HP 8800 Router Series Installation Manual
Contents
1. 2 Put the supplied OT terminal of the grounding cable on the grounding screw Use the supplied grounding cable CAT 6 cable with dual hole OT terminals 1 3 Insert the grounding screw into the grounding hole and tighten the screw 4 Connect the other end of the grounding cable to the grounding strip of the rack in the same way Figure 9 Connecting the grounding cable wll MEMA Sid Ooo Gn oo noe Ce CO DDT 4 OUITTCRTIEOITETCELEZEIOET lie piaga aa LO pi nea RATED INN Klee af ie HEEN Televie ll If there is no grounding point on the rack you can attach the grounding cable to a grounding strip The installation procedures are similar Installing the power system A CAUTION Hold a power supply by the bottom when moving it Never attempt to lift a power supply by its handle because the handle is not designed to support weight Doing so might result in bodily injury or damage to the power supply The router supports both AC and DC power supply modes You can select either AC or DC power supply mode as needed 1 1 redundancy is recommended e DC power supply Includes NEPS2000 D and NEPS3500 D models e AC power supply One or two AC power supplies are installed in the AC power frame NEPS3500 A To prepare for installation 1 Put on an ESD preventive wrist strap and make sure it is properly grounded 2 Make sure the power switch of the power supply is in the OFF position 3 Remov2. e FE SFP module e GE SFP module N A 10 GE XFP module OC 48 STM 16 SFP module 10 GE XFP module e FE SFP module e GE SFP module 10 GE XFP module e FE SFP module e GE SFP module e OC 48 STM 16 SFP module e FE SFP module e GE SFP module e OC3 STM 1 SFP module e OC 12 STM 4 SFP module OC 3 STM 1 SFP module OC 12 STM 4 SFP module e FE SFP module e GE SFP module e OC3 STM 1 SFP module e FE SFP module e GE SFP module e OC 12 STM 4 SFP module OC 48 STM 16 SFP module Available transceiver modules and cables e FE SFP module l port OC 3 STM 1 channelized to E1 T1 CPOS optical E SFP PIC CLIGS8L interface SFP LC 8 port 1000BASE X optical interface CE one moaue card SFP LC e OC 3 STM 1 SFP module e FE SFP module 2 port OC 3 STM 1 channelized to E1 T1 CPOS optical E SFP PIC CL2G8L interface SFP LC 8 port 1OOOBASE X optical interface EE card SFP LC e OC 3 STM 1 SFP module e FE SFP module 4 port OC3 STMI channelized to OC 3c STM 1c POS or o GE SFP module PIC CLS4G4L E3 T3 CPOS optical interface SFP LC 4 port 1000BASE X optical interface card SFP LC e OC3 STMI SFP module e FE SFP module l port OC 1 2 STM4 channelized to OC 12c STM 4c or GE SFP module PIC CHS1G4L E3 T3 CPOS optical interface SFP LC 4 port 1000BASE X optical interface card SFP LC e OC12 STM 4 SFP module e FE SFP module Model Interface type and number 8 po
3. 05 05 R 1 10 LO LO ZOD OL e A01 01 05 05 R The local end of the optical fiber is connected to Optical Receiving Interface 05 on Slot 5 Chassis 01 in the rack on Row A Column 01 in the equipment room e G01 01 01 01 T The peer end of the optical fiber is connected to Optical Transmitting Interface 01 on Slot 01 Chassis 01 in the rack on Row G Column 01 in the equipment room Figure 70 Example of a label on an optical fiber between the device and the ODF ODF G01 01 01 R J So S0 LO LOY OL e ODF G01 01 01 R The local end of the optical fiber is connected to the optical receiving terminal on Row 01 Column 01 of the ODF in Row G Column 01 in the equipment room 104 e A01 01 05 05 R The peer end of the optical fiber is connected to Optical Receiving Interface 5 on Slot 05 Chassis 01 in the cabinet on Row A Column 01 in the equipment room Engineering labels tor DC power cables These labels are affixed to DC cables that provide power for racks and the protection grounding cables including the 48V PGND and BGND cables The labels for DC power cables are affixed to one side of the identification plates on cable ties Table 58 Information on labels affixed to DC power cables Content Meaning e Loaded cabinet side Only MN is used to identity the cabinet number MN BC 48Vn row number and column number in the equipment room ao Power cabinet si
4. 1000MHz Memory Type DDR2 SDRAM Memory Size 1024MB Memory Speed 400MHz BootWare Size 4MB Flash Size 128MB cfa0 Size 241MB NVRAM Size 1024KB BASIC CPLD Version 001F EXTEND CPLD Version ILR PCB Version Ver B The router initiates the POST and the results are displayed at the console terminal Board self testing dE tassas aaa a eRe ee Board steady testing PASS Board SlotNo Oo Subcard exist testing PASS DX246 testing PASS PHY88E1111 testing PASS ET testing PASS CPLD2 testing PASS NS16550 register testing PASS The device s Mac address 00 23 89 D4 00 00 CF Card testing PASS BootWare Validating Press Ctrl B to enter extended boot menu When the POST is complete the router boots the applications The following information appears on the terminal screen only a portion is shown in this example Starting to get the main application file cfal A8800 BIN The main application file is self decompressing sseecs ea ela EE System application is starting 27 kbd gt bi_immr_base 0x 700000 Starting kernel at 0x10000 Now beginning to initialize system User interface conl is available After the router completes booting the applications the following information appears on the terminal screen Press ENTER to get started 3 Press Enter to begin configuring the router at the prompt lt HP gt NOTE e
5. Fiber 50 125 um multimode optical fiber 62 5 125 um multimode optical fiber 9 125 um single mode optical fiber 9 125 um single mode optical fiber 9 125 um single mode optical fiber 9 125 um single mode optical fiber 9 125 um single mode optical fiber 9 125 um single mode optical fiber 9 125 um single mode optical fiber 9 125 um single mode optical fiber 9 125 um single mode optical fiber Max transmission distance 550 m 1804 46 tt 275 m 902 23 tt 10 km 6 21 miles A0 km 24 86 miles A0 km 24 86 miles 70 km 43 50 miles 100 km 62 14 miles 10 km 6 21 miles 10 km 6 21 miles 70 km 43 50 miles 70 km 43 50 miles Product code JD1 15A JD1 16A JD109A JD110A JD111A JD112A JF833A JF832A JDO89B NOTE The JDO98B and JDO99B must be used in pairs Description HP X170 1G SFP LC LH70 1510 Transceiver HP X170 1G SFP LC LH70 1530 Transceiver HP X170 1G SFP LC LH70 1550 Transceiver HP X170 1G SFP LC LH70 1570 Transceiver HP X170 1G SFP LC LH70 1590 Transceiver HP X170 1G SFP LC LH7O 1610 Transceiver HP X110 100M SFP LC FX Transceiver HP X120 100M 1G SFP LC LX Transceiver HP X120 1G SFP RJ45 T Transceiver Central wavelength 1510 nm 1530 nm 1550 nm 1570 nm 1590 nm 1610 nm 1310 nm 1310 nm 1310 nm N A Connec
6. S Technical specifications 61 Safety recommendations Technical support 4 SPC card LEDs 86 V Subcard LEDs 88 Verifying and diagnosing transceiver modules 38 T Verifying the installation 19 116
7. gd eer LKE ZC ol lr vn RRE L I E SA EI RSA EA TREPET EEST CRU RJ SEB ELI RR LA RR SA AI n et ar E Harni sa innnrelannneannngria LUCIA IRRRSE I C la e Ehei ELE K EE e VPI A a RIS SS eee ee eee ee ALII LETALE SEAR BERLE Ee SS kd RR see ease ee amp Kkjne nba a Sea a b ea nai Een RS Rn geg gmnpgg IT TEEEEL KLELELLLLL Di peggio Eagle a E bleif ii o Fade SETTI EEL ery vseeerrvseeerp tee fe ann vr sae 5 5s eee ese RSRROG RSR SO tania ess ZELLE ELE aneckiia nek ck ne KUKI ALCOLICA SSLARRRSkASSRRtARERR As FRIGGERE neraeencenaee RET ERE RPT ELLI SS RAR eee RAR eee eee eee EPEAN KKH ZER EK SER HASE hip Cat UUCHT BE STES SS SEE SEE EEA ICC Ge Co vn toi ci Ebbe 5 tatakas ee AM Ri EK FH K ETTa AKTE Ssaretssared aster ue ces SEBS SEES EE EELE D h rT pes r roe LL ina a a aa OR el DG e via a ch LECH EERUOR ERT Se ee eeeeaae eeu Fe hye en kel dE KEE saery eeeer eeeeriaeer db i gg t 8 M el edel dai 3 Ski Allee ka kina rl SESE Reem ee ICC kb RNB kA WS ERES ERL 2 ERL GLECK ne evt ae ta DCCOKZECGCKITTEGKTTE pae nea I ARA eeeeeeeeaene eee Ze op i PAID nk da CA REF SPY Kh ag BerieeaeaTaeas a Rear cover handle 3 Grounding screw 2 1 Air filter 65 A8812 chassis views You can install one or two power supplies but intermixing of AC and DC power sup
8. 1 Power input LED 2 Power output LED 3 Power fault LED 4 Power supplies NEPS1800 A NOTE You can install one or two NEPS1800 A AC power modules into the NEPS3500 A power frame If two NEPS1800 A power modules are installed the maximum output power is 3500 W 77 Table 33 AC power supply LEDs LED Status Steady green Input IN i Off Steady green Output OUT put OUT oi Steady red Fault FAIL Off Description The input voltage is in the normal range The power supply or power supply is absent or has an input voltage error The power supply or power supply is outputting power correctly The power supply or power supply is absent or has an output voltage error The power supply or power supply is experiencing an overvoltage overcurrent or over temperature condition The power supply or power supply is operating correctly or absent Figure 55 NEPS2000 D DC power supply 1 Power input LED 2 Power output LED 3 Power fault LED Figure 56 NEPS3500 D DC power supply 1 Power input LED 2 Power output LED 3 Power fault LED Table 34 DC power supply LEDs LED Status Description Steady green Power is being input correctly IN input Ott The power supply is absent or has an input voltage error Steady green The power supply is outputting power correctly OUT output Ott The power supply has an output voltage error or is absent Seaded The power supply is ARIE an overvoltage overc
9. 48 VDC power supply Max input se Max output voltage range current POWE 90 VAC to 264 sae Ser VAC 50 Hz or 2X16A Ae buet 60 Hz eae supplies 16A 110 1200 W 100 70 VAC to 264 WDC VAC to 120 VAC VAC 50 Hz or 60 Hz 12 A 1800 W 200 220 VAC to 240 VAC VDC 45 A RE to 36 _48 2000 W VDC 80 A KE to 36 _48 3500 W VDC Table 37 16 A AC power cables for countries or regions No Specifications Connector type I type Connector outline Countries or regions where the type of power cables Code Weer conforms to local safety regulations and can be used legally 040433 96 3m Mainland China or 9 8 ft Power cable outline Other countries or regions using this type of power cables Countries or regions seldom using this type of power cables Connector outline No Specifications Connector Code type Length 0404A0 B type 63 3 m 2 or 9 8 ft Connector outline Connector Code type Length 0404A0 3 F type 61 3m or 9 8 ft Connector outline A a a E Countries or regions where the type of power cables conforms to local safety regulations and can be used legally Canada and U S Power cable outline Countries or regions where the type of power cables conforms to local safety regulations and can be used legally Holland Denmark Sweden Finland Norway Germany France Austria Belgium and Italy Power cable outline 8 Other countries
10. Avalanche Photo Diode APD supply fault Thermoelectric Cooler TEC fault Wavelength of optical signal exceeds the manufacturer s tolerance RX power is high RX power is low TX power is high TX power is low TX bias current is high TX bias current is low Temperature is high Temperature is low Voltage is high Voltage is low Transceiver info I O error Transceiver information read and write error Transceiver info checksum error Transceiver information checksum error Transceiver type and port configuration GER Transceiver type does not match port configuration Transceiver type not supported by port T iver t i t ted on th t ariana ranscelver type Is not supported on the por Display the currently measured values of the fault detection parameters for the transceiver module plugged in interface GigabitEthernet 3 1 1 lt Sysname gt display transceiver diagnosis interface Gigabitethernet 3 1 1 GigabitEthernet3 1 1 transceiver diagnostic information Current diagnostic parameters Temp C Voltage V Bias mA RX power dBM TX power dBM 36 Seek 6 13 35 64 pie L9 41 Table 18 Command output Field Description Transceiver diagnostic information Current diagnostic parameters Temp C Voltage V Bias mA RX power dBM TX power dBM Fault detection information of the transceiver module plugged in the interface Current fault detection parameters Digital diagnosis parameter
11. PIC GP10L PIC GP20R PIC GT20R PIC XP 1L PIC RSP2L PIC RUP1L PIC PSP4L PIC PUPIL PIC PS2GAL PIC TCP8L PIC ALPAL PIC AHP 1L PIC PL2G6L PIC PH2G6L PIC CSP1 L Interface type and number 10 port 1000BASE X optical Ethernet interface card SFP LC 20 port 1000BASE X optical Ethernet interface card SFP LC 20 port 10 100 1000BASE T electrical Ethernet interface card RJ 45 l port 1OGBASE R W optical Ethernet interface card XFP LC 2 port OC 48c STM 16c RPR optical interface card SFP LC l port OC 192c STM 64c RPR optical interface card DER LC 4 port OC 48c STM 16c POS optical interface card SFP LC l port OC 192c STM 64c POS optical interface card DER LC 2 port OC 48c STM 16c POS optical interface SFP LC 4 port 1OOOBASE X optical interface card SFP LC 8 port OC 3c STM 1c OC 12c STM 4c POS or 1000BASE X optical interface card SFP LC 4 port OC 3c STM 1c ATM optical interface card SFP LC l port OC 12c STM 4c ATM optical interface card SFP LC 2 port OC 3c STM 1c POS optical interface SFP LC 6 port 1I000BASE X optical interface card SFP LC 2 port OC 12c STM 4c POS optical interface SFP LC 6 port 1I000BASE X optical interface card SFP LC l port OC 48 STM 16 channelized to OC 48c STM 1 6c OC 12c STM 4c or OC 3 STM 1c CPOS optical interface card SFP LC 75 Available transceiver modules and cables e FE SFP module e GE SFP module
12. Technical specitications The diagrams in this document are for illustration only AC powered chassis are used as an example Chassis A8805 chassis views You can install one or two power supplies but you cannot mix AC and DC power supplies Figure 45 shows the A8805 with four AC power supplies installed in the two AC power frames 6 Figure 45 A8805 front view Esa ea foan Besetz OK 1 ESD preventive wrist strap port 2 MPU slots slots 0 and 1 3 LPU slots slots 2 to 6 4 Power supply slots 5 PoE power entry module reserved 62 Figure 46 A8805 rear view 1 Rear cover handle 2 Grounding screw 3 Fan tray A8808 chassis views You can install one or two power supplies but do not intermix AC and DC power supplies In this figure four AC power supplies are installed in the two AC power frames 63 Figure 47 A8808 front view Ce K LKA Lan Fade Fr TTT LGT tt Ae KE Eeietegz e A 1 Fan tray 2 MPU slots slots 4 and 5 3 LPU slots slots 0 to 3 6 to 9 4 Cable management 5 Power supply slots 6 PoE power entry module reserved currently bracket not available 7 ESD preventive wrist strap port 64 Figure 48 A8808 rear view Lr ig Beri gee eee Bee GE d RR L na er ros eerypieeres seers Li gS Be RRR RL RE Eh AI ALLE ponti Pi a in a rr OUER EEREITEREE EI el el er ZEELAZZ SEA SEL Z Ae e Ae Lal Ae eeben ZE
13. 14 96 in 40 x 400 x 380 mm 1 57 x 15 75 x 14 96 in 40 x 400 x 380 mm 1 57 x 15 75 x 14 96 in 40 x 400 x 380 mm 1 57 x 15 75 x 14 96 in 40 x 400 x 380 mm 1 57 x 15 75 x 14 96 in 40 x 400 x 380 mm 1 57 x15 75 x 14 96 in 40 x 400 x 380 mm 1 57 x15 75 x 14 96 in 18 x 165 x 142 mm 0 71 x 6 50 x 5 59 in 37 x 165 x 142 mm 1 46 x 6 50 x 5 59 in 37 x 165 x 142 mm 1 46 x 6 50 x 5 59 in 18 x 165 x 142 mm 0 71 x 6 50 x 5 59 in 18 x 165 x 142 mm 0 71 x 6 50 x 5 59 in 18 x 165 x 142 mm 0 71 x 6 50 x 5 59 in 18 x 165 x 142 mm 0 71 x 6 50 x 5 59 in 18 x 165 x 142 mm 0 71 x 6 50 x 5 59 in 18 x 165 x 142 mm 0 71 x 6 50 x 5 59 in 18 x 165 x 142 mm 0 71 x 6 50 x 5 59 in 18 x 165 x 142 mm 0 71 x 6 50 x 5 59 in 18 x 165 x 142 mm 0 71 x 6 50 x 5 59 in 37 x 165 x 142 mm 1 46 x 6 50 x 5 59 in 37 x 165 x 142 mm 1 46 x 6 50 x 5 59 in 18 x 165 x 142 mm 0 71 x 6 50 x 5 59 in 37 x 165 x 142 mm 1 46 x 6 50 x 5 59 in Cord model PIC CL2G8L PIC CLS4GA4L PIC CHS1GA4L PIC ET8G8L PIC ET32G2L IM NAT IM NAT II IM NAM IM FW II IM SSL IM LB IM NAM Il For more information about the router card LEDs see LEDs For more information about the router Power consumption 18 22 W to 33 W 30 86 W to 37 W 24 W to 30 W 22 91 W to 28 4 W 18 W to 22 W 94 W to 107 W 94 W to 107 W 94 W to 107 W 84 88 W to 120 W 91 82 W to 110 W 84 88
14. 15 km 9 32 miles A0 km 24 86 miles 80 km 49 71 miles Lightning protection Connecting the AC power supply to a power strip with lightning protection If part of the AC power line is routed outdoors use a power strip with lightning protection to connect the AC power cable of the router to the AC power line to protect the router from being damaged by lightning strikes You can attach the power strip to the rack workbench or wall of equipment room After you connect the AC power cable from the router to a socket on the power strip verify that the green RUN LED on the strip is on and the red LED is off If the red LED is on use a multimeter to check the polarity of the wires in the power socket for wrong connections If the zero wire left and the live wire right are correctly connected check for missing grounding connection AA CAUTION Make sure the PE terminal of the power socket has been securely grounded Figure 59 Power strip with lightning protection 1 2 3 1 Working LED green If the LED is on the circuit is working normally If it is off the circuit is damaged 2 Grounding pole If the LED is on the wire is not grounded or the live line and null line are detection LED red reversed Check the power supply line 3 Power switch 4 IEC standard socket Connects the power cable to the power supply in the equipment room 94 5 Overload automatic The protector automa
