H3C CR19000-16 Installation Manual

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H3C CR19000-16 Core Router

Installation Guide

New H3C Technologies Co., Ltd.

http://www.h3c.com

Document version: 6W101-20201215

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Page 1 H3C CR19000-16 Core Router Installation Guide New H3C Technologies Co., Ltd. http://www.h3c.com Document version: 6W101-20201215...
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 This document describes the installation procedure for the CR19000-16 core router. It includes preparing for installation, installing the router, troubleshooting, and replacement procedures. This preface includes the following topics about the documentation: • Audience. • Conventions. • Documentation feedback.
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 Contents 1 Preparing for installation ·········································································· 1-1 Safety recommendations ································································································································ 1-1 General safety recommendations ··········································································································· 1-1 Electricity safety ······································································································································ 1-1 Moving safety ·········································································································································· 1-1 ESD prevention ······································································································································· 1-2 Laser safety ············································································································································· 1-3 Examining the installation site ························································································································· 1-3 Weight support ········································································································································ 1-3 Temperature and humidity ······················································································································...
Page 7 Preparing for installation Safety recommendations To avoid bodily injury and damage to the router, read all safety recommendations including the compliance and safety manual for the router carefully before installation. Note that the recommendations do not cover every possible hazardous condition. General safety recommendations •...
Page 8 • Moving the chassis requires a minimum of four people. As a best practice, use a mechanical lift to move the chassis. • Lift and put down the chassis slowly and never move it suddenly. • Pay attention to the safety symbols on the package and handle the router accordingly. (The symbols in Table1-1 are for illustration only.
Page 9 Figure1-1 Attaching an ESD wrist strap ( to the ESD jack on the rear panel) Laser safety WARNING! • Disconnected optical fibers or transceiver modules might emit invisible laser light. Do not stare into beams or view directly with optical instruments when the router is operating. •...
Page 10 Temperature and humidity CAUTION: If condensation occurs on the chassis when you move it from a lower temperature to a higher temperature, dry the chassis before powering it on to avoid short circuits. If the temperature in the equipment room is too high, too low, or changes dramatically, the device reliability is reduced and its service lifetime is shortened.
Page 11 Harmful gas limit The equipment room must also meet limits on salts, acids, and sulfides to eliminate corrosion and premature aging of components, as shown in Table1-4. Table1-4 Harmful gas limits in the equipment room Maximum concentration (mg/m 0.006 0.05 0.01 0.04 To control harmful gases, use the following guidelines:...
Page 12 Power supply Power supply system A good power supply system is essential for correct operation of the router. The router supports AC and DC power inputs. Make sure the equipment room meets the following requirements for the power supply systems. •...
Page 13 • Depth—979 mm (38.54 in) × 600 × 1200 mm (86.61 × 23.62 × 47.24 in) Chassis—857 mm (33.74 in)  CR19000-16 • A minimum of 105 mm (4.13 in) Cable management  bracket—92 mm (3.62 in) between the front rack posts and the front door.
Page 14 Model Chassis dimensions Rack requirements rear door. Figure1-3 Chassis dimensions Figure1-4 Rack dimensions...
Page 15 Table1-6 Physical specifications Model Shipping weight Dimensions (H × W × D) CR19000-16 119.3 kg (263.01 lb) 931 × 440 × 857 mm (36.65 × 17.32 × 33.74 in) NOTE: The shipping weight of the router includes the chassis and packaging material. You can determine a moving method for the chassis based on its shipping weight.
Page 16 Figure1-5 Cutting the strap on the carton Lift the top cap from the carton, take out the accessory box, and remove the packaging materials such as the packaging carton and foam cushion. Verify that the accessory box package is intact. Check the accessories against the packing list. 1-10...
Page 17 Figure1-6 Removing the top cap from the carton Use a Phillips screwdriver and an adjustable wrench to remove the screws on the L-type brackets so that you can separate the router from the pallet. 1-11...
Page 18 Figure1-7 Separating the router form the pallet Verify that the router is intact without any signs of water soaking or corrosion and the labels on the chassis are correct, clear, and complete. Installation tools Installation tools are required when installing the router. Prepare installation tools as required. Figure1-8 provides installation tools for your reference.
Page 19 Figure1-8 Installation tools Pre-installation checklist Table1-7 Pre-installation checklist Item Requirements Result • The floor or ground at the installation site can support the combined weight of the router and the rack. Load bearing • The slide rails can support the actual weight of the router.
Page 20 Item Requirements Result off when an accident occurs. • The grounding specifications for the equipment room comply with national and industry standards. • All communication devices in the equipment room are reliably grounded. Grounding • The working earthing and protective earthing systems of the communication power supplies use the same earthing conductor set with the protective earthing system of the communication devices.
Page 21 Contents 2 Installing the router ·················································································· 2-1 Chassis view ··················································································································································· 2-1 Confirming installation preparations ················································································································ 2-1 Installation flowchart········································································································································ 2-2 Rack-mounting the router································································································································ 2-3 Attaching slide rails to the rack ··············································································································· 2-3 Mounting the router in a rack ·················································································································· 2-3 Grounding the router ······································································································································· 2-5 Installing DC power supplies ···························································································································...
Page 22 Installing the router Chassis view "LPU" in Figure2-1 refers to an interface module and "SFU" refers to a fabric module. Figure2-1 Chassis view The router provides two MPU slots, 16 interface module slots, and six SFU slots. • Slots 0 and 1 are MPU slots. Each slot supports one MPU and allows hot swapping of the MPU. The router supports 1+1 MPU redundancy and does not allow mixture of different models of MPUs.
