Fan tray status LEDs ·································································································································· 4 Card status LEDs ······································································································································· 4 MPU active/standby status LED ·················································································································...
Page 103: Appendix C Leds
Appendix C LEDs The SR8800-F routers provide LEDs for you to check the status of MPUs, service modules, and power supplies. The type and quantity of LEDs vary by MPU and service module models. LEDs at a glance MPU LEDs: •...
Page 104: Cf Card Status Led
Figure 2 LEDs on the CSR07MPUA1 (1) CF card status LED (CFS) (2) Management Ethernet port LED (3) Service module (LPU) status LEDs (4) MPU active/standby status LED (5) MPU status LED (6) Power status LEDs (7) Fan tray status LEDs Table 1 Description for the LEDs on the MPU Description CF status card LED...
Page 105: Management Ethernet Port Leds
Management Ethernet port LEDs Table 3 Management Ethernet port LED description (1) LINK LED ACT LED Description status status Steady on Flashing The network management port is sending or receiving data. Steady on A link is present. No link is present. Table 4 Management Ethernet port LED description (2) Status Description...
Page 106: Fan Tray Status Leds
Table 7 Power status LED description (OK/FAIL) Status Description Steady green All power supplies are operating correctly. A power supply is not outputting power because one of the following condition exists: • The module is faulty or switched off. Steady red •...
Page 107: Mpu Active/Standby Status Led
Status Description Steady red The card is starting up or faulty. The temperature of the card has exceeded the upper limit or dropped Flashing red below the lower limit. No card is present. Table 11 Card status LED description (CSR07SRPUB1/CSR07SRPUC1/CSR07SRPUD3) RUN LED ALM LED Description...
Page 108: Service Module Leds
Service module LEDs CSPC/SPC LEDs RJ-45 Ethernet port LEDs Table 15 RJ-45 Ethernet port LED description Status Description Flashing The port is receiving or sending data. Steady on A link is present. No link is present. SFP port LEDs Table 16 SFP port LED description Status Description Flashing...
Page 109: Cspex/Cmpe Card Led
Status Description No link is present. CFP port LEDs Table 20 CFP port LED description Status Description Flashing The port is receiving or sending data. Steady on A link is present. No link is present. CSPEX/CMPE card LED Table 21 CSPEX/CMPE LED description LED mark Status Description...
Page 110 Table 24 10-GE XFP port LED description Status Description Flashing green The port is sending or receiving data. LINK/ACT Steady green A link is present. No link is present. Table 25 WAN port LED description Status Description Steady green A link is present. ACT/ALM Steady red An alarm has occurred.
Page 111 Table 27 Combo interface LED description Status Description Combo fiber port Steady green A link is present. LINK/ACT Flashing green The port is sending or receiving data. No link is present. Combo copper port Steady green A link is present. LINK No link is present.
Page 112: Oaa Module Leds
OAA module LEDs The OAA module provides LEDs to show the operating status of the module and ports. Table 32 LED description Status Description The system is operating correctly. A serious failure has occurred. Steady red You must read the system log for troubleshooting immediately. No power is being input or the card is faulty.
Page 113: Psr1400-A/Psr2500-12Ahd/Psr2500-12D Power Supply Leds
Status Description Analysis This status occurs when any of the following conditions exists: • The power supply is faulty. The power input is • incorrect. A power cord connection failure has occurred. • The external power supply is unavailable. • The power supply is not switched on.
Page 114: Psr1400-D Power Supply Leds
Status Description Analysis • A power cord connection failure has occurred. • The external power supply is unavailable. PSR1400-D power supply LEDs Table 35 PSR1400-D power supply LED description Status Description Analysis INPUT The power is input correctly, and the system Green power output switch is turned on.
Page 115 Contents Appendix D Slot arrangement and port numbering ······································· 2 Slot arrangement················································································································································ 2 Subcard slot arrangement and port numbering·························································································· 4 Power supply slot arrangement ·················································································································· 4 Port numbering··················································································································································· 4 Conventions ··············································································································································· 4 Example ····················································································································································· 5...
Page 116: Appendix D Slot Arrangement And Port Numbering
Appendix D Slot arrangement and port numbering Slot arrangement Figure 1 Slot arrangement on the SR8803-F router Figure 2 Slot arrangement on the SR8805-F router...
Page 117 Figure 3 Slot arrangement on the SR8812-F router Card slot arrangement Table 1 Card slot arrangement installation Model Card slot numbering Card slot arrangement location As shown in Figure 1, the card • MPU slots: slots 0 and 1 Uppermost card slots are numbered from 0 to 3 •...
Page 118: Subcard Slot Arrangement And Port Numbering
• interface-type—Port type, GE port and POS port for example. • chassis—IRF member ID of the router. For information about IRF member IDs, see H3C SR8800-F Router Series Virtual Technologies Configuration Guide. • slot—Number of the slot where the card resides, as shown by the number in the green circles...
Page 119: Example