15. 16 Connecting the AC power supply to a power strip with lightning protection 94 Connecting the router to the network 28 Contacting HP 112 Conventions 113 D Displaying alarm information for a card 37 Displaying card information 33 Displaying electrical label data 33 Displaying temperature information for a router 36 Displaying the operating state of a fan 37 Displaying the router power supply system 35 E Environmental requirements 61 Examples 101 F Fan failure 44 Fan LEDs 84 FE GE SFP transceiver modules 90 Filling in labels 98 G Grounding the router 11 Guidelines 101 Installation prerequisites 5 Installation tools 3 Installing a card 14 Installing a lightning protector for a network port 95 Installing an SPE subcard 15 Installing the power system 12 Installing the router in a rack 5 Interface failure 46 L Labels for cables 96 Labels for devices 98 Logging in to the router 20 LPU failure 46 M MPU failure 45 MPU LEDs 85 O OC 12 STM 4 SFP transceiver modules 92 OC 3 STM 1 SFP transceiver modules 92 OC 48 STM 16 SFP transceiver modules 92 Overview P Power supply LEDs 84 Power supply system failure 43 R Rebooting the router 34 Related information 112 Replacing a cord 5 Replacing a CF card 57 Replacing a chassis air filter 56 Replacing a fan tray 54 Replacing a power supply system 48 Replacing a subcard 53 Replacing a transceiver module 59
16. 3 Subslot 1 DEVICE NAME gt PIC TCP8L DEVICE SERIAL NUMBER 210231A85JH105000015 MAC_ADDRESS NONE MANUFACTURING DATE 2010 05 24 VENDOR_NAME HP NOTE The output depends on your router model Displaying card information Use the display device command to display your router s card information including the slot number card type card status and software version Display summary information for all cards on your router lt Sysname gt display device Slot No Brd Type Brd Status Software Version 0 SR0O25RP2F3 Master A8800 CMW520 R3342 1 NONE Absent NONE 2 NONE Absent NONE 3 SPE 1010 II Normal A8800 CMW520 R3342 Sub1 PIC TCP8L Normal 4 NONE Absent NONE NONE Absent NONE 33 6 NONE Absent NONE Table 10 Command output Field Description Slot No Slot number of a card Hardware type of a card Specific card model such as SPE 1010 II which is the same as the mark on the card Brd Type e NONE No card is in the slot e UNKNOWN The card is not supported by the software version and cannot start normally Card status e Absent No card is in the slot e Master The card is an AMB Brd Status e Slave The card is a SMB e Normal The card is an interface card and operates properly e Fault The card in the slot has not started or fails e Off The card is not powered on Software version of the current card e Specific software version The software version of the router e NON
17. The router displays a CLI For more information about the CLI see HP A8800 Routers Fundamentals Contiguration Guide e The output depends on your router model Veritying router operation recommended HP recommends that you verify the following atter the router is powered on e The cooling system is working You should be able to hear fan rotation noise and feel air being blown out e All LEDs are functioning correctly Table 9 ED status when the router is operating correctly Part LED Name Status SFC Steady green Active MPU Steady green MPU status LED ACT MPU Standby MPU Off RUN Flashing green LPU status LED RUN Flashing green IN Steady green Gel Power supply input output LED supply OUT Steady green RUN Steady green Fan tray Fan tray status LED vw On For the card LED description see LEDs Connecting the router to the network You can connect the router to the network using the following cable types e AUX cable e Ethernet twisted pair e Optical fiber 28 Connecting through an AUX cable You need an AUX cable when configuring a router using a remote dialup modem An AUX cable is an 8 core shielded cable At one end of the cable is an RJ 45 connector At the other end is a DB 9 male connector An AUX cable is the same as a console cable For more information see Figure 18 and Table 8 To connect the AUX port 1 Plug the RJ 45 connector of the AUX cable into the AUX port of the router 2 Plug
18. W to 120 W 94 W to 107 W Net weight 0 65 kg 1 43 Ib 0 65 kg 1 43 Ib 0 60 kg 1 32 lb 0 60 kg 1 32 Ib 1 25 kg 2 76 b 2 90 kg 6 39 Ib 3 40 kg 7 50 Ib 3 40 kg 7 50 Ib 3 52 kg 7 76 Ib 3 52 kg 7 76 lb 3 52 kg 7 76 b 3 40 kg 7 50 lb cards see the appropriate card datasheet MPU specifications A CAUTION Dimensions H x W x D 37 x 165 x 142 mm 1 37 x 165 x 142 mm 1 37 x 165 x 142 mm 1 37 x 165 x 142 mm 1 37 x 165 x 142 mm 1 40 x 400 x 380 mm 1 in AO x 400 x 380 mm 1 in 40 x 400 x 380 mm 1 in 40 x 400 x 380 mm 1 in 40 x 400 x 380 mm 1 in 40 x 400 x 380 mm 1 in 40 x 400 x 380 mm 1 in 46 x 6 50 x 5 59 in 46 x 6 50 x 5 59 in 46 x 6 50 x 5 59 in 4b x 6 50 x 5 59 in 4b x 6 50 x 5 59 in 57 x 15 75 x 14 96 57 x 15 75 x 14 96 57 x 15 75 x 14 96 57 x 15 75 x 14 96 57 x 15 75 x 14 96 57 x 15 75 x 14 96 57 x15 75 x 14 96 The USB ports on the MPU can be used only to connect to storage media such as USB disk and cannot be used to charge external equipment Otherwise the MPU might fail Table 27 MPU specifications Item SRO2SRP1F3 SRO2ZSRP2F3 SDRAM 2 GB by default expandable to 4 GB CF card 1 GB by default Dimensions H x W x D including the handle Applicable routers A8805 A8808 A88 12 73 40 x 400 x 380 mm 1 57 x 15 75 x 14 96 in ltem SRO2SRP1F3 SRO2SRP2F3 1 console port e 1 AUX
19. air aisles For the power supply section at the bottom air flows from front to rear for the chassis air flows in through the air intake vents at the lower rear and front of the chassis and exhausts out the side air outlets and rear air outlets at the top of the chassis as shown in Figure 53 Figure 53 A8808 airflow ge E i I za p p al e d ear ATO HCH ei ke i id At der TR d et PA me Wee ge EE STEI a I 1 Geri dt r Lui Kg GE ATA CATE i deng U UI L ui n 1 e a a a 1 Chassis air intake 2 Chassis air outlet 3 Power supply air intake 4 Power supply air outlet If you have installed a rear impedance carrier for the A8808 the fan tray cannot pull ambient air in from the rear but can still blow hot air out the rear Card specitications Table 26 Card specifications Power Card model Net weight Dimensions H x W x D consumption SRO2SRP1F3 52W to 65 W 3 20 kg 7 05 Ib wi x 400 x 380 mm 1 57 x 15 75 x 14 96 SRO2SRP2F3 79 W to 95 W 3 50 kg 7 72 Ib o x 400 x 380 mm 1 57 x 15 75 x 14 96 SPCXP2L 50 W to 60 W 3 10 kg 6 83 Ib i x 400 x 380 mm 1 57 x 15 75 x 14 96 SPC XPAL 82 W to 95 W 3 30 kg 7 28 Ib 40 x 400 x 380 mm 1 57 x 15 75 x 14 96 in Card model SPC GP48L SPC GP24L SPC GT48L SPE 1010 SPE 1010 II SPE 1020 SPE 1020 II SPE 1010 E SPE 1020 E SPE 1010 E Il SPE 1020 E Il PIC GP10L PIC GP20R P
20. by the handle To prepare for the replacement 1 Put on an ESD preventive wrist strap and make sure it makes good skin contact and is well grounded 2 Make sure the power switch of the DC or AC power supply is in the OFF position before removing it 3 Remove the cables connected to the DC or AC power supply Replacing a DC power supply 1 Use a Phillips screwdriver to loosen the captive screws on both sides of the power supply remove the air filter frame of the power supply and pull out the handle of the power supply 2 Supporting the bottom of the power supply with one hand and holding the power supply handle with the other hand gently pull the DC power supply out along the slide rails Put the removed power supply on an antistatic mat or its original shipping materials 3 Remove the air filter frame of the new power supply and pull out the handle HP recommends that you place a removed module in an antistatic bag or its original shipping materials 4 Slowly push the new power supply into the slot along the slide rails until the rear side of the power supply has close contact with the backplane 5 Use a Phillips screwdriver to fasten the captive screws on both sides of the power supply panel and install the air filter frame of the power supply 48 Figure 30 Replacing a DC power supply A DC power supply to be removed B DC power supply to be installed Replacing an AC power supply 1 Pull the handle of
21. card Slowly pull out the subcard along the guide rails as shown in Figure 36 Put the removed subcard on an antistatic mat or in the original package St a Sp Pe Gently plug the subcard with the right side up along the slide rails When the ejector levers of the subcard reach the panel of the SPE card stop sliding the subcard Push the panel of the subcard and move the ejector levers of the subcard inward when the subcard reaches the SPE card so that the panel of the subcard is on the same plane as the panel of the SPE card 6 Use a Phillips screwdriver to fasten the captive screws on the subcard to tighten the subcard oe Figure 36 Replacing a subcard A Subcard to be removed B Subcard to be installed Replacing a fan tray A CAUTION Fan trays are hot swappable If you replace a fan tray with the router running pull out the fan tray after it stops rotating and keep your hands away from the spinning fan blades To avoid injury do not touch any wires terminals or parts with a high voltage hazard sign Replacing a fan tray for an A8805 A88 1 2 The fan trays for the A8805 A8812 routers are installed vertically and the replacement procedures are the same To replace a fan tray for an A8805 A8812 1 Put on an ESD preventive wrist strap and loosen the captive screws on the fan tray 2 Holding the fan tray handle with one hand and supporting the fan tray bottom with the other hand pull out the fan tray along
22. inkjet printers and ink pens e Affix labels with good order in alignment e Avoid cable bents or other positions that might affect cable installation when you stick a label or bundle a cable tie with a power cable identification plate e Bundle cable ties at the same positions of power cables with identification plates on the same side e The positions of up down right or left are all based on the viewpoint of the engineering person who is working on the label Examples The label examples in this document are for reference only Engineering labels for network cables These labels are affixed to Ethernet cables that connect cards in a chassis Table 55 Information on a label affixed to an Ethernet cable Content Meaning Example e M_ Row number of the rack in the equipment room in the range of A to Z MN B C D MN Rack number e N Column number of the rack in the equipment room in the range of 01 to 99 For example AO1 101 Content Meaning Example B Chassis number C Slot number D Ethernet port number MN Rack number MN Z Z Location number Numbered in top down order with two digits for example 01 Numbered in top down and left right order with two digits for example 01 Numbered in top down and left right order with two digits for example 01 e M_ Row number of the rack in the equipment room in the range of A to Z e N Column number of the rack in the eq
23. link interfaces are the same and the interfaces work properly together 9 If there is still a failure contact HP Support NOTE When an interface fails if the router has an idle interface of the same type you can plug the cable into the idle interface Technical support If there are still failures contact HP Support Before contacting customer service prepare the following information to help the agents solve the problem as quickly as possible Arrival time of the router Serial number of the chassis located on a label on the rear panel Software version which you can view by using the display version command Maintenance agreement or warranty card Brief problem description Brief explanation of the troubleshooting measures that have been taken You can contact customer service through the HP website htip www HP com 47 Replacement procedures This chapter provides information about replacing components on the router Replacing a power supply system A WARNING e Power supplies for the router are hot swappable When hot swapping a power supply make sure the other power supply is operating properly When installing and replacing a power supply with the router powered on pay attention to the operation procedures and electricity satety issues To avoid injury do not touch any wires terminals or parts with a high voltage hazard sign e Hold the power supply by the bottom when moving it Do not lift the module
24. or regions using this type of power cables Mexico Argentina Brazil Columbia Venezuela Thailand Peru Philippines Other countries or regions using this type of power cables Indonesia Turkey Russia and CIS Countries or regions seldom using this type of power cables Connector outline Countries or regions seldom using this type of power cables Connector outline No Specifications Connector type G type Connector outline Connector type B type Connector outline Connector type Code Length 0404A0 60 3 m or 9 8 ft Code Length 0404A0 62 3 m or 9 8 ft Code Length Countries or regions where the type of power cables conforms to local safety regulations and can be used legally U K Power cable outline Countries or regions where the type of power cables conforms to local safety regulations and can be used legally Japan Power cable outline Countries or regions where the type of power cables conforms to local safety regulations and can be used legally 82 Other countries or regions using this type of power cables Malaysia Singapore Hong Kong and Egypt Other countries or regions using this type of power cables Other countries or regions using this type of power cables Countries or regions seldom using this type of power cables Connector outline Countries or regions seldom using this t
25. output LEDs are off or the fault LEDs are on the power supply does not work properly To troubleshoot the power supply system 1 2 3 Le m pa s t Examine the power cable connections If a power cable is loose plug it in Replace the power cable and verify that the LEDs are normal Examine the power supply installation If the power supply is not seated properly reinstall the power supply so that it makes close contact with the router Examine the power source Make sure the power source is operating properly and provides a normal voltage Determine whether the power supply has encountered output short circuit output over current output over voltage input under voltage or over temperature problems Power off the router plug the power supply into an empty power supply slot and verify that the power supply is operating properly If the power supply is operating properly the power supply slot may have failed Otherwise proceed to the next step Plug a new power supply of the same model into the same power supply slot and connect it to the same power source If the new power supply is operating properly the old power supply fails Contact the agents to replace the old power supply Fan failure The following tables provide fan LED information Table 21 Fan LEDs LED Status Description OH The fan tray has failed RUN Steady green The fan tray is operating properly Off The fan tray is in a normal state A
26. over temperature protection 35 Contiguring temperature alarm thresholds for a card Disp Use the following command to set temperature alarm thresholds for a card When the temperature of a card exceeds a threshold the router generates alarm signals To contigure temperature alarm thresholds for a card Step Command Remarks 1 Enter system view system view N A 2 Configure temperature alarm temperature limit slot slot number hotspot sensor num Optional thresholds for a card LowerLimit WarningLimit AlarmLimit p l laying temperature information for a router Use the display environment command to display the temperature information of the sensors on the cards including the current temperature and temperature thresholds Display the temperature information of the cards on the router lt Sysname gt display environment System temperature information degree centigrade Slot Sensor Temperature LowerLimit WarningLimit AlarmLimit ShutdownLimit 0 hotspot 1 39 0 TO 85 N A 0 hotspot 2 40 20 80 95 N A 3 hotspot 1 55 10 60 80 N A 3 hotspot 2 42 SE 65 85 N A Table 12 Command output Field Description Slot Slot number of a card Sensor Temperature sensor where hotspot indicates the hotspot temperature sensor Temperature Current temperature Lower limit Lower limit of temperature WarningLimit Upper limit of temperature for warning AlarmLimit Upper limit of temperature for alarming ShutdownLi