Page 23 • You have read "Preparing for installation" carefully. • All the requirements described in "Preparing for installation" are met. Installation flowchart Figure2-2 Installation flowchart Start Inspect the router Read safety recommendations Prepare for installation Examine the installation site Prepare installation tools Rack-mount the router Ground the router DC power supplies...
Page 24 LSXM1BSR 1 RU (24.80 in to 35.43 in) For information about installing slide rails, see H3C LSXM1BSR 1U Bottom-Support Rails Installation Guide (available also at https://www.h3c.com/en/Support/Resource_Center/EN/Routers/Catalog/CR19000/CR19000/). When installing slide rails, make sure the load-bearing plane of the slide rails is perpendicular to the four rack posts.
Page 25 Figure2-3 Marking the cage nut installation holes Insert cage nuts into the marked square holes in the front rack posts. Cage nuts are not required for the two upper marked installation holes on the right front rack post. Figure2-4 Installing the cage nuts Place the router on the slide rails from the front of the rack.
Page 26 Figure2-5 Mounting the router in a rack Grounding the router CAUTION: Make sure the ground point on the rack is connected reliably to a grounding strip in the equipment room. To connect the grounding cable to the router: Remove the grounding screws from the grounding point on the chassis. Use the grounding screws to attach the two-hole grounding lug of the grounding cable to grounding point on the chassis.
Page 27 Figure2-6 Grounding the router...
Page 28 Installing DC power supplies Available DC power supplies The PSR2400-54D DC power supply is available for the router. Table2-2 describes the PSR2400-54D DC power supply specifications. Table2-2 PSR2400-54D DC power supply specifications Item Specification Rated input voltage –48 to –60 VDC Input voltage range –40 to –72 VDC Max input current...
Page 29 Figure2-7 Removing a filler panel Correctly orient the power supply. Align the power supply with the power supply slot. Then slide the power supply along the guide rails into the slot until the latch locks the power supply in place.
Page 30 Figure2-8 Installing a DC power supply Connecting a DC power cord CAUTION: • Make sure each power cord has a separate circuit breaker. • Before you connect a power cord, turn off the circuit breaker for it. To connect a DC power cord: Route the power cord along the cable ladder.
Page 31 Affix cable labels to the power cord 20 mm (0.79 in) to each end of the power cord. Figure2-9 Connecting a DC power cord 2-10...
Page 32 Installing AC power supplies Available AC power supplies The PSR2400-54A and PSR3000-54A AC power supplies are available for the router. Table2-3 describes the AC power supply specifications. Table2-3 AC power supply specifications Item PSR2400-54A PSR3000-54A • • AC power input: AC power input: 100 to 130 VAC @ 60 Hz 100 to 130 VAC @ 60 Hz...
Page 33 Figure2-10 Removing a filler panel Correctly orient the power supply. Align the power supply with the power supply slot. Then slide the power supply along the guide rails into the slot until the latch locks the power supply in place. 2-12...
Page 34 Figure2-11 Installing an AC power supply Connecting an AC power cord CAUTION: • Make sure each power cord has a separate circuit breaker. • Before you connect a power cord, turn off the circuit breaker for it. To connect an AC power cord: Route the power cord along the cable ladder.
Page 35 Figure2-12 Connecting an AC power cord (using a removable cable tie) Installing MPUs CAUTION: • The router supports active/standby MPU switchover when you install two MPUs for the router. For the standby MPU to operate correctly, make sure the active and standby MPUs are the same model.
Page 36 Keep the removed filler panel secure for future use. Open the ejector levers of the MPU. Insert the MPU steadily into the slot along slide rails. Continue to push the MPU by its middle part on the front panel until the brakes on its ejector levers touch the slot edges tightly.
Page 37 Installing an interface module that uses detachable ejector levers CAUTION: • Put the detachable ejector lever back on its holder after use and then attach it to the chassis or cabinet for future use. • The ejector lever holder is magnetic. Be aware of electromagnetic interference. •...
Page 38 The number of screws for securing the protection box in Figure2-15 is for illustration only and the actual number of screws on your interface module might differ from that. Figure2-15 Removing the protection box Correctly orient the interface module. Align the module with the slot and push it steadily into the slot along the guide rails until you cannot push it any further.
Page 39 Close the ejector levers until they come in close contact with the front panel, as shown by callout 2 in Figure2-17. Use a Phillips screwdriver to fasten the captive screws on the interface module. As shown by callout 3 in Figure2-17, press the spring tab on each ejector lever retainer to remove the ejector levers.
Page 40 Figure2-18 Installing an interface module with ejector levers Installing interface subcards CAUTION: If you are not to install an interface subcard in a slot on an interface module, keep the filler panel in the slot. For the interface subcard compatibility with interface modules, see "Appendix B FRUs and compatibility matrixes."...
Page 41 Use a screwdriver to fasten the captive screw on the interface subcard. Figure2-19 Installing an interface subcard Installing cable management brackets The cable management brackets are to be installed along the left and right edges of the interface module slots. To install a cable management bracket, insert the cable management bracket end that has a spring tab into the cable management bracket hole until the bracket has close contact with the hole, as shown in Figure2-20.
Page 42 Figure2-20 Installing cable management brackets NOTE: You must press the spring tab while removing a cable management bracket. Installing fabric modules CAUTION: • If you are not to install a fabric module in a fabric module slot, keep the filler panel in the slot. •...