Example Example 1 Two CSR07SRPUA1 MPUs are installed in the SR8808-F router. The network management port on the MPU is numbered M-GigabitEthernet 0/0/0. Example 2 A MIC-GP4L subcard is installed on a CSPEX-1504X base card in slot 3 of the router. •...
Page 120 Contents Appendix E Cables ······················································································· 1 Ethernet twisted pair cable ································································································································· 1 RJ-45 connector ········································································································································· 1 Cable pinouts ············································································································································· 1 Cable type ·················································································································································· 2 Pin assignments ········································································································································· 3 Making an Ethernet twisted pair cable ······································································································· 5 E1 cable ····························································································································································· 5 Optical fiber ························································································································································...
Page 121: Appendix E Cables
Appendix E Cables This chapter describes the cables used for connecting network ports. Table 1 Cable description Cable Port type Application Reference Console port at one Connects the console port Console cable end and 9-pin serial of a router to a configuration See "Setting up the port at the other end terminal.
Page 122: Cable Type
• Standard 568A: pin 1: white/green stripe, pin 2: green solid, pin 3: white/orange stripe, pin 4: blue solid, pin 5: white/blue stripe, pin 6: orange solid, pin 7: white/brown stripe, pin 8: brown solid. • Standard 568B: pin 1: white/orange stripe, pin 2: orange solid, pin 3: white/green stripe, pin 4: blue solid, pin 5: white/blue stripe, pin 6: green solid, pin 7: white/brown stripe, pin 8: brown solid.
Page 123: Pin Assignments
Figure 2 Straight-through cable white/orange orange white/green blue white/blue green white/brown brown Straight-through cable white/orange orange white/green blue white/blue green white/brown brown Figure 3 Crossover cable white/orange orange white/green blue white/blue green white/brown brown Crossover cable white/green green white/orange blue white/blue orange white/brown...
Page 124 Table 3 RJ-45 MDI interface pinouts 10BASE-T/100BASE-TX 1000BASE-T Signal Function Signal Function Bi-directional data Send data BIDA+ cable A+ Bi-directional data Send data BIDA- cable A- Bi-directional data Receive data BIDB+ cable B+ Bi-directional data Reserved — BIDC+ cable C+ Bi-directional data Reserved —...
Page 125: Making An Ethernet Twisted Pair Cable
The RJ-45 Ethernet interfaces on the router support MDI/MDIX. An MDI/MDIX-autosensing-enabled RJ-45 Ethernet interface can automatically negotiate pin roles. By default, MDI/MDIX is enabled on a port. Making an Ethernet twisted pair cable Cut the cable to length with the crimping pliers. Strip off an appropriate length of the cable sheath.
Page 126 Figure 4 E1 cable (1) HM96 RJ-45...
Page 127 Figure 5 E1 cable (2) HM96...
Page 128: Optical Fiber
Figure 6 E1 cable (3) HM96 Optical fiber CAUTION: Use the same types of transceiver modules, pigtail cords, patch cords, and fiber cables. If you use single-mode optical fibers, the transceiver modules, pigtail cords, patch cords, and fiber cables must be single-mode.
Page 129: Optical Fiber Cable
• Multi-mode fiber: It has a core size of 50 µm or 62.5 µm or higher, and has a higher modal dispersion than single-mode optical fiber. It is mostly used for communication over shorter distances. Table 5 Allowed maximum tensile force and crush load Period of force Tensile load (N) Crush load (N/mm)
Page 130: Precautions
Precautions • Make sure the fiber connector and fiber type match the transceiver module type. • The optical interfaces on some cards have shielded covers. Remove the shielded covers before using the optical interfaces. Optical interfaces must be installed with shielded covers when they are not in use.
Page 131 Contents Appendix G Cable management ··································································· 1 General cabling requirements ···························································································································· 1 Cable management guidelines ·························································································································· 1 Cable management examples ··························································································································· 3...
Page 132 Appendix G Cable management Label cables before you route or bundle them. For more information about labeling cables, see "Appendix E Engineering labels for cables." General cabling requirements Minimum curvature radius of cables • The curvature radius of an attached power cord, communication cable, or ribbon cable should be a minimum of five times of the cable’s outer diameter.
Page 133 Figure 1 Correct and incorrect cable binding Bent Tangled • When you bend cables, bind cables as shown in Figure 2. To avoid cable core break due to excessive stress, do not tie up the cables in the bending area. The cable bend radius at connectors must be a minimum of 5 times the cable diameter, and must be a minimum of twice the cable diameter away from the connectors.
Page 134 Figure 3 Cutting the cable ties • Route, bind, and attach excess cables for easy, safe maintenance activities and proper operations. • Do not tie the power cords to the slide rails. • When you connect a cable to an articulated part, for example, when you connect a grounding cable to a rack door, leave enough slack in cables and make sure they are not stressed from any movement of the part.