27. port e 1 network management port e 1 RS 232 485 port reversed for future use e 1 CF card slot e 2 SMB coaxial Stratum 3 clock output interfaces Ports e 2 SMB coaxial Stratum 3 clock input interfaces e 2 USB ports the secondary USB port is not supported SPC card specifications Table 28 SPC card specifications Supported interface Model Interface type and number RES ZG 2 port 10GBASE R W optical Ethernet interface SPC XP2L card XFP LC 10 GE XFP module SPCXPAL 4 port 10GBASE R W optical Ethernet interface 10 GE XFP module card XFP LC SPC GPASL 48 port 1000BASE X optical Ethernet interface GE SFP module card SFP LC SPC GP2AL 24 port 1000BASE X optical Ethernet interface GE SFP module card SFP LC SPC GTASL 48 port 10 100 1000BASE T electrical Ethernet N A interface card RJ 45 SPE card specifications Table 29 SPE card specifications Model Number of slots Description SPE 1010 Single Processor Service Engine Module SPE 1010 II 1 Single Processor Service Engine Module SPE 1020 2 Dual Processor Service Engine Module SPE 1020 II 2 Dual Processor Service Engine Module SPE 1010 E Enhanced Single Service Processing Engine Module SPE 1020 E 2 Enhanced Dual Service Processing Engine Module SPE 1010 E Il 1 Enhanced Single Processor Service Engine Module SPE 1020 E Il 2 Enhanced Dual Processor Service Engine Module 74 Subcard specifications Table 30 Subcard specifications Model
28. power frame to be removed B AC power frame to be installed Cleaning a power supply air filter To ensure proper ventilation of the power supply HP recommends that you clear the air filter monthly The NEPS3500 A power frame does not have an air filter To clean the power supply air filter 1 Using your thumb and index finger to hold the upper and lower edges of the air filter frame gently remove the air filter frame Pull the black air filter out of the air filter frame Figure 32 Removing a power supply air filter 2 Use water to gently wash the air filer and then air dry it When you wash the air filter do not rub it 3 Put the black air filter into the air filter frame Using the thumb and index finger to hold the upper and lower edges of the air filter frame gently insert the air filter frame into the power supply Figure 33 Installing a power supply air filter Ek Replacing a card LPUs and MPUs for the router are hot swappable Replacement procedures for these types of cards are similar This section describes how to replace an MPU To prepare for the replacement 1 Put on an ESD preventive wrist strap and make sure the wrist strap makes good skin contact and is well grounded 5 Remove the blank panel if any from the slot to be used Keep the removed blank panel and protection cover for future use Unpack the card to be installed If the card has a protection cover remove it Keep the removed pr
29. powered on This section describes how to install a subcard to an SPE card The installation of an SPE card is the same as a common card For more information see Installing a card The subcards are not hot swappable You can install a subcard using one of the following methods e Power off the router and install the subcard to the SPE card on the router e When the router is powered on install the subcard to the SPE card that has not been installed and then install them to the router To prepare for installation 1 Put on an ESD preventive wrist strap and make sure it is properly grounded 2 Make sure the router is powered off and installed with the SPE card 15 3 Remove the blank panel if any from the slot to be used on the SPE card 4 Unpack the subcard To install a subcard 1 Turn the ejector levers of the subcard outward simultaneously with both hands and then slide the subcard with the right side up straight into the SPE card along the slide rails until the ejector levers touch the panel of the SPE card as shown in Figure 15 2 Push against the front panel of the subcard When the front panel is close enough to the SPE card pivot the ejector levers of the subcard inward with both hands so that the front panel is flush with the panel of the SPE card 3 Use a Phillips screwdriver to fasten the mounting screws on the subcard Figure 15 Installing a subcard Connecting power cables Check the following
30. status LED erre erre erre 95 Network management port LEDs SE 95 EROE ROTA 96 MPU skatos RE 86 SPCegtd E 96 LINK ACT LED iii 97 Combo miedaca RTE 87 IHK eand ACT EDren e eee ee eee e e eee E 97 pedido 98 So bere Ne a a aaa 98 Transceiver modules seeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeee 89 TIO GEXFP iranseebvet medie 89 FE GE SFP transceiver modules iii ioni ezio ie ezezeze 90 OC 48 STM 1 6 SFP transceiver modules TOTTI II 92 OC 1 2 STM 4 SFP transceiver modules EE 92 OC 3 STM 1 SFP transceiver modules gege eege reegen 9 Lightning protection iveco 94 Connecting the AC power supply to a power strip with lightning protection EE 94 Installing a lightning protector for a network Doten 95 Engineering SERE 96 Labels for cableg s i 1___s 11 ___1111211 122202121212 1 202020201201020200201000001010000 01010000000000rcettretttceiierizieeezeonizioninizziezenizecizezizionizinie 96 labels for signal Cables s r00srsccezeceezeriz ee zio zeeeorioeeniozizeonizio nica zena ezzzee EDAEN AaS zine ario EnaA izeni cine eee rice nice eeienizionieiezeene 96 labels for power Cableg scrcrricrierezezerineo nio zezeoeizzenizezezezionenizezizeonicniezezizeaianenizeo nina rice nizeneoticece nine eenizine nice siie 96 Generic labelg reeei ____ z 117r_00020000000000000000000000000s00rcericerizeerinzio zio zone nionisioneneori
31. sure the rack meets the following requirements e HP recommends that the router is mounted in an open rack If you mount a router in a closed rack make sure there is a good heat dissipation system e Therackis steady enough to support the router and accessories e The router fits the rack size Leave some space beside the left and right panels of the router for chassis heat dissipation Installation tools Accessories supplied by the router ltem Quantity Purpose Console cable Connecting the console port and the configuration terminal for router login Grounding cable Grounding the router Mounting brackets 1 pair Fastening the router to the rack Cable management brackets 1 pair Cable management e Fastening the mounting brackets to the router M4 8 screw 1 set e Fastening the cable management brackets to the router M6 12 screw 1 set Fastening the router to the rack M cage nut 1 set ST2 9 9 5 self ui Fastening the cable management brackets to the tapping screw mounting brackets excluding the A8808 essre 1 supplied with the Installed at the rear of the router to block air from p A8808 only entering the chassis ESD preventive wrist I ESD prevention strap NOTE The number of screws and nuts supplied with the router may vary User supplied tools and equipment e Cross head screwdriver P1 100 mm P2 150 mm and P3 250 mm e Flat blade screwdriver P4 75 mm e Diagonal pliers wire stripping pliers and w
32. temperature in C with the precision to 1 C Fault detection parameter voltage in V with the precision to 0 01 V Fault detection parameter bias current in mA with the precision to 0 01 mA Fault detection parameter RX power in dBM with the precision to 0 01 dBM Fault detection parameter TX power in dBM with the precision to 0 01 dBM 42 Troubleshooting This chapter describes how to troubleshoot router installation failures The router power supply system fans and cards have multiple LEDs to help you locate failures Contiguration terminal problems If the configuration environment setup is correct the configuration terminal displays boot information when the router is powered on If the setup is incorrect the configuration terminal displays nothing or garbled text No terminal display If the configuration terminal displays nothing when the router is powered on verify that e The power supply system works correctly e The MPU works correctly e The console cable has been connected to the console port of the MPU If no problem is found the following reasons may apply e The console cable is connected to an incorrect serial interface The the serial interface in use is not the one set on the terminal e The properties of the terminal are incorrect You must configure the console terminal as follows set Bits per second to 9600 Data bits to 8 Parity to None Stop bits to 1 Flow control to None and Termi
33. the DB 9 male connector at the other end into the serial port of the modem Connecting through an Ethernet twisted pair cable The 10 100 1000Base T copper ports of the router support MDI MDI X autosensing They are connected to the network through Category 5 or higher twisted pairs equipped with RJ 45 connectors No Ethernet twisted pair cables are shipped with the router Prepare them yourself To connect a 10 100 1000Base T port 1 Plug one end of an Ethernet twisted pair cable into the copper Ethernet port RJ 45 port to be connected on the router 2 Plug the other end of the cable into the RJ 45 port of the peer device Connecting through an optical tiber Use an optical fiber to connect an optical fiber port for example XFP fiber port or SFP fiber port on the router to the network You must install a transceiver module to the router and then insert the fiber connector into the module This section describes only the LC connector Figure 25 LC connector Follow these precautionary steps 1 When selecting a fiber network facility make sure the type of the connector and the fiber match the adopted optical port 2 Install the dust cover if the optical port is not connected to a fiber connector 3 Never stare at the optical port directly Invisible rays may be emitted from the optical port if the optical port is not connected to a fiber connector or the dust cover is removed 4 Never bend or curve a fiber w
34. www hp com support manuals e HP download drivers and software http www hp com support downloads e HP software depot http www software hp com 112 HP Education http www hp com learn Conventions This section describes the conventions used in this documentation set Command conventions Convention Description Boldface Bold text represents commands and keywords that you enter literally as shown Italic Italic text represents arguments that you replace with actual values Square brackets enclose syntax choices keywords or arguments that are optional alli Braces enclose a set of required syntax choices separated by vertical bars from which dia you select one tali Square brackets enclose a set of optional syntax choices separated by vertical bars ia from which you select one or none bali io Asterisk marked braces enclose a set of required syntax choices separated by vertical vie bars from which you select at least one COLIN Asterisk marked square brackets enclose optional syntax choices separated by vertical SJ bars from which you select one choice multiple choices or none DEN The argument or keyword and argument combination before the ampersand amp sign can be entered 1 to n times A line that starts with a pound sign is comments GUI conventions Convention Description Window names button names field names and menu items are in bold text For Boldface i example the New User w
35. 1 9 00000000 43 ili 44 MPU bibi 45 Piece 46 Interface failure 1__ 121110000000000000000 00000000000 ce 0eeie ricer eeee ie ie rici onice eine eri ee ce venia reni e iene e eine e ie nie nine 46 Technical support ie e e e ee 47 Replacement procedures cacciata 48 Replacing a power supply system E I O AO RO E E I A 48 Replacing a DC power supply e e 0000000 00i 48 Replacing an e 49 Cleaning a power supply air filter ie rire rece re rie ee eni rie reni e iene eee ze e iene e zinee eee 5 SEET 5 SHEET D 53 Replacing a fan tray eee i i 54 Replacing a fan tray for an A8805 A8812 iii 54 Replacing a fan tray for an A8808 iii 55 Replacing a chassis Gir filter 000 ieri rici rie ie rici o rene e iene e iene iene e iene eee eee iene ninee 56 Replacing chassis air filters for an A8808 iii eeie erre eee eee eee e eeie eee e eereeeiee eine e eine e rene nineee 56 Replacing an air filter for an A8805 A8812 i 57 Replacing a CF cardi iii 57 Replacing a transceiver module iii nese nese nese esau essen sees 59 Hardware specifications AA A RR REA SOI ROIO 61 Environmental requirements a 61 Technical specifications EEN 6 Chassis ceri erre erre ire eee ere eee erre erre eee ere ere ieri eee eee eeie ire ere eee erre eee erre erre ieri erre erre ieri ieri erre 61 Cooling system iii e ee 68 Card specifications CR EEE A 71 Power supply system e eee SE LEDs CRA AR LI RARI ERerEteee 84 Power ETS RE 94 STAR 84 MPU IE e a T TEESE S A MIRA BI OINI 85 CF card
36. 60 2 5G SFP 9 125 um single 40 km 24 86 120906 LC 40km Transceiver SE ge mode optical fiber miles HP X160 2 5G SFP 9 125 um single 80 km 49 71 Se LC 80km Transceiver poem mode optical fiber miles OC 12 STM 4 SFP transceiver modules Table 53 OC 12 STM 4 SFP transceiver modules Product DS Central max La Description Connector Fiber transmission code wavelength di Istance 9 125 um JF829A 0 SR a 1310 nm LC single mode Le LE LX 15km Transceiver e miles optical fiber HP X120 622M SFP LC 9 125 um JF830A LH 40km 1310 1310 nm LC single mode S e ER Transceiver optical fiber HP X120 622M SFP LC 9 125 um JF831A LH 80km 1550 1550 nm LC single mode in S Ss Transceiver optical fiber us OC 3 STM 1 SFP transceiver modules Table 54 OC 3 STM 1 SFP transceiver modules Product DS Central EES SCH Description Connector Fiber transmission code wavelength di Istance 50 125 um 1310 nm LC multimode garg ES HP X110 100M SFP optical fiber a JD102B i LC FX Transceiver 62 5 125 um SE 1310 nm LC multimode l optical fiber Product code JD120B JDO90A JDO91A Description HP X110 100M SFP LC LX Transceiver HP X110 100M SFP LC LH40 Transceiver HP X110 100M SFP LC LH80 Transceiver Central wavelength 1310 nm 1310 nm 1550 nm 93 Connector LC LC LC Fiber 9 125 um single mode optical fiber 9 125 um single mode optical fiber 9 125 um single mode optical fiber Max transmission distance
37. C DC Horizontal 2 12 NOTE An MPU is the supervisor engine of a router An LPU receives and forwards traffic and provides network Services The LPU slots can hold SPE cards SPC cards and OAA modules For card specifications see Hardware specifications Safety recommendations A WARNING Before installation and operation read all of the safety instructions in the Compliance and Safety Guide supplied with your device This section provides general recommendations For more information see the Compliance and Safety Guide Turn off all power and remove all power cables before opening the chassis Unplug all power and external cables before moving the chassis locate the emergency power off switch before installation and shut off power immediately if necessary Always wear an ESD preventive wrist strap when installing the router Do not stare into the open optical interface The laser light emitted from the optical fiber may hurt your eyes Use a good grounding system to protect your router against lightning shocks interference and ESD This is essential to the operating reliability of your router Make sure the resistance between the chassis and the ground is less than 1 ohm Installation site requirements A The following tables provide information about temperature and humidity cleanness and air quality requirements CAUTION If condensation appears on the router when you move it to a high temperature enviro
38. E No card is in the slot e Mismatched The software version does not support the card and thus cannot be uploaded Software Version Rebooting the router A CAUTION e Router reboot can interrupt network services e To avoid data loss use the save command to save the current configurations before a reboot e Use the display startup and display boot loader commands to check that you have correctly set the startup configuration file and the main system software image file You can reboot the router in one of the following ways to recover from an error condition e Reboot the device immediately at the CLI e At the CLI schedule a reboot to occur at a specific time and date or after a delay e Power off and then re power on the device This method might cause data loss and is the least preferred method Reboot at the CLI is also called hot start It is mainly used to reboot a router in remote maintenance without performing hardware reboot of the router For data security if you reboot the router while the router is performing file operations the router does not reboot The precision of the rebooting timer is 1 minute One minute before the rebooting time the router prompts REBOOT IN ONE MINUTE and reboots in one minute To reboot a router 34 Step Command Remarks Optional Available in user view The precision of the rebooting timer is 1 minute One minute before the rebooting time the router promp
39. G Ethernet interfaces and Yes No 10 RPR interfaces Verifying transceiver modules To verify transceiver modules you can use the following commands to view the key parameters of the transceiver modules including transceiver module type connector type central wavelength of the laser sent transfer distance and vendor name To display transceiver module information Task Command Remarks Display key parameters of the transceiver display transceiver interface Available for all module in a specified interface interface type interface number transceiver modules Display part of the electrical label data for display transceiver manuinfo the transceiver module in a specified interface interface type interface interface number Available for all transceiver modules Display the main parameters of the transceiver module plugged in interface GigabitEthernet 3 1 1 lt Sysname gt display transceiver interface Gigabitethernet 3 1 1 GigabitEthernet3 1 1 transceiver information Transceiver Type 1000_BASE SX SFP Connector Type LC Wavelength nm 850 Transfer Distance m 650 50um 2 70 62 5um 38 Digital Diagnostic Monitoring YES Vendor Name HP Ordering Name JD118B Table 15 Command output Field Description transceiver P e l Transceiver information information Transceiver Type Transceiver type Type of connector e Optical connectors including SC SC connector developed by NTT and