Page 43 Figure2-21 Removing the protection box Press the spring clip for each ejector lever of the fabric module to release the ejector levers. Orient the fabric module with the "Up" sign facing up. Align the fabric module with the target slot and insert it into the slot along the guide rails.
Page 44 Installing a filler panel in a fabric module slot Loosen the captive screws on the ejector levers and open the ejector levers. Align the filler panel with the fabric module slot. Push the filler panel slowly into the slot along the guide rails.
Page 45 IMPORTANT: A fan tray covers fabric module slots. Install fabric modules or filler panels in the fabric module slots before installing a fan tray. The procedure is the same for installing a fan tray in the FAN1 slot and FAN2 slot. The following procedure installs a fan tray in the FAN1 slot.
Page 46 Verifying the installation Table2-4 Post-installation checklist Item Requirements • No condensation is on the surface of the router or inside the router. • The router is clean and dust-free. Installation • No packaging boxes, packaging bags, or other packaging materials are left around location the chassis.
Page 47 <sysname> (The router is ready for configuration.) Configuring basic settings Configure basic settings for the router after the router starts up. For more information about how to configure the router, see H3C CR19000 Core Routers Configuration Guides and H3C CR19000 Core Routers Command References. 2-26...
Page 48 Contents 3 Connecting cables ··················································································· 3-1 Connecting cables to Ethernet copper ports ··································································································· 3-1 Cables for connecting Ethernet copper ports ·························································································· 3-1 Making an Ethernet twisted pair cable ···································································································· 3-2 Connecting an Ethernet cable ················································································································· 3-3 Connecting cables to fiber ports······················································································································ 3-3 About transceiver modules and optical fibers ·························································································...
Page 49 Connecting cables Connecting cables to Ethernet copper ports Cables for connecting Ethernet copper ports Typically, Ethernet copper ports use twisted pair cables for communication. 10/100 Mbps Ethernet uses category-5 twisted pair cables, while 1000 Mbps Ethernet uses category-5 enhanced or category-6 twisted pair cables.
Page 50 Cable pinouts EIA/TIA cabling specifications define two standards: 568A and 568B for cable pinouts. • 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.
Page 51 Untwist the pairs so that they can lie flat, and arrange the colored wires based on the wiring specifications. Cut the top of the wires even with one another. Insert the wires into the RJ-45 end and make sure the wires extend to the front of the RJ-45 end and make good contact with the metal contacts in the RJ-45 end and in the correct order.
Page 52 Installing transceiver modules and optical fibers WARNING! Disconnected optical fibers or transceiver modules might emit invisible laser light. Do not stare into beams or view directly with optical instruments when the router is operating. CAUTION: • Before installing a transceiver module, remove the optical fibers, if any, from it. For more information about installing transceiver modules, see the installation guide for the transceiver modules.
Page 53 Figure3-3 Installing a transceiver module and optical fiber (LC port) Figure3-4 Installing a transceiver module and optical fiber (MPO port) Connecting a QSFP+ optical fiber WARNING! Disconnected optical fibers or transceiver modules might emit invisible laser light. Do not stare into beams or view directly with optical instruments when the router is operating.
Page 54 Orient the cable with the pull tab on the QSFP+ module facing upward. Push the module gently into the port until it is firmly seated in the fiber port. Use cable ties to bind optical fibers every 150 mm (5.91 in). Label optical fibers according to the cable labeling specifications.
Page 55 Connecting an E1 75-ohm BNC/SMB cable The E1 75-ohm BNC cable and SMB cable use the same connection procedure. The following procedure connects an E1 75-ohm BNC cable. To connect an E1 75-ohm BNC cable: • If you do not need to extend the cable, perform these steps: a.
Page 56 Figure3-8 Connecting an E1 75-ohm cable (using an impedance converter) E1 75-ohm cable Straight-through network cable Peer device (120-ohm E1 port) E1 / E1-F (75 ohm) Impedance converter...
Page 57 Contents 4 Replacement procedures ········································································· 4-1 Replacing a power supply ······························································································································· 4-1 Replacing a module ········································································································································ 4-2 Replacing an MPU ·································································································································· 4-3 Replacing an interface module that uses detachable ejector levers ······················································· 4-4 Replacing an interface module with ejector levers ·················································································· 4-5 Replacing an interface subcard ···············································································································...
Page 58 Replacement procedures WARNING! • When replacing FRUs while the router is operating, ensure electricity safety. • To avoid bodily injury and device damage, follow the procedure in this chapter strictly to replace a module. • Long-time exposure to strong air flow might cause discomfort. To avoid this hazard, do not stand close to the air outlet vents while the router is operating.
Page 59 Figure4-3 Removing a power supply (AC power supply) (1) Press the latch towards the handle direction (2) Pull the power supply slowly out of the slot along the guide rails Replacing a module CAUTION: If you are not to install a new module in a slot after removing the old one, install a filler panel in the slot for adequate heat dissipation and dust prevention.
Page 60 Replacing an MPU IMPORTANT: The router supports active/standby MPU switchover when you install two MPUs for the router. For the standby MPU to operate correctly, make sure the active and standby MPUs are the same model. To replace an MPU: Remove the cables from the MPU.
Page 61 Replacing an interface module that uses detachable ejector levers CAUTION: • Put the detachable ejector lever back to its holder after use and then attach them to the chassis or rack for future use. • The ejector lever holder is magnetic. Beware of electromagnetic interference. •...
Page 62 Figure4-6 Removing an interface module Replacing an interface module with ejector levers Remove the cables from the interface module. Prepare an antistatic mat to place the removed interface module. Wear an ESD wrist strap, and make sure it makes good skin contact and is reliably grounded. Use a Phillips screwdriver to loosen the captive screws on the module.