Page 135 Figure 5 Optical fiber management Use strapping tapes to carefully bind optical fibers. Avoid excessive force. For more information, see the instructions shipped with the strapping tapes. Figure 6 Power cord management...
Page 136 Contents Appendix F Engineering labels ····································································· 1 Labels for cables ················································································································································ 1 Labels for signal cables ······························································································································ 1 Labels for power cords ······························································································································· 1 Generic labels ············································································································································ 2 Labels for devices ·············································································································································· 3 Filling in labels···················································································································································· 3 Affixing labels ····················································································································································· 3 Affixing a label to a signal cable ·················································································································...
Page 137: Appendix F Engineering Labels
Appendix F Engineering labels Engineering labels are used to identify cables and devices for easy maintenance after installation. There are two types of engineering labels, labels for cables and labels for devices. Labels for cables Cables include signal cables such as network cables and fibers, and power cords such as AC power cords and DC power cords.
Page 138: Generic Labels
Figure 2 Label for power cords (1) Cable tie (2) Dividing line on the label Generic labels A generic label is bar-shaped with fixed dimensions. It is applicable to both signal cables and power cords. A mark "TO:" is located at the upper left corner in the right area of the label to identify the peer end of the cable on which the label is affixed.
Page 139: Labels For Devices
Figure 3 Generic label (1) Dividing line on the label (2) Cut dotted line Labels for devices A device label is used to identify the device name, model, address, installation date, and so on. Filling in labels You can print or write desired contents on labels. As a best practice, print labels. To print labels, select a label printer and a proper label template as needed.
Page 140: Affixing A Label To A Power Cord
Figure 4 Affixing a label Stick side B02 03 Figure 5 shows the affixed labels when the cable is laid vertically and horizontally. Figure 5 Affixed labels TO : B0 2 0 3 1 2 Affixing a label to a power cord Stick the label to the recessed rectangular area on the identification plate.
Page 141: Affixing A Generic Label
Figure 6 Affixing a label B03 -48V2 Bind cable ties on both ends of a cable. After the bundling, the finished identification plate should be on top of the cable in horizontal cabling, or on the right side of the cable in vertical cabling. Make sure the label is facing out, as shown in Figure Figure 7 Affixed labels...
Page 142: Affixing A Label To A Device
Figure 8 Affixing a generic label B02 03 12 Stick side Affixing a label to a device Remove the device label and stick it to the device. You can stick a device label to any desired position on the device. Guidelines •...
Page 143: Engineering Labels For Optical Fibers
Content Meaning Example Numbered in top-down and left-right order with two C—Slot number digits, for example, 01. Numbered in top-down and left-right order with two D—Ethernet port number digits, for example, 01. • M—Row number of the rack in the equipment room, in the range of A to Z.
Page 144 Table 2 Information on labels affixed to the fiber between two devices Content Meaning Example • M—Row number of the rack in the equipment room, in the range of A to • N—Column number of the rack in the MN—Rack number equipment room, in the range of 01 to For example, A01.
Page 145: Engineering Labels For Dc Power Cords
Content Meaning Example For example, G01 is the ODF of Row G and Column 01. B—Row number of the terminal device In the range of 01 to 99, for example, 01-01. C—Column number of the terminal device R—Optical receiving interface T—Optical transmitting interface Figure 10 Example of a label on an optical fiber between two devices A 0 1...
Page 146: Engineering Labels For Ac Power Cords
Content Meaning there is no row number or column number, or the connector can be identified without them, BC can be omitted). RTN and PGND have no row and column number for identification. • n—Power port number in down-top and left-right order, in the range of 1 to 3.
Page 147: Engineering Labels For Devices
Table 5 Information on labels affixed to AC power cords Content Meaning MN: Rack number (row number and column number in the equipment room) or the location of the socket where the power is led in. The location of the socket is marked according to onsite situation. If the sockets can be MN-AC identified by row number and column number, they can be numbered following the same rule for the rack number.
Page 148 Figure 14 Example of a device label...

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H3C SR8800-F Series Installation Manual

Documentation Feedback

Installing the Router

Installing Frus

Connecting Your Router to the Network

Debugging Commands in H3C Sr8800-F Routers Network Management and Monitoring Command Reference.

Replacement Procedures

Appendix A Chassis Views and Technical Specifications

Appendix B Frus and Compatibility Matrixes

Appendix C Leds

Appendix D Slot Arrangement and Port Numbering

Appendix E Cables

Appendix F Engineering Labels

Quick Links

Chapters

Troubleshooting

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