40. GP48L card and the GE fiber interfaces numbered from 1 to 16 on the SPC GP2AL card Table 45 Interface LED LED Status Description Steady green The interface is connected LINK ACT OH The interface is not connected correctly Flashing green Data is being transmitted and or received on the interface Combo interface LED The SPC GP24L provides combo interfaces each having one copper port and one fiber port Each copper or fiber combo port has a LED On the SPC GP2AL the fiber combo ports are numbered from 17 to 24 and the copper combo ports are numbered from 25 to 32 For the LED description see Table 46 Table 46 Combo interface LED LED Color Status Description Bieden The combo port is activated By default the copper yellow combo port is activated LINK ACT yellow OH The combo port is not activated green Steady on A link is present Green Off No link is present Flashing The port is transmitting or receiving data LINK and ACT LEDs Each interface on the following SPC cards has a LINK LED and an ACT LED e SPC XP2L e SPC XPAL Table 47 Interface LEDs LED Status Description Off No link is present LINK Steady green A link is present Off No data is being transmitted or received ACT Flashing yellow Data is being transmitted and or received 87 SPE card LED The LED for all SPE cards is the same Table 48 SPE card LED LED Status Description Steady green The card is faulty or is starting up Off The card is
41. HP A8800 Routers Installation Guide Part number 5998 1416 Document version 6W104 20130912 Legal and notice information Copyright 2011 2013 Hewlett Packard Development Company L P No part of this documentation may be reproduced or transmitted in any form or by any means without prior written consent of Hewlett Packard Development Company L P The information contained herein is subject to change without notice HEWLETT PACKARD COMPANY MAKES NO WARRANTY OF ANY KIND WITH REGARD TO THIS MATERIAL INCLUDING BUT NOT LIMITED TO THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE Hewlett Packard shall not be liable for errors contained herein or for incidental or consequential damages in connection with the furnishing performance or use of this material The only warranties for HP products and services are set forth in the express warranty statements accompanying such products and services Nothing herein should be construed as constituting an additional warranty HP shall not be liable for technical or editorial errors or omissions contained herein Contents Preparing for installation setti e eci eric EEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEEE eric EEEEEEEEEEEEEEEEEEEEEEEEEEEEEE REENEN e EE Satety recommendations eee ces cree 1_____22120020 e00000002000000000000000 000 eee ee ee rice sereceeeezeneee Installation site requirements EE 2 Rack mounting requirements RI A 3
42. IC GT20R PIC XP 1L PIC RSP2L PIC RUP1L PIC PSP4L PIC PUP 1L PIC PS2GAL PIC PL2G6L PIC PH2G6L PIC TCP8L PIC ALPAL PIC AHP1L PIC CSP 1L PIC CL1G8L Power consumption 67 W to 115 W 47 W to 75 W 72 Wto 125 W 80 W to 95 W 80 W to 95 W 148 W to 165 W 148 W to 165 W 94 W to 107 W 160 W to 200 W 94 W to 107 W 160 W to 200 W 9 27 W to 21 W 15 69 W to 25 W 16 32 W to 23 5 W 12 47 W to 23 7 W 16 79 W to 25 W 14 3 W to 19 W 9 7 W to 18 14 3 W to 19 W 9 23 W to 16 W 9 7 W to 18 W 9 7 W to 17 W 9 7 W to 17 W 30 W to 37 W 29 7 W to 36 W 9 6 W to 16 W 18 13 W to 32 W Net weight 3 50 kg 7 72 lb 5 00 kg 11 02 Ib 3 60 kg 7 94 Ib 4 00 kg 8 82 Ib 3 60 kg 7 94 Ib 3 90 kg 8 60 Ib 4 40 kg 9 70 lb 3 60 kg 7 94 Ib 4 50 kg 9 92 lb 3 60 kg 7 94 Ib 4 50 kg 9 92 Ib 0 45 kg 0 99 Ib 0 70 kg 1 54 Ib 0 65 kg 1 43 b 0 45 kg 0 99 Ib 0 40 kg 0 88 Ib 0 50 kg 1 10 Ib 0 40 kg 0 88 Ib 0 50 kg 1 10 Ib 0 40 kg 0 88 Ib 0 40 kg 0 88 Ib 0 40 kg 0 88 Ib 0 40 kg 0 88 Ib 0 60 kg 1 32 Ib 0 60 kg 1 32 Ib 0 40 kg 0 88 Ib 0 60 kg 1 32 Ib x x gt r r gt r gt r r r r 72 Dimensions H x W x D 40 x 400 x 380 mm 1 57 x 15 75 x 14 96 in 40 x 400 x 380 mm 1 57 x 15 75 x 14 96 in 40 x 400 x 380 mm 1 57 x 15 75 x 14 96 in 40 x 400 x 380 mm 1 57 x 15 75 x 14 96 in 40 x 400 x 380 mm 1 57 x 15 75 x
43. Installation tools iii iii ie ieri zine ne 3 Accessories supplied by the router 11 re rea rie ee riesi rie ee rece re zione e iene iene e eenee nine 3 User supplied tools and equipment lea E E ee arene a ewene 3 Installing the router eee ree reer errr cere rire rie rerrrerr reer eer reer eeereeererrrerree 5 Installation prerequisites EEA 5 Installing the router in a racket ve 00 eee eee cer ieeerie ie rie ie nici ei ee e iene nie ee e iene zie ee nie ie e icereniceeeineee 5 Mounting slide rails to the rack tti 1 _ 11111uur rae ei t11t1_ 100000000000 6 Installing cage nuts to the rack tti _ _ ___2 1900000000000000000000 eee eri eie eric ieri ze ici e rici e rici e eee ze rici e zine 7 Installing the cable management bracketg ttii 2 1___ _111121212120 000000000000000 000000000 vece vece vecio vecio zenee ee 7 Installing the mounting bracketg tti 1 ____t lt 9 211r_eeuriee tt 1r1 cr revveeee t1 i19 910 cv0000000008 9 Installing an impedance carrier optional REENEN 10 Installing the router to a rock tti 10 e erre ricer rire zinee eee 10 Verifying the installation erette __ _11__ 1 22121_1 0 0 lt 1 lt 1010000000000000 0000000 e eee rece r eri ce eee re esere serene ze rinie esere ne nione 1 Grounding the Feler ttt ie cere rire ri ere re iene iene e iene eee ie nice ee iene ee iene nici e e iezeninee 1 Installing the power system RR I ENEE 12 Installing a DC EE 13 Installing an AC power supply RR EEN EEN 13 Installing Fo capdeee
44. Installing the cable management brackets on the A8808 The A8808 has two cable management brackets and are installed using the same procedure The signal cable management brackets are installed at the upper part of the router and the power cable management brackets are installed at the lower part of the router 7 To install a cable management bracket 1 Attach the cable management bracket to the chassis and align the screw holes on the cable management bracket with the screw holes on the chassis as shown in Figure 4 2 Screw in and fasten the M4 screws with a screwdriver Figure 4 Installing the cable management brackets on the A8808 _ Installing the cable management brackets on the A8805 A8812 Install the cable management brackets to the mounting brackets cable management brackets and mounting brackets are required at both sides of the chassis Figure 5 shows how to install a right cable management bracket The method for installing the left cable management bracket is the same as the right Figure 5 Installing the cable management bracket on the A8805 A8812 Installing the mounting brackets Betore installing the router to the rack install the mounting brackets to the chassis Figure 6 shows how to install the mounting brackets to an A8805 router Figure 6 Installing the mounting brackets Installing an impedance carrier optional chassis An impedance carrier is shipped with the A8808 only You can inst
45. LC LC Connector Type connector 1 25 mm RJ 45 optical connector developed by Lucent e Other connectors including RJ 45 and CX 4 e Optical transceiver module Central wavelength of the laser sent in nm If the transceiver module for example IOGBASE LX4 supports multiple wavelengths Wavelength nm every two wavelength values are separated by a comma e Electrical transceiver module Displayed as N A Transfer distance where xx represents km for single mode transceiver modules and m for other transceiver modules If the transceiver module supports multiple transter medium every two values of the transfer distance are separated by a comma The corresponding transfer medium is included in the bracket following the transfer distance value The following are the transfer media Transter e 9u 9 125 u single mode optical fiber e 50 u 50 125 u multi mode optical fiber e 62 5 u 62 5 125 u multi mode optical fiber e TP Twisted pair e CX4 CX4 cable distance xx Whether the digital diagnosis function is supported Digital Diagnostic YES Supported Monitoring e NO Ndot supported Vendor Name Name of the vendor who manufactures or customizes the transceiver module Ordering Name Transceiver module model Display part of the electrical label data for the transceiver modules in a specified interface lt Sysname gt display transceiver manuinfo interface Gigabitethernet 3 1 1 GigabitEthernet3 1 1 transceiver manufa
46. LED Status Description Off No link is present LINK Steady green A link is present ACT Off No data is being transmitted or received 85 LED Status Description Flashing yellow Data is being transmitted and or received LPU status LEDs Table 43 LPU status LEDs LED Status Steady green Off RUN Flashing green 8 times per second Flashing green 1 time per second Steady red Off ALM Description The LPU is faulty The LPU is faulty or is not in position The LPU is registering or starting up The LPU is operating correctly An alarm occurs No alarm occurs MPU status LEDs The MPU status LEDs vary by MPU model Table 44 lists the LEDs for the SRO2SRP1F3 SRO2SRP2F3 MPU Table 44 MPU status LEDs LED Status Description The switching fabric module is in the working state or is Steady green SFS starting up Ott The switching fabric module is in the standby state Steady green The MPU is in the active state ACT Off The MPU is in the standby state Flashing green 8 times per SH Lui I The MPU is in the registration state or is starting up second aang GECA ime Ek The MPU is operating correct RUN second p 9 y Steady green The MPU is faulty Off The MPU is faulty or is not in position Steady red An alarm occurs ALM Off No alarm occurs SPC card LEDs The SPC card LEDs vary by card model 86 LINK ACT LED Table 45 describes the LINK ACT LED for the interfaces on the SPC
47. LM Steady red The fan tray is faulty When the RUN LED is off or the ALM LED is on the fan tray fails To troubleshoot the fan tray 1 If both LEDs are off examine the power supply to make sure it is operating properly For more information see Power supply system failure 2 Check for blockage of the air intake and exhaust vents on the chassis If they are blocked clean them to keep the air flowing Unplug the fan tray and plug it in again 4 Plug a spare fan tray into the slot If the spare fan tray works properly you can conclude that the old fan tray has tailed 5 If there is still a failure contact HP Support MPU failure The appearance of routers varies by model Figure 29 uses SRO2SRP1F3 as an example Figure 29 MPU LEDs 1 CF card status LED 2 Network management port LED 3 Network management port LED CFS ACT LINK 4 MPU status LED SFS 5 MPU status LED ACT 6 MPU status LED RUN 7 MPU status LED ALM 8 LPU status LED RUN 9 LPU status LED ALM When the MPU is operating properly the RUN LED blinks and the ALM LED is off When the RUN LED is off the MPU fails To troubleshoot the MPU 1 Verify that the power supply is operating properly For more information see Power supply system failure 45 Press the MPU RESET button to reset the MPU and then verify that the corresponding RUN LED is On Make sure the MPU is seated properly You can unplug the MPU plug it
48. Network cable management 1 110 Figure 78 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 79 Power cable management 111 Support and other resources Contacting HP For worldwide technical support information see the HP support website http www hp com support Before contacting HP collect the following information e Product model names and numbers e Technical support registration number if applicable e Productserial numbers e Error messages e Operating system type and revision level e Detailed questions Subscription service HP recommends that you register your product at the Subscriber s Choice for Business website http www hp com go wwalerts After registering you will receive email notification of product enhancements new driver versions firmware updates and other product resources Related information Documents To find related documents browse to the Manuals page of the HP Business Support Center website http www hp com support manuals e For related documentation navigate to the Networking section and select a networking category e For a complete list of acronyms and their definitions see HP FlexNetwork Technology Acronyms Websites e HP com http www hp com e HP Networking http www hp com go networkin e HP manuals http
49. agement guidelines ssosssosssosssosssosssssssosssosssosssosssosssossssssssss soss soss soss soss soss gerg 108 Cable management examples EE 109 Support and other resources tire ceri eee eee einen 112 Contacting HP eeeeeesesseessesssesseessesseesseesesoseeseeenseeoseeeseesesoseoseoseeesseosseseeeseeoseeseceseeseeseseceoseeseeeseeoeeceseeeeeeeeceoseeseeeeeeseeceseesesoeeoe 112 Subscription SEFV CE REECE OEE OEE OSE OOOO Sere eer eeeeeeeeeeee reer t eee eeer cere eter tere reee eer reerreerreeerreerreerree 112 Related informat tioneeeeeeeeeeeeeeereerseeeeeerereseeeseeeeeesereseeeseeseeesereseeeseeseeosereseessreseresereseeereeseeseresereseessresereseceseerescosereseesseeseeesee 112 Been co er ee rr 112 WAT Gli fh eg sss net ec cvionsietrticsinnnrivnavinn iaeei eeen ENAKE ened sipv valves EEE a E a E EE EEEE AENOR OEA 112 Conventions seeseeeeseseeeeseseeeeeeseeeeseeeceeseseeeeseseeeeseceeeeseseeeesesecseseseceeseseeeeseceeseseeeoseeeesoseesesoseesesoseeeceseesececsoseseeseseceeseseeeesoseee 113 Preparing for installation Overview This series is a line of data center routers You can deploy the A8800 routers at the core layer and distribution layer of large scale MANs the core layer of enterprise networks and the distribution layer of carrier networks Table 1 lists the chassis models in the series Table 1 Router chassis Chassis Power input Card slot orientation MPU slots LPU slots A8805 AC DC Horizontal 2 5 A8808 AC DC Vertical 2 8 A8812 A
50. all the impedance carrier at the rear of the chassis where an air filter is located to block the airflow from entering the rear of the To install an impedance carrier 1 2 Install an impedance carrier for routers that have front to rear airflow as shown in Figure 7 Loosen the captive screws on the air filter to remove the air filter Install the impedance carrier and fasten the captive screws on the impedance carrier Figure 7 Installing an impedance carrier Installing the router to a rack A CAUTION Make sure you have installed a rack shelf or slide rails on the rack for supporting the router and the rack shelf or the slide rails are sturdy enough to support the weight of the router chassis and all accessories Do not install the router to the rack using only mounting brackets To install multiple routers on the rack mount the heaviest router at the bottom of the rack To mount the router in the rack L Use several people to place the router on the rack shelf or slide rails and then slide the router into the rack until the mounting brackets on the router touch the front rack posts 2 Fasten the mounting brackets to the rack posts with mounting screws as shown in Figure 8 If the screw holes on the mounting brackets cannot align with the cage nuts on the rack verify 10 that the bottom edge of the slide rail aligns with the middle of the narrowest metal area between holes and that the cage nuts are instal
51. ate 107 Cable management Label cables before you route or bundle them For more information about labeling cables see Engineering labels for cables Cable management guidelines When you route and bundle up cables follow these guidelines e Bind cables neatly for easy maintenance and expansion e The cable management brackets and cable routing slots inside or outside the rack are smooth and have no sharp edges or tips e Route different types of cables for example power cables and signal cables separately If they are close to one another cross them over one another If you route them in parallel make sure the space between a power cable bundle and a signal cable bundle is at least 30 mm 1 18 in e Use the correct ties to bind the cables Do not bind cables with joined ties e The distances between cable ties must be three to four times the cable diameter e Bind and route the cables neatly inside the rack and make sure the cables are not kinked or bent Do not tie cables or bundles in a knot Figure 74 Correct and incorrect cable binding Bp O O Wo NES O O O O XEK O IW O 000o O IT O O O O Tangled GE T i O O O O OOOO OO i OG e O O O Q Af O A x S e When you bend cables bind cables as shown in Figure 75 To avoid cable core break due to excessive stress do not tie up the cables in the bending area The cable bend radius at c