Page 63 Figure4-7 Removing an interface module with ejector levers Replacing an interface subcard IMPORTANT: • If you are not to install a new interface subcard after removing the old one, install a filler panel in the slot. • When installing a filler panel, orient it with the blade of the screwdriver image on it facing upwards.
Page 64 Figure4-8 Removing an interface subcard Replacing a fabric module WARNING! When you hot swap a fabric module, only one fan tray is operating and it automatically increases the fan rotation speed and makes louder noise. Take protection measures such as wearing an earmuff or earplug.
Page 65 To replace a fabric module: Prepare an antistatic mat to place the removed fabric module. Wear an ESD wrist strap, and make sure it makes good skin contact and is reliably grounded. Press the spring clips for the ejector levers to release the ejector levers. Simultaneously open the ejector levers and pull the fabric module part way out of the slot.
Page 66 Replacing a fan tray WARNING! • Ensure electricity safety when you hot swap a fan tray. • To avoid bodily injury, do not touch the spinning fans when you replace the fan tray. CAUTION: • The router provides two fan tray slots. To ensure good ventilation, make sure the router has two fan trays installed.
Page 67 Figure4-10 Removing a fan tray (1) Loosen the captive screws on the fan tray (2) Pull the fan tray slowly out of the chassis Replacing transceiver modules WARNING! Disconnected optical fibers or transceiver modules might emit invisible laser light. Do not stare into beams or view directly with optical instruments when the router is operating.
Page 68 To remove the optical fibers with an LC connector, press the clip on the connector to pull the  LC connector out of the port, as shown in Figure4-11. To remove the optical fiber with an MPO connector, hold the front end of the MPO connector ...
Page 69 Figure4-12 Removing a transceiver module (MPO port) Replacing a QSFP+ optical fiber Wear an ESD wrist strap and make sure it makes good skin contact and is reliably grounded. Hold the pull tab of the connector and remove the optical fiber from the QSFP+ transceiver module.
Page 70 Contents 5 Troubleshooting ······················································································· 5-1 Troubleshooting methods································································································································ 5-1 Configuration terminal display issues·············································································································· 5-1 No display on the configuration terminal ································································································· 5-1 Garbled display on the configuration terminal ························································································· 5-2 System failures during operation ···················································································································· 5-2 Power supply failure ········································································································································ 5-2 Fan tray failure ················································································································································...
Page 71 Troubleshooting This chapter provides information for troubleshooting issues with your router. TIP: • Noncompliant operating environment might cause router failure. You need to clean your router periodically and make sure the installation environment meets the requirements (see "Preparing for installation"). •...
Page 72 Execute related commands to locate the fault. If a configuration error is found, re-configure the settings or restore the factory-default settings. For more information, see H3C CR19000 Core Routers Fundamentals Configuration Guide. If the issue persists, contact H3C Support. Power supply failure...
Page 73 If the new power supply can operate correctly, the old power supply has failed. Contact your sales agent or local service engineer to replace the old power supply. 10. If the issue persists, contact H3C Support. Fan tray failure CAUTION: •...
Page 74 Verify that the empty service slots and power supply slots are installed with filler panels. Install filler panels in empty slots. Replace the fan tray. If the issue persists, contact H3C Support. MPU failure Symptom The RUN LED for the MPU is off.
Page 75 If the issue persists, contact H3C Support. Fabric module failure Symptom The LEDs for the fabric module are in the following states: • On the fan tray, the RUN LED for the fabric module is off. On the fan tray, the RUN and ALM LED pairs correspond to the fabric module slots from left to right.
Page 76 • Maintenance agreement or warranty card. • Brief issue description. • Brief explanation of the troubleshooting measures that have been taken. You can contact H3C Support through the phone, H3C website, or email. Phone: 400-810-0504 Website: http://www.h3c.com E-mail: service@h3c.com...
Page 77 Contents 6 Appendix A Chassis views and technical specifications ··························· 6-1 Chassis views ················································································································································· 6-1 Weights, dimensions, and power consumptions ····························································································· 6-2 Chassis ··················································································································································· 6-2 Modules ··················································································································································· 6-2 Power supplies ········································································································································ 6-4 Fan trays ················································································································································· 6-4 System power consumption ···················································································································· 6-4 Heat dissipation···············································································································································...
Page 78 Unless otherwise stated, MPUs, interface modules, and fabric modules are collectively referred to as "modules" in this document. Chassis views The CR19000-16 router has an MPU section, interface module section, fabric module section, power supply section, and fan tray section. "LPU" in Figure6-1 refers to an interface module and "SFU"...
Page 79 Router model Weight (chassis only) Dimensions (H × W × D) configured) 931 × 440 × 857 mm (36.65 × CR19000-16 86.1 kg (189.81 lb) 350 kg (771.60 lb) 17.32 × 33.74 in) NOTE: • Rack height is measured in RUs. One RU is 44.45 mm (1.75 in).
Page 80 Power Module model Net weight Dimensions (H × W × D) consumption 11.8 kg (26.01 CR-19K-LPU-CQ18 50 × 433 × 520 mm (1.97 × 17.05 × 20.47 in) 1390 W 11.5 kg (25.35 CR-19K-LPU-CQ12 50 × 433 × 520 mm (1.97 × 17.05 × 20.47 in) 1130 W CR-19K-LPU-CQ12 11.6 kg (25.57...