52. chassis 5 Insert the outdoor network cable into the protector s IN end and the cable connected to the router into the protector s OUT end and look at the indicators on the lightning protector to verity the connection is correct 6 Use nylon ties to bundle the cables Protector performance may be affected for the following reasons e The protector is installed incorrectly Connect the IN end to the outdoor network cable and the OUT end to the network port on the router e The protector is not well grounded Use the multimeter to verify that the ground wire for the protector is as short as possible to ensure good contact with the grounding screw of the router e The installed protectors are not sufficient If the router has more than one network port has outdoor cabling install one protector for each network port 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 cables such as AC power cables and DC power cables Labels for cables fall into labels for signal cables labels for power cables and generic labels Labels tor signal cables A label for signal cables is Lshaped with fixed dimensions The light blue dividing lines on the label help to specity more clearly the position of
53. ck already has slide rails skip this section Slide rails or rack shelves are not provided with the router Prepare them yourself or order them from HP Make sure the slide rails or rack shelves you use are standard accessories In addition to slide rails you can use a rack shelf to support the router This document describes how to install slide rails only The following procedure uses a 19 inch rack as an example Betore installing the slide rails verify that the slide rails can support the weight of the router For the weights of the router see Hardware specifications To install the slide rails 1 Mark the positions of the slide rails on the rack Make sure the space above the slide rails is greater than the height of the router chassis For the router dimensions see Hardware specifications 2 Install the slide rails to the lowest possible position when installing a single router on the rack Make sure the bottom edge of the slide rail aligns with the middle of the narrower metal area between holes 3 Align the screw holes on the two sides of the slide rails with the corresponding holes on the rack and then fasten the screws 4 Install the other slide rail in the same way Keep the two slide rails at the same height so that the router can be placed evenly The height of the front panel of the rack is a measurement of one RU 44 45 mm or 1 75 in As shown in Figure 2 each 1 RU has three holes with center to center spac
54. cture information Manu Serial Number 1 XXXXXXXXXXXXXXXXXX Manufacturing Date 2008 09 01 Vendor Name S HEP Table 16 Command output Field Description Manu Serial Number Serial number of the transceiver module Manufacturing Date Manufacturing date of the transceiver module Vendor Name Name of vendor who customizes the transceiver module 39 Diagnosing transceiver modules The device provides the alarm function and digital diagnosis function for transceiver modules When a transceiver module fails or inappropriately work you can check for alarms present on the transceiver module to identify the fault source or examine the key parameters monitored by the digital diagnosis function including the temperature voltage laser bias current TX power and RX power To display alarm information or fault detection parameters for a transceiver module Task Display the current alarm information of the transceiver module in a specified interface Display the currently measured values of the detection parameters of the transceiver module in a specified interface Command Remarks display transceiver alarm interface interface type interface number Available for all transceiver modules display transceiver diagnosis interface interface type interface number Available for all transceiver modules Display the alarm information of the transceiver module plugged in GigabitEthernet 3 1 1 lt Sysna
55. de MN identifies the row and column number of the MN BC RTN power distribution equipment like the control cabinet and distribution TT box BC identifies the row and column number of the 48V connector if 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 MN BC PGND row and column number for identification e n Power port number in down top and left right order in the range of 1 to 3 The label only carries location information about the peer equipment control cabinet or distribution box while the information of the local end is not necessary Table 58 lists the information of two 48V power supplies on the label The information for other DC voltages such as 24V 60V should be given in similar methods Make sure labels are affixed in the correct direction After the cable ties are bundled onto the cable the identification plates with the labels should face up and the text on the labels in the same cabinet should be in the same direction as shown in Figure 71 Figure 71 Example of labels on a DC power cable TO TO AO 48V2 B03 48V2 BOS e A01 BO8 48V2 loaded cabinet side The cable is 48V2 DC supply which is from the 8 connecter on the second row of 48V bus bar in the cabinet on Row A and Column 1 in the equipment room e B03 48V2 distribution box side The cable is 48V2 DC supply which is from the loaded cabine
56. e 64 Affixed labels O LU O ji O OO d N Attixing a label to a power cable Stick the label to the recessed rectangular area on the identification plate You can stick the label to either side of the identification plate Be sure to aftix the labels on the same side of the identification plates A cable tie is bundled 2 cm 0 79 in away from the connector You can affix the label to other positions as needed Figure 63 shows how to affix a label when a cable is laid horizontally 99 Figure 65 Affixing a label TO BO3 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 66 Figure 66 Affixed labels TO BO3 48V2 Attixing a generic label The requirements for affixing a generic label are the same as affixing a label on a signal cable For more information see Affixing a label to a signal cable For the example of affixed labels see Figure 64 100 Figure 67 Affixing a generic label TO B02 03 12 Stick side D Attixing 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 e When you print write or affix labels keep the labels clean e Do not use
57. e equipment room e B02 03 12 The peer end of the Ethernet cable is connected to Ethernet Port 12 Chassis 03 of the rack on Row B Column 02 in the equipment room 102 Engineering labels for optical tibers These labels are affixed to optical fibers that connect the fiber ports on the cards in a chassis or connect fiber ports on box type devices There are two types of labels for optical fibers labels for a tiber that connects the fiber ports on two devices labels for a fiber that connects the device and the optical distribution frame ODF e Labels for the fiber that connects two devices Table 56 Information on labels affixed to the fiber between two devices Content Meaning Example e M Row number of the rack in the equipment room in the range of A to Z MN Rack number e N Column number of the rack in the equipment room in the range of 01 to 99 For example AO Be Chassie number Numbered in top down order with two digits for MN B C D R T example 01 Numbered in top down and left right order with EC SEHR two digits for example 01 D Fiber bort number Numbered in top down and left right order with siae two digits for example 05 R Optical receiving interface N A T Optical transmitting interface MN Rack number The meanings are the same as above If the B Chassis number local device and the peer device are not in the E EE E same equipment room MN can be the name of MN B C D R T a the e
58. e gt umount cfa0 olf the LED is flashing the CF card is reading and writing data In this case you cannot remove the CF card Wait until the CF card LED stops flashing before removing it olf the LED is off the CF card has been unmounted and you can remove it NOTE After you execute the umount cf command if you want to continue to use the CF card execute the mount cf command in user view to load the CF card again For more information about the umount and mount commands see HP A8800 Routers Fundamentals Command Reference 2 Use a Phillips screwdriver to loosen the screw on the right side of the CF card cover and then pull the CF card cover outward 3 Press the eject button of the CF card reader The reader ejects the card partway out of the slot Remove the CF card from the reader and put it in an antistatic bag or its original shipping materials 4 Push the new CF card all the way into the CF card slot The eject button will project out Push the CF card cover inward 6 Use a Phillips screwdriver to fasten the screw on the right side of the CF card cover Figure 42 Replacing a CF card Replacing a transceiver module A CAUTION When installing or removing an SFP transceiver module do not touch the golden finger The replacement procedures for XFP and SFP transceiver modules are similar This section uses an SFP transceiver module as an example To replace a transceiver module 1 Put on an ESD preventive wr
59. e the blank panel if any from the slot to be used Installing a DC power supply 1 Remove the air filter frame of the power supply and gently pull the DC power supply handle out 2 Holding the handle of the power supply with one hand and supporting the bottom of the power supply with the other hand push the power supply slowly along the slide rails until it makes close contact with the backplane as shown in Figure 10 3 Fasten the mounting screws on the power supply panel with a Phillips screwdriver 4 Cover the power supply with the removed air filter frame Figure 10 Installing a DC power supply Installing an AC power supply Installing a NEPS3500 A AC power frame For a router that requires power supply redundancy install the same number of power supplies in the two power frames 1 Push the power frame slowly along the slide rails until it makes close contact with the backplane 2 Fasten the mounting screws on the power frame panel with a Phillips screwdriver Figure 11 Installing a NEPS3500 A power frame I i S Ra Se n SEA i E i ee Pe Lo Installing an NEPS1800 A AC power supply 1 Pull the handle of the power supply downward to the unlock position 2 Gently push the power supply into the AC power frame NEPS3500 A until the rear side of the power supply makes close co
60. eeeerreeerreeeereesereesereesrcesercesercesercesecesercesercosercesrccesrceserceserceseresreeseecesereesereeseceseeceserceserceesreesercesereeseeeeseeeseee 14 Installing an SPE subcard iii 15 Connecting power cables iii i iii iii ei 000 16 Connecting an AC power cable ei iii 17 Connecting DC power cables eee eee ieri nie 17 Verifying the installation _ _ _ 1 222n000000000000000000 0000000 eeee creo ee rese re ce rice zeri eee eee ie ze senese reni e zare rece reni ceeeenezenioneee 19 Connecting the router to the network titti 11 ie io iii io iii iii i ee 20 Logging in to the router iii iii onitt1ieuiet1t1 e 20 Connecting the console cable 10000000 ririe rici e ere eieie rici e e ieee ici eeizie zione 20 Setting up a configuration environment tee eee eee een ere re rese see e rene e ezine eee senese rene eneneeeninnene 21 Powering on the router iii nie ioiiet 26 Verifying router operation recommended CARRERA TARA EE EELER ER 28 Connecting the router to the network 1 __ uuaiiti iuiio ereiet111r1111098 28 Connecting through an AUX cable cei ___ r11iet 110000000000 veciezereo ee 29 Connecting through an Ethernet twisted pair Cable eric r re rece rire ce icie ee rene c ezine e eee ee eee ie nere re rece rineeericiezenene 29 Connecting through an optical fiber EERE iene e ieie eee ne eee ie eee ie e ici ee rene eee ee rene e ieee eee ee ieee reni e rece ie ie e ieie ninna 29 Cable routing recommendations siti 1_ rr_ r 1100000000000 0000000 ri
61. ews on the front and rear air filters as shown in Figure 39 2 Remove the front and rear air filters from the chassis as shown in Figure 39 3 Install the cleaned air filters to the router 56 Figure 39 Replacing chassis air filters for an A8808 ee an air filter for an A8805 A88 1 2 Loosen the captive screws on the air filter as shown in Figure 40 2 Grasping the captive screws on the air filter slowly pull the air filter out of the chassis as shown in Figure 40 3 Install the cleaned air filter on the router Figure 40 Replacing an air filter for an A8805 Replacing a CF card A CAUTION Do not remove the CF card when the router is booting or the CF card LED is flashing Otherwise the tile system on the hardware or CF card might be damaged 57 Figure 41 CF card slot Fazer an H S AH d F a e D z d q EIN i es G GE Zi D n 1 CF card cover 2 CF card eject button 3 CF card 4 CF card LED The CF card is installed on the MPU of the router If the CF card memory is insufficient or the CF card is damaged follow these steps to replace the card Before inserting the CF card make sure the eject button is all the way into the slot and does not project from the panel 1 Examine the CF card LED status olf the LED is on you cannot remove the CF card You must unmount the CF card using the CLI and wait until the CF card LED is off before removing the CF card lt Sysnam
62. faulty or is not in position a Flashing green 1 time per second The card is operating correctly Fast flashing green 8 times per The LED flashes fast when the card is starting up If the LED second keeps flashing fast the card was not registered successfully Subcard LEDs For information about the subcard LEDs see the subcard manuals 88 Transceiver modules A CAUTION If you connect a long haul at least 40 km or 24 86 miles transceiver module to a short optical tiber see Figure 58 for loopback test use an optical attenuator to decrease optical power and avoid the transceiver module being damaged by high optical power Figure 58 Loopback operation on a transceiver module E K pra TA ua H CA 10 GE XFP transceiver modules Table 49 10 GE XFP transceiver module specifications Max Product SE Central SS Description Connector Fiber transmission code wavelength di Istance 62 5 125 um D DEE 850 nm LC multi mode optical HP X130 fiber JD117B LC SR Transceiver TE See Table 50 um multi eon mode optical fiber HP X130 10G XFP 9 125 um single 10 km 6 21 ge SC LR Transceiver rae e mode optical fiber miles HP X135 10G XFP 9 125 um single 40 km 24 86 lealt LC ER Transceiver EES ge mode optical fiber miles HP X130 10G XFP 9 125 um single 80 km 49 71 Ee SC ZR Transceiver EEN ZS mode optical fiber miles Table 50 Maximum transmission distance of 10 GE multi mode optical fibers Fiber type Modal bandwid
63. floor depending on the equipment room conditions power distribution cabinet lightning protection box and connector strip etc of the exchange office Attach cables as close to the router as possible The cables between the attachment point and router interfaces must be bound loosely Long cables can be bound with cable ties Do not bind cables at the air exhaust vent to prevent the cables from aging too fast For more information see Appendix E Cable management To identity cables you can stick labels on them For more information see Appendix F Engineering labels for cables 32 Hardware management This chapter describes the hardware management functions of the router Displaying electrical label data Electrical label data is also called permanent configuration data or archive information which is written to the storage component of a card during device debugging or testing The information includes name of the card card serial number and vendor name Use the display device manuinfo command to display the electronic label data for your router including the card name serial number MAC address manufacturing date and vendor name Display the electrical label data for the card in slot 3 on your router lt Sysname gt display device manuinfo slot 3 olot St DEVICE_NAME SPC 1010 II DEVICE_SERIAL_NUMBER 210231A0E50103000002 MAC_ADDRESS 000f e200 5600 MANUFACTURING_DATE 2011 02 28 VENDOR_NAME HP Slot
64. have close contact with the backplane Connecting the router to the network Logging in to the router The most common way to log in to a router is through the console port It is also the prerequisite to contiguring other login methods Connecting the console cable A console cable is an 8 core shielded cable with a crimped RJ 45 connector at one end for connecting to the console port of the router and a DB 9 female connector at the other end for connecting to the serial port on the console terminal as shown in Figure 18 Figure 18 Console cable Pos 9 Table 8 Console cable pinouts RJ 45 pin Signal DB 9 pin Signal RTS 8 CTS 2 DTR 6 DSR 3 TXD 2 RXD 4 CD 5 SG 5 GND 5 SG 6 RXD 3 TXD 7 DSR 4 DTR 8 CTS 7 RTS 20 Figure 19 Connecting the router and the PC through the console port To connect the console cable 1 Connect the DB 9 connector of the console cable to the serial port of a PC or terminal 2 Connect the RJ 45 connector of the console cable to the console port of the MPU of the router 3 When you remove the console cable first unplug the RJ 45 end and then unplug the DB 9 end Setting up a configuration environment 1 Launch a terminal emulation utility such as HyperTerminal in Windows XP Windows 2000 Select Start gt All Programs gt Accessories gt Communications gt HyperTerminal to access the HyperTerminal window The Connection Description dialog box appears 21 F
65. hen connecting it 29 Installing a transceiver module A CAUTION During installation do not touch the golden finger of the SFP module The installation procedures for an XFP module and SFP module are similar The following procedure uses an SFP module as an example To install an SFP module 1 Put on an ESD preventive wrist strap and make sure it makes good skin contact and is well grounded 2 Unpack the SFP module Close the clasp by pushing it up over the SFP module and then gently insert the SFP module into the interface slot until it clicks into place as shown in Figure 26 Figure 26 Installing an SFP module IMPORTANT e Do not remove the dust plug of the SFP module port before installing an optical fiber e For an SFP module installed with an optical fiber remove the fiber before you install the SFP module into the slot Connecting an optical fiber 1 Put on an ESD preventive wrist strap and make sure it is well grounded 2 Remove the protective cap from the fiber connector and use dust free paper and absolute alcohol to clean the end face of the fiber connector Connect one end of the fiber to the SFP module of the router 4 Connect the other end of the fiber to the peer device 30 Figure 27 Connecting an optical fiber to an SFP module om E a S Fic plug Ze E PTY BS al SFP module Installing an FMT optional The FMT is installed in a cabinet for winding redundant fibe
66. igure 20 Connection Description dialog box for HyperTerminal Connection Description 2 Enter the name of the new connection in the Name box and then click OK The system displays the interface as shown in Figure 21 22 Figure 21 Selecting a port for the HyperTerminal connection Connect lo De Enter details for the phone number that you want to dial Country region Area code Phone number EE 3 Select a port from the Connect using list and then click OK 4 Set the Bits per second to 9600 Data bits to 8 Parity to None Stop bits to 1 and Flow control to None and click OK 23 Figure 22 Setting the serial port parameters COM1 Properties Flow control estore Defaults L e II Gel 24 Figure 23 HyperTerminal window test HyperTerminal File Edit View Call Transfer Help De es 28 Disconnected auto detect scrou CAPS wn Capture 5 Select File gt Properties in the HyperTerminal window 6 On the Settings tab select VT100 for terminal emulation and click OK NOTE HP recommends that you select the Windows keys option 25 Figure 24 Setting the terminal emulation parameters Test Properties Connect To Settings Function arrow and ctrl keys act as Terminal keys Windows keys backspace key sends Gi Cal Del Ctil H Space Ctrl H Emulation v Telnet terminal ID YT100 Backscr
67. in again and make sure the MPU is seated properly If the router has empty MPU slots plug the MPU into an empty slot and make sure the MPU is operating properly If the ALM LED is on the MPU reports alarms Use the display alarm command to locate and resolve the failures If there is still a failure contact HP Support LPU failure When the LPU is operating properly the RUN LED blinks and the ALM LED is off At the same time the RUN LED on the LPU blinks and the ALM LED on the LPU is off When the RUN LED is off the LPU fails To troubleshoot the LPU 1 2 Verify that the MPU is operating properly For more information see MPU failure Use the display device command to determine if the software version is compatible with the LPU in the current slot If not upgrade the sottware to a compatible version Calculate the overall power consumption and make sure the power supply can provide enough power Verify that the LPU is seated properly You can unplug the LPU plug it in again and make sure it is seated properly If the router has empty LPU slots plug the LPU into an empty slot and make sure the LPU is operating properly If there is still a failure contact HP Support Interface failure The MPU and LPU have LINK LEDs that indicate the interface status When the link of an interface is present and operating properly the corresponding LINK LED is on If the LINK LED of an interface is off the interface or
68. indow appears click OK S Multi level menus are separated by angle brackets For example File gt Create gt Folder Symbols Convention Description A An alert that calls attention to important information that if not understood or followed WARNING can result in personal injury A 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 D IMPORTANT An alert that calls attention to essential information NOTE An alert that contains additional or supplementary information Q TIP An alert that provides helpful information 113 Network topology icons Represents a generic network device such as a router switch or firewall Represents a routing capable device such as a router or Layer 3 switch Represents a generic switch such as a Layer 2 or Layer 3 switch or a router that supports Layer 2 forwarding and other Layer 2 features Port numbering in examples The port numbers in this document are for illustration only and might be unavailable on your device 114 Affixing labels 7 O Cable management examples 109 Cable management guidelines 108 Cable routing recommendations 31 Cleaning a power supply air filter 51 Configuration terminal problems 43 Configuring in service hardware failure diagnosis 36 Configuring temperature alarm thresholds for a card 36 Connecting power cables
69. ing between the holes of 15 87 mm 0 63 in 15 87 mm 0 63 in and 12 70 mm 0 5 in Figure 2 Installing the slide rails WU DOGO UDO Noo OOOO 1 Middle of the narrower metal area between holes 2 1 RU NOTE The appearance and installation methods of slide rails depend on the slide rail types Installing cage nuts to the rack Before mounting the chassis to the rack install cage nuts to the front square holed brackets of the rack as shown in Figure 3 When preparing for installation make sure the total height of the routers to be installed does not exceed the height of the rack and reserve enough clearance for cable routing 1 Align the mounting bracket with the left rack post making sure the bottom edge and the slide rail are level 2 Mark the positions of the cage nuts on the rack post according to the installation holes on the mounting bracket 3 Install the cage nuts to the right positions Each installation hole on the mounting bracket corresponds to one cage nut 4 Repeat steps 1 through 3 to install cage nuts to the correct rack post Figure 3 Installing the cage nuts a erana d Ce oP ee fd td dt cd 60 ee ns Installing the cable management brackets This section includes separate steps for installing the cable management brackets on the A8808 and A8805 A8812
70. ire clippers e Meters and equipment such as hub and multimeter The rack accessories and installation tools are not described in this section The accessories and installation tools may vary depending on the rack model For more information see the installation guide for the corresponding rack Installing the router Figure 1 shows the steps for installing the router Figure 1 Installation flowchart Install the router to a rack Ground the router Install a card Install the power supply system Install a subcard optional Y Connect the power cable Verify the installation End CH Installation prerequisites Betore installing the router e Read Preparing for installation carefully and make sure the installation site meets all of the requirements e Using the packing list supplied with your router inspect the router to make sure you have all of the items listed and verify that the router was not damaged during shipment If anything is damaged or missing contact HP immediately Installing the router in a rack Confirm the following before starting installation e The rack is sturdy and securely grounded e There is at least 0 8 m 2 62 ft of clearance around the rack for heat dissipation and installation 5 e There is no debris inside or around the rack e The router can be installed only in a 4 post 19 inch standard rack Mounting slide rails to the rack If the ra
71. ist strap ensuring that the wrist strap makes good skin contact and is grounded Remove the optical fibers from the SFP transceiver module pivot the clasp down to the horizontal position and then pull SFP the transceiver module out of the socket as shown in Figure 43 Put the removed SFP transceiver module in an antistatic bag or its original shipping materials Unpack a new SFP transceiver module pivot the clasp of the SFP transceiver module upward to the vertical position so that it catches a knob on the top of the SFP transceiver module and then holding both sides of the SFP transceiver module gently push the SFP transceiver module into the socket until it has close contact with the socket you can feel that the top and bottom spring tabs catch in the socket as shown in Figure 44 Connect the optical fibers to the new SFP transceiver module 59 Figure 43 Removing an SFP transceiver module 60 Hardware specifications Environmental requirements Table 22 Environment requirements Temperature Range Long term 0 C to 45 C 32 F to 113 F Operating temperature Short term 10 C to 55 C 14 F to 131 F no more than 96 hours of continuous operation in less than 15 days in one year Operating humidity noncondensing Storage temperature 40 C to 70 C 40 F to 158 F Available altitude lt 4000 m 13123 36 ft Certificated altitude lt 3000 m 9842 52 ft 5 to 95 Operating altitude
72. items before connecting power cables e For lightning protection the AC power should be routed through an external lightning device into the router For more information see Lightning protection e The power switch on the power supply is in the OFF position 16 Connecting an AC power cable A CAUTION NEPS3500 A requires a 16 A power cable AC so you must use a 16 A busbar and make sure the AC power source can provide enough power The following procedure uses the AC power supply that comprises one 3500 W AC power frame and two 1800 W power supplies to show how to install AC power cables To connecting an AC power cable 1 2 3 4 5 Insert the ends of the bail latch into the holes on the left side of the upper power supply Connect one end of the AC power cable to the AC receptacle on the module Use a wiring tie through a notch of the bail latch and bend the power cable so that the wiring tie can bind the power cable with the bail latch Repeat steps 2 and 3 to bind another power cable with a wiring tie through the other notch Connect the other end of the AC power cable to the external power supply system Figure 16 Connecting a NEPS3500 A AC power cable Connecting DC power cables The DC power cables for the NEPS2000 D and NEPS3500 D are connected in the same way The procedure in this section uses the NEPS2000 D A WARNING To protect operators from being shocked install the protection cover ove
73. k number row number and column number in the equipment room or the location of the socket where the power is led in MN AC The location of the socket is marked according to onsite situation If the sockets can be identified by row number and column number they can be numbered following the same rule for the rack number Otherwise specify the detailed locations to avoid confusing with other sockets The label only carries location information about the peer equipment and the power socket while information of the local end is not necessary Make sure labels are affixed in the correct direction That is after the cable ties are bundled onto the cable the identification plates with the labels should face up and the text on the labels in the same cabinet must be in the same direction as shown in Figure 72 Figure 72 Example of labels on an AC power cable e AOLAC loaded cabinet side The power cable is connected to the socket of Row A and Column 01 in the equipment room e B01 AC power socket side The power cable is connected to the loaded cabinet of Row B Column 01 in the equipment room Engineering labels for devices These labels can be affixed to any device 106 You can fill in the device name model IP address serial number installation address and installation date on a device label Figure 73 Example of a device label Name Model IP Address Serial Number Installation Address na installation D
74. led in the correct holes Figure 8 Installing the router in a standard 19 inch rack i LI Ul D d i n Tale ieee KEE j Li p L NM 4 i P a3 33am we NIK we Rescht Vi j RBS SI a P E a H munari i P cl Ee et pe ES I d oa D r Ge i A bh d Vi 1 A Verifying the installation Use the following checklist to make sure the router has been installed correctly Table 6 Installation checklist Result ltem Remarks Yes No Mounting brackets are firmly attached to the router The router is installed in the correct position Mounting brackets on the router are firmly attached to the rack There is enough space for heat dissipation around the router Grounding the router A WARNING For the safety of operators and equipment ground the router securely Make sure the resistance reading between the router chassis and the ground is less than 1 ohm Most racks are equipped with a grounding strip You can connect the yellow green grounding cable of the router to the grounding strip Connect the grounding cable to the earthing system in the equipment room Do not connect it to a fire main or lightning rod The positions of the grounding terminals on the A8805 A8808 and A8812 are similar The following procedure uses the A8805 as an example To connect the grounding cable 1 Remove the grounding screw from the router chassis as shown in Figure 9
75. me gt display transceiver alarm interface GigabitEthernet 3 1 1 GigabitEthernet3 1 1 transceiver current alarm information RX loss of signal Table 17 Command output Field SFP RX loss of signal TX fault RX power high RX power low TX power high TX power low TX bias high TX bias low Temp high Temp low Voltage high Voltage low Transceiver info I O error Transceiver info checksum error Transceiver type and port configuration mismatch Transceiver type not supported by port hardware Remarks Receive RX signal is lost TX fault RX power is high RX power is low TX power is high TX power is low TX bias current is high TX bias current is low Temperature is high Temperature is low Voltage is high Voltage is low Transceiver information read and write error Transceiver information checksum error Transceiver type does not match port configuration Transceiver type is not supported on the port 40 Field XFP RX loss of signal RX not ready RX CDR loss of lock TX fault TX not ready TX CDR loss of lock Module not ready APD supply fault TEC fault Wavelength unlocked RX power high RX power low TX power high TX power low TX bias high TX bias low Temp high Temp low Voltage high Voltage low Remarks RX signal is lost RX is not ready RX clock cannot be recovered TX fault TX is not ready TX clock cannot be recovered Module is not ready
76. mit Upper limit of temperature for shutting down the router currently not supported Contiguring in service hardware failure diagnosis A hardware failure may cause traftic forwarding failures and service interruption To improve the automatic failure detection and handling capabilities of the router you can configure in service hardware failure diagnosis 36 The in service hardware failure diagnosis includes the detection for chips cards and the forwarding service and automatic fix actions taken for the detected failures To configure in service hardware failure diagnosis Step Command Remarks 1 Enter system view system view N A Required The fix actions taken in case of hardware failures include e Off Takes no action e Warning Sends warning messages 2 Enable in service hardware failure detection and configure fix actions taken in case of hardware failures hardware tailuredetecion e Reset Resets the failed card chip board forwarding Isolate Shuts down the failed port off warning reset isolates the failed card prohibits the isolate failed card from loaded or powers off the failed card to reduce the impact of the failure to the system Currently the router supports only off and warning operations By default the fix action taken for all hardware failures is warning After configuring in service diagnosis you can use the display hardware failure detection command
77. nal Emulation to VT100 e The console cable fails If the console cable fails you can replace a cable Garbled terminal display If terminal display is garbled verify that the following settings are configured for the terminal for example HyperTerminal e Baud rate 9600 e Data bits 8 e Parity none e Stop bits 1 e Flow control none e Emulation VT100 Power supply system failure The following tables provide LED information for AC and DC power supplies 43 Table 19 AC power supply LED LED Status Description Steady green Power is being input correctly Input Off The power supply is absent or has input voltage error Steady green The power supply is outputting power correctly Output ff The power supply has an output voltage error or is absent eadi The power supply is experiencing an overvoltage overcurrent or over Fault temperature condition Off The power module is operating correctly or absent Table 20 DC power supply LEDs LED Status Description Steady green Power is being correctly input IN input Off The power supply is absent or has an input voltage error OUT Steady green The power supply is outputting power correctly output Off The power supply has an output voltage error or is absent Beho The power supply is experiencing an overvoltage overcurrent or over FAIL fault temperature condition Off The power supply is operating correctly or absent When the input