Page 81 NOTE: Module dimensions are expressed in the Height (H) × Width (W) × Depth (D) format: • H—Height of the front panel of the module. • W—Width of the front panel of the module. • D—Depth from the front panel of the module to the connector ends. (The depth includes the connectors and excludes the ejector levers and captive screws).
Page 82 Sound pressure level in Sound pressure level Applicable fan Router model the acceptable when the fan trays tray temperature ranges operate at full speed CR19000-16 FAN-120B-6-A 67.8 dBA 91.2 dBA (with two fan LSXM116XFANH 73.9 dBA 97.4 dBA trays) NOTE: The sound pressure levels are measured based on the method specified in ISO 7779 at bystander positions.
Page 83 Contents 7 Appendix B FRUs and compatibility matrixes··········································· 7-1 MPUs ······························································································································································ 7-1 Interface modules············································································································································ 7-1 Interface subcards··········································································································································· 7-2 Fabric modules················································································································································ 7-4 Fabric module filler panels ······························································································································ 7-4 Power supplies ················································································································································ 7-4 Fan trays ························································································································································· 7-5 Transceiver modules ······································································································································· 7-5 E1 cables ························································································································································ 7-8...
Page 84 Table7-1 Interface modules available for the router and their specifications Interface module Connector Port type and Description Port speed model type quantity H3C CR 18-port 100G 18 × • QSFP28 Ethernet 100GBASE-R-Q CR-19K-LPU-CQ18 103.125 Gbps • optical interface SFP28 fiber...
Page 85 Interface module Connector Port type and Description Port speed model type quantity Gbps • LAN: 10.3125 H3C CR 40-port 10G 40 × Gbps CR-19K-LPU-XP40 SFP+ Ethernet optical 10GBASE-R/W- • WAN: 9.95328 interface module SFP+ fiber ports Gbps • SFP+ port: LAN: 10.3125...
Page 86 Interface Connector Port type and Description Port speed subcard type quantity model • LAN: 10.3125 12-port 10G SFP+ 12 × Gbps CR-HIC-XP12 Ethernet optical 10GBASE-R/W-SFP+ • WAN: 9.95328 interface subcard ports Gbps • LAN: 10.3125 12-port 10G SFP+ 12 × Gbps CR-HIC-XP12 Ethernet optical...
Page 87 Table7-5 Fabric module filler panels Fabric module filler panel Quantity for each chassis CR19000-16 SFU filler panel 0 to 4 Power supplies The PSR2400-54D, PSR2400-54A, and PSR3000-54A power supplies are available for the router.
Page 88 Table7-6 Power supply specifications Item PSR2400-54D PSR2400-54A PSR3000-54A • 100 to 130 VAC @ 60 • 100 to 130 VAC @ 60 Hz Rated input • • 200 to 240 VAC @ 50 Hz 200 to 240 VAC @ 50 –48 to –60 VDC voltage •...
Page 89 GE SFP transceiver modules. See Table7-13 for the specifications. • 155M/622M/2.5G POS SFP transceiver modules. See Table7-14 for the specifications.. For more information about transceiver modules, see H3C Transceiver Modules User Guide. Table7-8 100GE QSFP28 transceiver module specifications Central Maximum 100GE QSFP28 Cable wavele...
Page 90 Table7-11 10GE SFP+ transceiver module specifications Central Maximum 10GE SFP+ transceiver Cable waveleng Connector transmission module model specifications distance SFP-XG-SX-MM850-A 850 nm 50/125 µm, MMF 300 m (984.25 ft) (OM3) SFP-XG-SX-MM850-D 850 nm 50/125 µm, MMF 300 m (984.25 ft) (OM3) SFP-XG-SX-MM850-E 850 nm 50/125 µm, MMF...
Page 91 GE SFP transceiver Central Connec Cable Maximum module model wavelength specifications transmission distance 9/125 μm, SMF SFP-GE-LH40-SM1550 1550 nm 40 km (24.86 miles) 9/125 μm, SMF SFP-GE-LH80-SM1550 1550 nm 80 km (49.71 miles) SFP-GE-LH80-SM1550- 9/125 μm, SMF 1550 nm 80 km (49.71 miles) 9/125 μm, SMF SFP-GE-LH100-SM1550 1550 nm...
Page 92 Contents 8 Appendix C LEDs ···················································································· 8-1 MPU LEDs ······················································································································································ 8-1 CR-19K-MPU-16A ··································································································································· 8-1 CR-19K-MPU-16B ··································································································································· 8-2 Fabric module LEDs········································································································································ 8-4 CR-19K-SFU-16C ··································································································································· 8-4 Interface module LEDs···································································································································· 8-4 CR-19K-LPU-CQ18 ································································································································· 8-4 CR-19K-LPU-CQ12 ································································································································· 8-5 CR-19K-LPU-CQ12B ······························································································································ 8-6 CR-19K-LPU-CQ06B ······························································································································ 8-6 CR-19K-LPU-CC08 ·································································································································...
Page 93 Appendix C LEDs The major components of the router provide varieties of LEDs to indicate their operating status. MPU LEDs CR-19K-MPU-16A Figure8-1 CR-19K-MPU-16A MPU LEDs (1) Fan tray status LEDs (FAN OK and FAIL) (2) Power supply status LEDs (PWR OK and FAIL) (3) Module status LEDs (RUN) (4) MPU active/standby status LED (ACT) (5) Reset button...
Page 94 Status Description Steady green All present power supplies are operating correctly. A minimum of one power supply is faulty. All present power supplies are operating correctly. FAIL Steady red A minimum of one power supply is faulty. A minimum of one module is faulty Slow flashing green The modules are operating correctly.
Page 95 Status Description No link is present on the port. Steady green A 1000 Mbps link is present on the port. MANAGEME LINK/ACT Flashing green The port is sending or receiving data at 1000 Mbps. Steady yellow A 10/100 Mbps link is present. Flashing yellow The port is sending or receiving data at 10/100 Mbps.
Page 96 Fabric module LEDs CR-19K-SFU-16C Figure8-3 CR-19K-SFU-16C fabric module LEDs (1) RUN/ALM LED Table8-3 CR-19K-SFU-16C fabric module LED descriptions Status Description Slow flashing green (0.5 Hz) The fabric module is operating correctly. The fabric module is loading software. CAUTION: Fast flashing green (4 Hz) To avoid damaging the fabric module, do not power off RUN/ALM the router or hot swap the fabric module when the fabric...
Page 97 Status Description The module is loading software. CAUTION: Fast flashing green (4 Hz) To avoid damaging the module, do not power off the router or hot swap the module when the module is loading software. Steady red An alarm has occurred on the module. The module is faulty.
Page 98 CR-19K-LPU-CQ12B Figure8-6 CR-19K-LPU-CQ12B interface module LEDs (1) 100GBASE-R-QSFP28 Ethernet ports and LEDs 1 to 12 (2) Running status LED (RUN) Table8-6 CR-19K-LPU-CQ12B interface module LED descriptions Status Description Slow flashing green (0.5 Hz) The module is operating correctly. The module is loading software. CAUTION: Fast flashing green (4 Hz) To avoid damaging the module, do not power off the...
Page 99 Table8-7 CR-19K-LPU-CQ06B interface module LED descriptions Status Description Slow flashing green (0.5 Hz) The module is operating correctly. The module is loading software. CAUTION: Fast flashing green (4 Hz) To avoid damaging the module, do not power off the router or hot swap the module when the module is loading software.
Page 100 CR-19K-LPU-CC04 Figure8-9 CR-19K-LPU-CC04 interface module LEDs (1) 100GBASE-R-CFP2 ports and LEDs 1 to 4 (2) Running status LED (RUN) Table8-9 CR-19K-LPU-CC04 interface module LED descriptions Status Description Slow flashing green (0.5 Hz) The module is operating correctly. The module is loading software. CAUTION: Fast flashing green (4 Hz) To avoid damaging the module, do not power off the...
Page 101 Status Description To avoid damaging the module, do not power off the router or hot swap the module when the module is loading software. Steady red An alarm has occurred on the module. The module is faulty. No link is present on the port. LINK/ACT (1 Steady green A link is present on the port.
Page 102 CR-19K-LPU-XP48 Figure8-12 CR-19K-LPU-XP48 interface module LEDs (1) 10GBASE-R/W-SFP+ ports and LEDs 1 to 48 (2) Running status LED (RUN) Table8-12 CR-19K-LPU-XP48 interface module LED descriptions Status Description Slow flashing green (0.5 Hz) The module is operating correctly. The module is loading software. CAUTION: Fast flashing green (4 Hz) To avoid damaging the module, do not power off the...
Page 103 Status Description The module is loading software. CAUTION: Fast flashing green (4 Hz) To avoid damaging the module, do not power off the router or hot swap the module when the module is loading software. Steady red An alarm has occurred on the module. The module is faulty.
Page 104 CR-19K-LPU-8004 Figure8-15 CR-19K-LPU-8004 interface module LEDs (1) Running status LED (RUN) Table8-15 CR-19K-LPU-8004 interface module LED descriptions Status Description Slow flashing green (0.5 Hz) The module is operating correctly. The module is loading software. CAUTION: Fast flashing green (4 Hz) To avoid damaging the module, do not power off the router or hot swap the module when the module is loading software.
Page 105 CR-19K-LPU-2002 Figure8-17 CR-19K-LPU-2002 interface module LEDs (1) Running status LED (RUN) Table8-17 CR-19K-LPU-2002 interface module LED descriptions Status Description Slow flashing green (0.5 Hz) The module is operating correctly. The module is loading software. CAUTION: Fast flashing green (4 Hz) To avoid damaging the module, do not power off the router or hot swap the module when the module is loading software.
Page 106 Status Description The module is faulty. CR-19K-LPU-SP Figure8-19 CR-19K-LPU-SP interface module LEDs (1) Running status LED (RUN) Table8-19 CR-19K-LPU-SP interface module LED descriptions Status Description Slow flashing green (0.5 Hz) The module is operating correctly. The module is loading software. CAUTION: Fast flashing green (4 Hz) To avoid damaging the module, do not power off the...
Page 107 Status Description Steady green A link is present on the port. Flashing green The port is sending and receiving data. CR-HIC-CQ01 Figure8-21 CR-HIC-CQ01 interface subcard LEDs (1) 100GBASE-R-QSFP28 port and LED (LINK/ACT) Table8-21 CR-HIC-CQ01 interface subcard LED descriptions Status Description No link is present on the port.
Page 108 CR-HIC-QQ03 Figure8-23 CR-HIC-QQ03 interface subcard LEDs (1) 40GBASE-R-QSFP+port LEDs 1 to 3 Table8-23 CR-HIC-QQ03 interface subcard LED descriptions Status Description No link is present on the port. LINK/ACT Steady green A link is present on the port. Flashing green The port is sending and receiving data. CR-HIC-XP12 Figure8-24 CR-HIC-XP12 interface subcard LEDs (1) 10GBASE-R/W-SFP+ port LEDs 1 to 12...