78. nd the A8812 routers use the same type of fan trays but the A8808 router uses a different type of fan tray 68 Figure 51 Fan trays A8805 A8812 fan tray A8808 fan tray 1 RUN LED 2 ALM LED Table 24 Fan LEDs LED Status Description Off The fan tray has failed RUN Steady green The fan tray is working correctly Off The fan tray is in a normal state ALM Steady red The fan tray is faulty Table 25 Fan tray specifications Fan tray Power consumption Net weight Dimensions H x W x D 299 5 x 95 x 412 7 mm Fan tray for A8805 A8812 12 W to 90 W 3 97 kg 8 75 Ib 11 79 x 3 74 x 16 25 n Fan tray for A8808 16Wio 130 W 4 85 kg 10 69 64 x 403 2 x 405 4 mm Ib 2 52 x 15 87 x 15 96 in NOTE The A8805 A8812 uses a vertical fan tray slot the A8808 adopts the horizontal fan tray slot A8805 and A8812 airflow The chassis and power supplies for the A8805 and A8812 use separate air aisles The airflow for the power supply section at the bottom is from front to rear the airflow for the chassis is from left to right as shown in Figure 52 69 Figure 52 A8805 airflow Le i __ Eta EEN sl D Ge ee i Amaro a mge EE el ln fr SS es ep hl la L 1 Chassis air intake 2 Chassis air outlet 3 Power supply air intake 4 Power supply air outlet A8808 airflow The chassis and power supplies for the A8808 use separate
79. nment dry the router before powering it on to avoid short circuits To ensure normal operation of the router make sure the room temperature meets the requirements described in Table 2 Table 2 Temperature requirements Temperature Range Long term O C to 45 C 32 F to 113 F Operating temperature Short term 10 C to 55 C 14 F to 131 F no more than 96 hours of continuous operation in less than 15 days in one year Storage temperature 40 C to 70 C 40 F to 158 F Maintain appropriate humidity in your equipment room as described in Table 3 Table 3 Humidity requirements Humidity Range Operating humidity noncondensing 5 to 95 Storage humidity noncondensing 5 to 95 Lasting high relative humidity tends to cause poor insulation increased electricity consumption mechanical property change of materials and corrosion of metal parts Lasting low relative humidity is likely to result in loose screws due to washer contraction and even ESD which causes the circuits to fail Table 4 Dust concentration limit in the equipment room Physical active substance Concentration limit particles m Dust particle lt 3 x 104 No visible dust on desk over three days Note Dust particle diameter Bum Table 5 Limits on harmful gases in the equipment room Gas Max concentration mg m SO 0 2 HyS 0 06 NH 0 05 Cl 0 01 Rack mounting requirements Before rack mounting a router make
80. ntact with the power frame backplane 3 Push the handle upward so that it locks the power supply in place Figure 12 Installing an AC power supply Installing a card All cards excluding subcards for the routers are hot swappable You install MPUs and LPUs in the same way To prepare for installation 1 Put on an ESD preventive wrist strap and make sure it is properly grounded 2 Remove the blank panel if any from the slot to be used Keep the blank panel and protection cover for future use 3 Prepare the card to be installed To install a card 1 Remove the protection cover before installing the card a Put on an ESD preventive wrist strap and then use a Phillips screwdriver to loosen the captive screws that fasten the card to the protection cover b Gently pull the card out of the protection cover as shown in Figure 13 Figure 13 Removing the protection cover 2 2 Move the ejector levers of the card outward Supporting the bottom of the card with both hands slowly push the card into the slot along the slide rails 3 Push the ejector levers inward to ensure close contact between the card and the backplane 4 Position the screws in the holes and fasten them with a screwdriver to attach the card Figure 14 Installing a card i Vi TI AOP gt H ey eiiinzotexecc E BER e Installing an SPE subcard A CAUTION Do not install a subcard to the SPE card when the router is
81. oll buffer lines 500 a Terminal Setup _ Play sound when connecting or disconnecting Input Translation ASCII Setup Powering on the router A CAUTION Before powering on the router locate the power switch in the equipment room so that you can disconnect the power supply promptly in case of an emergency Before powering on the router confirm the following e The interface cables power cables and grounding cable are connected correctly e The power outlet voltage is the same as indicated on the router label e The console cable is correctly connected the console terminal or PC is powered on and the terminal parameters are configured properly To power on the router 1 Turn on the power switch of the power source providing power to the router 26 2 Turn on the power switch on the router Before the router is powered on the following information is displayed DDR2 SDRAM test successful System is starting Booting Normal Extend BootWare The Extend BootWare is self decompressing sses sss esec EEN ENN Nr Done KKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKK HP A8800 BootWare Version 1 10 ta KKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKK KK KKK Copyright c 2010 2011 Hewlett Packard Development Company L P Compiled Date Apr 22 2011 CPU Type MPC8548E CPU Ll Cache 32KB CPU L2 Cache 512KB CPU Clock Speed
82. onineceeienizzeiziniceizearionizio reziario 97 Labels for devicege ti in1s 0 ls9118 0 ubuciii t q 1n 00 000upu 1000000 0000 RENEE EE EEEN asana riser izzriionizionio 98 Filling in labels iii ni11100000 eee eee erre ieri eee 98 Affixing fo of O 98 Affixing a label to a signal Cable E zio nenioeezeo nice nicezezenizicizzeniveeieneniozioniceci nie iienicioninienio 98 Affixing a label to a power Cable E zioni 99 Affixing a generic label ti 1 _ _ _ 1 11cq lt 200uudiesiie i1 1cccveerieee e 11000000000 eee 100 Affixing a label to a device __ 11 _ 10101201000000000000 0000000000000 ve 0e0 ee ce serie cene ezeneee 101 Guidelines titti eee eee eee eee ee rire ere eiie ire ever ee eee erre erre eenie iene ere eee ere ere ire iii 101 el 101 Engineering labels for network cables lt ssssseeceenssssssceeecesssssssceesocsstsssssecssensessscessocensessscessscesseassoesssoneersseessaanes 101 Engineering labels for optical fibergitt neri ricer e eee ee eze e ieri eeie ee eie e eeie aeree eee eee ie iene eie e rene e eee ee rete rene e iene arene einen 103 Engineering labels for DC power cables __ _ 11__11 uuu1ur1r1 lt iie ee 0000000 105 Engineering labels for AC power cablegitttiiie 1 ___ r1212r11quueiie 01ce cr 0ee eee 1t11_1_ 100 00 106 Engineering labels for devices __ rec000000000 000 eee ieri rire rici e rici e rene rici e eee ie rie ienicieeinie 106 Cable management SEENEN EAR ERENNERT EE EE ANIA ANNE NANI 108 Cable man
83. onnectors must be at least 5 times the cable diameter and must be at least twice the cable diameter away from the connectors 108 Figure 75 Binding the cables aS od e When you route cables through sharp sheet metal penetration points or along sharp edges of mechanical parts use bushings or take any other action to protect the cables trom being cut or abraded The sheet metal penetration points must be smooth and fully rounded e When optical fibers are inserted into a protective tube wrap tapes around the edges of the protective tube to protect optical fibers from being cut e After binding the cables cut the excess from the ties leaving no sharp or angular tips See Figure 6 Figure 76 Cutting the cable ties e Route bind and attach excess cables for easy safe maintenance activities and proper operations e Do not tie the power cables to the slide rails e 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 e 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 e Fasten heavy or rigid power cables at the connectors to relief stress Cable management examples 109 NOTE The devices in the following figures are for illustration only Figure 77
84. otection cover for future use Figure 34 Removing the protection cover To replace a card 1 Put on an ESD preventive wrist strap and loosen the captive screws on both sides of the card to be removed Pull the ejector levers outward to separate the card from the backplane of the chassis Slowly pull out the card along the slide rails Put the removed card on an antistatic mat or into its original shipping materials Pivot the ejector levers outward Supporting the card with both hands gently insert the card into the slot along the slide rails Push the ejector levers inward to ensure close contact between the card and the backplane Position the screws in the holes and fasten them with a screwdriver 52 Figure 35 Replacing a card os Ge i we Fin e fi Replacing a subcard A CAUTION When the router is operating you must remove the SPE card before removing or installing the subcard Subcards do not support hot swapping Replace a subcard using one of the following methods e Poweroffthe router and then remove or install the subcard on the SPE card e Whenthe router is operating remove the SPE card replace the subcard on the SPE card and then install the SPE card to the router To replace a subcard when the router is powered off 1 Put on an ESD preventive wrist strap and loosen the captive screws on the subcard to be replaced Pull the ejector levers outward to separate the subcard from the SPE
85. plies is not allowed In this figure four AC power supplies are installed in the two AC power frames Figure 49 A8812 front view e Fr eee SE Eege gcasgencge a Wa EE 1 ESD preventive strap port 2 LPU slots slots 0 to 5 8 to 13 3 MPU slots slots 6 and 7 4 Power supply slots 5 PoE power entry module reserved currently not available 66 Figure 50 A8812 rear view 3 Fan tray 2 Grounding screw 67 1 Rear cover handle Chassis specifications Table 23 Chassis specifications Max power Model Weight Dimensions H x W x D Height RU consumption t weight 40 k AER pogos 2040 W AC TT 486 x 442 x 450 mm EEN lt 1795 W DC sa SEA 19 13 x 17 40 x 17 72 in t weight 58 kg 127 87 Am Dieu SCT Pl 675 04860450 mim wen D lt 2671 W DC on Ste 38 39 x 17 17 x 17 72 in Net weight 60 kg 132 28 lb enz 4248 WAC Seet l 753 x 442 x 450 mm va 4003 W DC SE lt 120kg 29 65x 17 40 x 17 72 in NOTE RU is a unit of measure that describes the height of a device mounted in a rack 1 RU equals 44 45 mm 1 75 in Cooling system Fan trays The router uses fan trays for heat dissipation The fan trays are hot swappable You can replace fan trays without powering off the router The fan trays can monitor the operating status of fans automatically adjust fan rotation speed to decrease noise and improve energy efficiency and display alarms CD IMPORTANT The A8805 a
86. quipment room D Fiber port number R Optical receiving interface N A T Optical transmitting interface e labels for the fiber that connects the device and the ODF Table 57 Information on labels affixed to the fiber between the device and the ODF Content Meaning Example e M Row number of the rack in the equipment room in the range of A to Z MN B C D R T MN Rack number e N Column number of the rack in the equipment room in the range of 01 to 99 For example AO 103 Content Meaning Example Numbered in bottom up order with two digits B Chassis number for example 01 Numbered in top down and left right order with C Slot number two digits for example 01 Numbered in top down and left right order with D Fiber port number two digits for example 05 R Optical receiving interface N A T Optical transmitting interface e M Row number of the rack in the equipment room in the range of A to Z MN Row number and column e N Column number of the rack in the number of ODF equipment room in the range of 01 to 99 For example GO1 is the ODF of Row G and Column 01 ODF MN B C R T 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 N A T Optical transmitting interface Figure 69 Example of a label on an optical fiber between two devices AQ 01
87. r the DC terminal block immediately after you connect the power cables To connect the DC power cables L 2 di 5 Remove the protection cover of the DC terminal block from the DC power supply Loosen the fastening screws on the top two terminals with a Phillips screwdriver Connect one end of the blue 48 VDC power cable to the negative terminal on the power supply and fasten the screw Connect the other end of the cable to the negative 48 V terminal on the power source The 48 VDC cable is marked with a minus sign Connect one end of the black DC power cable to the RTN terminal on the power supply and fasten the screw Connect the other end of the cable to the RTN terminal on the power source The black DC power cable is marked with a plus sign Put the protection cover over the DC terminal block Figure 17 Connecting DC power cables Veritying the installation A WARNING Before veritying the installation make sure you have turned off the power to avoid bodily injury and router damage Use the following checklist to make sure the router has been installed correctly Table 7 Installation checklist ltem Result Remarks Yes No The grounding cable is grounded correctly Power supplies are installed correctly and firmly seated Power cables are connected correctly MPUs are installed correctly and have close contact with the backplane LPUs and subcards are installed correctly and
88. re 0 eee rire rice eric ie rici eniniene ne 31 Hardware management 23 Displaying electrical label datati 11_ _ rr rr 1 p1rp000000 00000 eee ie rici ie re ric ie ici e ieri rieie eee ze zinie 33 Displaying card information siii 1 _ 1 ce 00000000 000 eee rire rie ie rie ie nie ie nice ie nea ie nen nessa ici ee nessa iene ee iene ninna 33 Rebooting the router tti ___rrr 11 ceeeeieitt r 1001100000000 vee eee vere serie eie ee nie ee nicie ione 34 Displaying the router power supply system E AA AAA SOT AO IO CI MO CAI 35 Configuring temperature alarm thresholds for a cardi ii1riiieinit1t1100 36 Displaying temperature information for a router ttt 11_ _ _ _ r _ __ ceci tt11_21__121_2121000000008 36 Configuring in service hardware failure diagnosis ei 36 Displaying the operating state of o fan EE 37 Displaying alarm information for a cardi iii o ie i rie ie eric ter ie ie rieie ieri venia reni eionen eo 37 Verifying and diagnosing transceiver Modules tti 1 _ __ 1000000000000 eresie ricezione 38 Introduction to transceiver modules titti iii ie eee zine 38 Verifying transceiver Modules ttt 11 _ _ 1 c cc0000000000000 00000 eee rie ee rie ee eee te vene e iene e iene e iene e iene e ieneene 38 Diagnosing transceiver Modules titti 40 Troubleshooting CERRANO 43 Configuration terminal problems PR E RE E RO ases 43 No terminal display Nee 43 Garbled terminal display ioni ooo 43 Power supply system failure tti __ 11101011 ecereei 1
89. rs between the router and other devices Confirm the following prerequisites e The cabinet is attached e The router is installed The installation involves the following materials e FMT e M5x10 self tapping screws two screws for one FMT To install the FMT 1 Align the FMT and the installation holes on the column of the cabinet 2 Use a Phillips screwdriver to attach each FMT with two M5x10 self tapping screws Figure 28 Installing the FMT M5 self tapping screws a Ee Ol e Standing nie column e FMT 000 0O 0O ODDDO de Se Cable routing recommendations 3 A CAUTION Do not bind cables at the air exhaust vent to prevent the cables from aging too fast For more information see Cable management Interface cables and power cables should be routed separately Proper cable routing can improve efficiency by facilitating installation and removal of fan trays the PEM and other components Follow these recommendations when you route cables Interface cables are routed through the cable management brackets on the left and right sides of the chassis and bound at cabling racks on chassis sides depending on the available equipment room condition Put all data signal cable adapters neatly under the chassis instead of any places outside the chassis in case of unexpected damages The power cables run along the left rear of the chassis and out of the chassis either from the chassis top or the raised