Page 109 CR-HIC-XP12B Figure8-25 CR-HIC-XP12B interface subcard LEDs (1) 10GBASE-R/W-SFP+ port LEDs 1 to 12 Table8-25 CR-HIC-XP12B interface subcard LED descriptions Status Description No link is present on the port. LINK/ACT Steady green A link is present on the port. Flashing green The port is sending and receiving data.
Page 110 CR-HIC-GP12 Figure8-27 CR-HIC-GP12 interface subcard LEDs (1) 1000BASE-X-SFP port LEDs 1 to 12 Table8-27 CR-HIC-GP12 interface subcard LED descriptions Status Description No link is present on the port. LINK/ACT Steady green A link is present on the port. Flashing green The port is sending and receiving data.
Page 111 CR-HIC-PS04 Figure8-29 CR-HIC-PS04 interface subcard LEDs (1) 155M/622M/2.5G POS port LEDs 1 to 4 (ACT/ALM) Table8-29 CR-HIC-PS04 interface subcard LED descriptions Status Description The port is down. The port is up and is sending and receiving data ACT/ALM Steady green correctly.
Page 112 CR-HIC-CLP04 Figure8-31 CR-HIC-CLP04 interface subcard LEDs (1) 155M CPOS port LEDs 1 to 4 (ACT/ALM) Table8-31 CR-HIC-CLP04 interface subcard LED descriptions Status Description The port is down. Steady green The port is up but no data is transmitted on the port. ACT/ALM Flashing green The port is up and is sending and receiving data correctly.
Page 113 • Three pairs of RUN and ALM LEDs—Indicate the operating status of the fabric modules covered by the fan tray (one pair of LEDs for each fabric module). FAN-120B-6-A Figure8-33 FAN-120B-6-A fan tray LEDs (1) Fan tray status LEDs (OK and FAIL) (2) Fabric module LEDs (RUN and ALM pairs) Table8-33 FAN-120B-6-A fan tray LED description Status...
Page 114 LSXM116XFANH Figure8-34 LSXM116XFANH fan tray LEDs (1) Fan tray status LEDs (OK and FAIL) (2) Fabric module LEDs (RUN and ALM pairs) Table8-34 LSXM116XFANH fan tray LED description Status Description Steady green The fan tray is in normal state. The fan tray is faulty. The fan tray is operating correctly.
Page 115 Power supply LEDs PSR2400-54A power supply Figure8-35 PSR2400-54A power supply LEDs (1) Power input LED (AC OK) (2) Power output LED (DC OK) Table8-35 PSR2400-54A power supply LED descriptions Status Description AC OK: Steady green The power supply is operating correctly. DC OK: Steady green AC OK: Off Abnormal power input.
Page 116 PSR2400-54D power supply Figure8-36 PSR2400-54D power supply LEDs (1) Power input LED (INPUT OK) (2) Power output LED (OUTPUT OK) Table8-36 PSR2400-54D DC power supply LED descriptions Status Description INPUT OK: Steady green The power supply is operating correctly. OUTPUT OK: Steady green INPUT OK: Off Abnormal power input.
Page 117 PSR3000-54A power supply Figure8-37 PSR3000-54A power supply LEDs (1) Power input LED (AC OK) (2) Power output LED (DC OK) Table8-37 PSR3000-54A power supply LED descriptions Status Description AC OK: Steady green The power supply is operating correctly. DC OK: Steady green AC OK: Off Abnormal power input.
Page 118 Contents 9 Appendix D Slot arrangement and interface numbering ··························· 9-1 Slot arrangement············································································································································· 9-1 Interface numbering ········································································································································ 9-2 Conventions ············································································································································ 9-2 Example ·················································································································································· 9-2...
Page 119 Appendix D Slot arrangement and interface numbering Slot arrangement "LPU" in Figure9-1 refers to an interface module and "SFU" refers to a fabric module. Figure9-1 Slot arrangement on the router The router provides two MPU slots, 16 interface module slots, and six fabric module slots. •...
Page 120 Interface numbering Conventions IMPORTANT: The management port on the MPU is numbered 1/0/0/0. The interfaces on the router are numbered in the interface-type W/X/Y/Z format. • interface-type—Interface type, for example, Gigabit Ethernet. • W—Chassis ID of the router in the cluster. The number is 1. •...
Page 121 Contents 10 Appendix E Engineering labels ···························································· 10-1 Labels for cables ··········································································································································· 10-1 Labels for signal cables ························································································································· 10-1 Labels for power cords ·························································································································· 10-1 Generic labels ······································································································································· 10-2 Labels for devices ········································································································································· 10-3 Filling in labels··············································································································································· 10-3 Affixing labels ················································································································································ 10-3 Affixing a label to a signal cable ············································································································...
Page 122 Appendix E Engineering labels Engineering labels are used to identify cables and devices for correct installation and easy maintenance. Two types of engineering labels are available: 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 123 Figure10-2 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 124 Figure10-3 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, and installation date. 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 125 Figure10-4 Affixing a label Adhesive side B02 03 12 Figure10-5 shows the affixed labels when the cable is laid vertically and horizontally. Figure10-5 Affixed labels Affixing a label to a power cord Stick the label to the recessed rectangular area on the identification plate. You can stick the label to either side of the identification plate.
Page 126 Figure10-6 Affixing a label B03 -48V2 Bind cable ties on both ends of a cable. After the bundling, the finished identification plate must 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 Figure10-7.
Page 127 Figure10-8 Affixing a generic label B02 03 12 Adhesive 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 128 Table10-1 Information on a label affixed to an Ethernet cable Content Meaning Example • M—Row number of the rack in the equipment room, in the range of A to Z. • N—Column number of the rack in the equipment room, in MN—Rack number the range of 01 to 99.
Page 129 Engineering labels for optical fibers These labels are affixed to optical fibers that connect the fiber ports on the modules in a chassis, or connect fiber ports on fixed-port devices. Two types of labels are available for optical fibers: labels for a fiber that connects the fiber ports on two devices, labels for a fiber that connects the device and the optical distribution frame (ODF).
Page 130 Content Meaning Example • M—Row number of the rack in the equipment room, in the range of A to Z. • N—Column number of the rack in the MN—Row number and column equipment room, in the range of 01 to 99. number of ODF For example, G01 is the ODF of Row G and Column 01.
Page 131 Table10-4 Information on labels affixed to DC power cords Content Meaning • Loaded cabinet side—Only MN is used to identify the cabinet number (row MN(BC)-–48Vn number and column number in the equipment room). MN(BC)-RTN • Power cabinet side—MN identifies the row and column number of the power distribution equipment like the control cabinet and distribution box.
Page 132 Engineering labels for AC power cords These labels are affixed to the AC cables that provide power for cabinets and protection grounding cables, including POWER, RTN, and PGND cables. The 220 VAC cables and related PGND and RTN cables are covered with insulating sheath, so the labels only need to contain "AC" and the cabinet number.
Page 133: Table Of Contents
Contents 11 Appendix F Cable management ··························································· 11-1 General cabling requirements ······················································································································· 11-1 Cable binding guidelines ······························································································································· 11-1 Routing signal cables ···································································································································· 11-3 Routing power cords ····································································································································· 11-4...
Page 134: Appendix F Cable Management
Appendix F Cable management General cabling requirements Minimum curvature radius of cables • Attached power cord, communication cable, or ribbon cable—A minimum of five times the cable’s outer diameter. If the cable is frequently bent, connected and removed, the curvature radius must be a minimum of seven times the cable's outer diameter.
Page 135 • Route different types of cables (power cords and signal cables for example) separately. If they are close to one another, cross them over one another. If you route them in parallel, keep a minimum distance of 30 mm (1.18 in) between a power cord bundle and a signal cable bundle. •...
Page 136: Routing Signal Cables
• Cables must be protected at points where they might rub or come in contact with sharp edges or heated areas. Use high temperature cables near heat sources. • Securely fasten cables and take adequate measures to prevent loose connections. Figure11-4 Securely fastening cables (1) Flat washer (2) Spring washer...
Page 137: Routing Power Cords
Figure11-5 Routing signal cables Routing power cords CAUTION: To protect cable adapters and converters, place them at the cabinet bottom. Do not place them at a location out of the cabinet and easy to reach. The power supplies of the router are located along the left and right edges of the rear panel. As a best practice, route power cords as shown in Figure11-6.
Page 138 Figure11-6 Routing power cords 11-5...
Page 139 Contents 12 Appendix G Repacking the router ························································ 12-1 Removing cables from the router ·················································································································· 12-1 Removing the power cords ··················································································································· 12-1 Removing the console cable ················································································································· 12-1 Removing the grounding cable ············································································································· 12-1 Removing the twisted pair cables and optical fibers ············································································· 12-1 Repacking the FRUs ·····································································································································...
Page 140: Appendix G Repacking The Router
Appendix G Repacking the router This chapter describes how to repack the router chassis, power supplies, and modules. Removing cables from the router Before repacking the router, remove all cables such as the power cords, console cable, twisted pair cables, optical fibers, and grounding cable from the router. Removing the power cords Switch off the circuit breakers at the input end of all power cords.
Page 141: Repacking The Frus
Repacking the FRUs Repacking power supplies CAUTION: To avoid device damage and bodily injury, switch off the circuit breakers at the input ends of all power cords and remove all the power cords before removing power supplies. To repack a power supply: Prepare the original packing materials, including the anti-static bag, foam cushion, and packing box for a power supply.
Page 142: Repacking The Fabric Module Slot Filler Panels
Repacking the fabric module slot filler panels Prepare the original packing materials, including the packing bag, foam cushion, and packing box, for a fabric module slot filler panel. Make sure these packing materials are clean, dry, and not damaged. Remove the fabric module slot filler panel. Place the removed fabric module slot filler panel in the packing bag.
Page 143: Repacking The Router Chassis
Figure12-1 Removing the router from the rack (1) Loosen the captive screws that attach the mounting brackets to the rack (2) Slide the chassis out of the rack along the slide rails Repacking the router chassis Align the left and right edges of the chassis bottom with the left and right positioning lines respectively on the wooden pallet base.
Page 144 Figure12-2 Wooden pallet base Use screws to attach the L-type brackets to the chassis, as shown by callout 1 in Figure12-3. Figure12-3 Attaching the L-type brackets to the pallet base Move the chassis so that the mounting holes on the horizontal ear of the L-type brackets align with the mounting holes on the wooden pallet base.
Page 145 Use the carton to cover the chassis from top down with the mark side aligning with the front panel of the chassis. Erect one paper angle bead along each vertical edge of the chassis, as shown in Figure12-4. Figure12-4 Using the carton to cover the chassis Put the foam cushion onto the chassis top, and make sure the mounting brackets seat into the internal notches of the foam cushion.
Page 146 Figure12-5 Closing the carton 12-7...

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