90. rt CE1 CT1 electrical interface RJ 45 8 port E SFP E 1000BASE X optical interface card SFP LC EE e E1 T1 cable 32 port CE1 CT1 electrical interface 2 DB 28 female e GE SFP module PIC ET32G2L connectors 2 port 1000BASE X optical interface card SFP LC E1 T1 cable OAA module specifications A CAUTION Upgrade OAA module software though console ports or Ethernet ports on the OAA modules rather than the MPU Table 31 OAA module specifications Supported Model Interfaces interface modules e One console port e One CF card slot supporting a 256 MB 512 MB 1 GB CF card IM FW II e Two USB ports reserved GE SFP modules e Two 10 100 1000 BASE T copper ports e Two GE combo interfaces e One console port IM SSL e One CF card slot supporting a 256 MB 512 MB 1 GB CF card GE SFP modules e Two USB ports reserved 76 Supported interface modules Model Interfaces e One console port Two USB ports reserved Ge SFP modul Two 10 100 1000 BASE T copper ports iene e Two GE combo interfaces IM LB Power supply system Table 32 lists the power supplies available for the router These power supplies are hot swappable For the power supply weights see Table 35 For the power supply electrical specifications see Table 36 Table 32 Power supply compatibility matrix Power suppl A8805 A8808 A8812 NEPS 1800 A Yes Yes Yes NEPS2000 D Yes Yes Yes NEPS3500 D No Yes Yes Figure 54 NEPS3500 A power frame
91. t on Row B Column 03 in the equipment room In the power distribution box or the first power cabinet of a row in the transmission equipment room every terminal block on the 48V connector bar has a numeric identification For example in the above label of A01 B08 48V2 08 or sometimes 8 is the numeric identification of the terminal block 105 PGND and RTN are two copper bars on which the terminal blocks are short circuited so which terminal is connected makes no difference You only need to give the row and column numbers of the power distribution box instead of giving the specific serial number of the terminal block on the copper bar For example if the label on the loaded cabinet side is AOI RTN it means that the power cable is an RTN that connects RTN copper bar in the power distribution box on Row A Column 01 in the equipment room Information on the labels for PGND cables should be given in the similar way Engineering labels for AC power cables 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 The labels for AC power cables are affixed to one side of the identification plates on cable ties Table 59 Information on labels affixed to AC power cables Content Meaning MN Rac
92. th MHz km Max transmission distance 62 5 125 um multi mode optical fiber 160 26 m 85 30 ft 62 5 125 um multi mode optical fiber OM1 200 33 m 108 27 ft 50 125 um multi mode optical fiber 400 66 m 216 54 ft 50 125 um multi mode optical fiber OM2 500 82 m 269 03 ft 50 125 um multi mode optical fiber OM3 2000 300 m 984 25 ft 89 NOTE Multi mode optical fibers are described using a system of classification determined by the ISO 11801 standard OM1 OM2 and OM3 which is based on the modal bandwidth of the multi mode optical fiber FE GE SFP transceiver modules Table 51 FE GE SFP transceiver modules specifications Product code JD1 18B JD1 19B JDO61A JD062A JDO63B JD103A JDO98B JDO99B JD113A JD114A Description HP X120 1G SFP LC SX Transceiver HP X120 1G SFP LC LX Transceiver HP X125 1G SFP LC LH40 1310nm Transceiver HP X120 1G SFP LC LH40 1550nm Transceiver HP X125 1G SFP LC LH7O Transceiver HP X120 1G SFP LC LH100 Transceiver HP X120 1G SFP LC BX 10 U Transceiver HP X120 1G SFP LC BX 10 D Transceiver HP X170 1G SFP LC LH70 1470 Transceiver HP X170 1G SFP LC LH70 1490 Transceiver Central wavelength 850 nm 850 nm 1310 nm 1310 nm 1550 nm 1550 nm 1550 nm 1490 nm Rx 1310 nm Tx 1310 nm Rx 1490 nm Tx 1470 nm 1490 nm 90 Connector LC LC LC LC LC LC LC LC LC LC LC
93. the cable For example there is one dividing line between the rack number and the chassis number and another one between the chassis number and the slot number The cut dotted line helps to fold the label when you affix it to the cable A mark TO is located at the lower right corner of the label to identify the peer end of the cable on which the label is affixed As shown in Figure 60 write a signal cable label as follows e Write the position of the cable in Area 1 e Write the position of the cable on the peer end in Area 2 e Area3isthe part that is folded up inside the label when the label is affixed to the cable Figure 60 Label for signal cables 1 Dividing line 2 Cut dotted line Labels for power cables A label for power cables should be attached to the identification plate on a cable tie that binds the power cables The identification plate has an embossment of 0 2 x 0 6 mm 0 008 x 0 02 in around symmetric on both sides and the area in the middle is for affixing the label A mark TO is located at the upper left corner of the label to identify the peer end of the cable on which the label is affixed You can write the position of the peer device control cabinet distribution box or power socket The meaning of the dividing lines is the same as labels for signal cables 96 Figure 61 Label for power cables TO 1 Cable tie 2 Dividing line on the label Generic labels A generic label is bar shaped
94. the connecting cable may fail To troubleshoot the interface 1 Make sure the MPU or LPU that provides the interface resides is operating properly For more information see MPU failure or LPU failure Examine the cable connection of the interface For information on connecting a copper or fiber Ethernet interface see Connecting the router to the network Verify that the cable is not broken Use the cable to connect two intertaces of the same type that are operating properly If the LEDs of the two interfaces are on the cable is normal Otherwise the cable fails Use a compliant cable to connect the intertace If the interface uses a transceiver module make sure the interface type is compatible with the transceiver module and that the transceiver module is compatible with the cable For more information see Transceiver modules If the interface uses a transceiver module replace the module with a normal transceiver module If the problem persists you can rule out the transceiver module failure 46 6 If the LED is for a copper or fiber combo port make sure the port has been activated If not use the combo enable copper fiber command to activate it If the LED is still off the interface or the link has failed 7 Use the display interface command to determine if the interface is UP If the interface is not UP use the undo shutdown command to bring up the interface 8 Make sure the speed and duplex settings of the
95. the power supply downward to the unlock position Gently move the power supply to separate it from the backplane of the power frame 2 Supporting the bottom of the power supply with one hand and holding the power supply handle with the other hand gently pull the power supply out Put the removed power supply on an antistatic mat or into the original shipping materials NOTE If the power frame is installed with two AC power supplies repeat steps 1 and 2 to remove the other power supply 3 Use a Phillips screwdriver to loosen the captive screws on both sides of the power frame 4 Supporting the bottom of the power frame with one hand and holding the power frame handle with the other hand gently pull the AC power frame out along the slide rails Place a removed power frame in an antistatic bag or its original shipping materials 49 5 Slowly push a new power frame into the slot along the slide rails until the rear of the power frame has close contact with the backplane Use a Phillips screwdriver to fasten the captive screws on both sides of the power frame Pull the handle of a power supply downward to the unlock position Gently push the power supply into the specified slot of the AC power frame until the rear of the power supply has close contact with the AC power frame backplane 9 Push the handle upward so that it locks the power supply in place Figure 31 Replacing an AC power frame and an AC power supply A AC
96. the slide rails Put the removed fan tray on an antistatic mat or into its original shipping materials To ensure normal operation of the router do not keep the router working without a fan tray for any length of time 3 Gently insert the new fan tray into the fan tray slot along the slide rails until it has close contact with the backplane 4 Use a Phillips screwdriver to fasten the captive screws on both sides of the fan tray panel tray for an A8805 A8812 peapea ae Figure 37 Removing a fan Replacing a fan tray for an A8808 The fan tray for an A8808 is installed horizontally To replace a fan tray for an A8808 1 Use your thumb to press the fan tray button and then pull the fan tray partway out 2 Holding both sides of the fan tray pull out the fan tray along the slide rails Put the removed fan tray on an antistatic mat or into its original shipping materials 3 Insert a new fan tray into the fan tray slot along the slide rails until it has close contact with the backplane 55 Figure 38 Replacing a fan tray for an A8808 A Fan tray to be removed B Fan tray to be installed Replacing a chassis air filter A CAUTION Clean the air filters every three months to guarantee adequate ventilation and avoid over temperature A chassis air filter is not shipped with the router You can order one if needed Replacing chassis air filters for an A8808 1 Use a Phillips screwdriver to remove the captive scr
97. tically opens the electric circuit when the current exceeds protector the threshold and closes the electric circuit when the current drops below the threshold 6 Multifunctional socket Connects the power module of the router Installing a lightning protector for a network port HP recommends that you install lightning protector for 10 100 1000 Mbps RJ 45 copper Ethernet ports The router does not come with lightning protectors If part of the network cable of a 10 100 1000 Mbps RJ 45 copper Ethernet port must be routed outdoors connect a lightning protector to the cable before you plug the cable into the port The following tools are required e Phillips or flat blade screwdriver e Multimeter e Tilted wire cutter To install a lightning protector 1 Read the instructions for the lightning protector carefully before you install it 2 Tear off the protection paper on one side of the double faced adhesive tape and stick the tape on the surtace of the protector Tear off the protection paper at another side and stick the protector onto the chassis of the router Keep the protector as close to the grounding screw of the router as possible 3 Measure the distance between the protector and the grounding screw of the router cut the ground wire of the protector and securely tighten the ground wire to the grounding screw 4 Use the multimeter to determine if the ground wire of the protector has good contact with the grounding screw of
98. to check the running information of the feature Displaying the operating state of a fan Use the display fan command to display the operating state of all fans on your router lt Sysname gt display fan Fan 1 State Normal Fan 2 State Normal The output above shows that all fans of the router operate normally Displaying alarm information for a card Use the display alarm command to display alarm information for a card lt Sysname gt display alarm Slot Level Info 0 ERROR Power 2 is absent 0 ERROR Slot 6 board state is faulty Table 13 Command output Field Description Alarm severity Level In descending order the alarm severity levels include ERROR WARNING NOTICE and INFO 37 Field Description Info Detailed alarm information Slot n board state is faulty Card n is faulty The reason may be the card is booting or the card fails Veritying and diagnosing transceiver modules Introduction to transceiver modules There are two types of commonly used transceiver modules as shown in Table 14 They can be further divided into optical transceiver modules and electrical transceiver modules based on transmission medium Table 14 Commonly used transceiver modules Optical Electrical Transceiver SE beten Application scenarios transceiver transceiver YP module module Generally used for 100M 1000M Ethernet SFP interfaces ATM or POS 155M 622M 2 5G Yes Yes interfaces XEP Generally used for 10
99. tor LC LC LC LC LC LC LC LC LC RJ 45 Fiber 9 125 um single mode optical fiber 9 125 um single mode optical fiber 9 125 um single mode optical fiber 9 125 um single mode optical fiber 9 125 um single mode optical fiber 9 125 um single mode optical fiber 50 125 um multimode optical fiber 62 5 125 um multimode optical fiber 9 125 um single mode optical fiber Category 5 or higher twisted pair Max transmission distance 70 km 43 50 miles 70 km 43 50 miles 70 km 43 50 miles 70 km 43 50 miles 70 km 43 50 miles 70 km 43 50 miles 2 km 1 24 miles 2 km 1 24 miles 10 km 6 21 miles 100 m 328 08 ft The JF833A is installed in a 1000 Mbps fiber port but it provides only the port speed of 100 Mbps The JF832A is installed in a 1000 Mbps fiber port and it provides the port speed of 100 Mbps or 1000 Mbps The interface card PIC ET32G2L does not support 100 Mbps transceiver modules including the JF833A and the 100 Mbps JF832A 91 OC 48 STM 16 SFP transceiver modules Table 52 OC 48 STM 16 SFP transceiver modules Central SC Product ui Max transmission Description wavelengt Connector Fiber code h distance HP X160 2 5G SFP 9 125 um single VE LC 2km Transceiver nova CS mode optical fiber SEN HP X160 2 5G SFP 9 125 um single VE LC 15km Transceiver ENN GE mode optical fiber ee HP X1
100. ts REBOOT IN ONE MINUTE and 1 Reboot a card or the reboots in one minute whole system immediatel reboot slot slotnumber Y y If you do not specify the slot keyword or reboot the AMB the reboot command reboots the router If you are performing file operations when the router is to be rebooted the system does not execute the reboot command for security purposes 2 Enable the scheduled Optional reboot function and schedule reboot at hh mm The scheduled reboot function is specify a specific reboot date disabled by default time and date Available in user view 3 Enable the scheduled Optional reboot function and schedule reboot delay hh mm The scheduled reboot function is specify a reboot waiting mm disabled by default time Available in user view Displaying the router power supply system Use the display power supply command to display the power supply system of your router lt Sysname gt display power supply verbose Power 1 state Normal Power 2 state Absent Slot No Board Power Status 0 POWER ON 3 POWER ON Table 11 Command output Field Description State of power supply x Power x state e normal The power supply is normal e absent The power supply is not in position Slot No Slot number of the card Power supply status of the card Board Power e power on The card is properly supplied with power Status e power off The card is powered off due to user operation or
101. tting power correctly output Off The power supply has an output voltage error or is absent Seadyned The power supply is experiencing an overvoltage overcurrent or over FAIL fault temperature condition Off The power supply is operating correctly or absent Fan LEDs Table 40 Fan LEDs LED Status Description Off The fan tray has failed RUN Steady green The fan tray is operating correctly Off The fan tray is in a normal state ALM Steady red The fan tray is faulty 84 MPU LEDs Figure 57 MPU LEDs 1 CF card status LED 2 Network management port LED 3 Network management port LED CFS ACT LINK 4 MPU status LED SFS 5 MPU status LED ACT 6 MPU status LED RUN 7 MPU status LED ALM 8 LPU status LED RUN 9 LPU status LED ALM The appearance of A8800 MPUs varies by MPU model Figure 57 takes SRO2SRP1F3 for illustration CF card status LED Table 41 CF card status LEDs LED Status Description Steady on The CF card is in position and idle CFS Flashing The CF card is in position and performing read write operations Do not green unplug it Off The CF card is out of position or offline You can plug it in or unplug it NOTE When the CF card LED is on do not unplug it Before unplugging the card execute the umount command in user view to uninstall the CF card and then unplug the CF card when the LED is off Network management port LEDs Table 42 Network management port LEDs
102. uipment room in the range of 01 to 99 For example BO2 Location number of the terminal or device onsite If you connect the cable to a router in a rack specify the rack number chassis number and Ethernet port number for example B02 03 12 If you connect the cable to a terminal or an NMS specify the location number of the terminal or the NMS The information provided on the following labels is different subject to different devices that the Ethernet cables are connecting For example e Ona label for the Ethernet cable that connects a router and a server oFor the router end Rack number chassis number and Ethernet port number on the router oFor the server end Rack number and chassis number or the specific location of the server if the server is laid separately e Ona label for the Ethernet cable that connects the router and a terminal oFor the router end Rack number chassis number and Ethernet port number or the specific location of the router if the router is laid separately The definitions of the rack number and chassis number are the same as those described in Table 55 oFor the terminal end Ethernet port number of the terminal Figure 68 Example of a label on an Ethernet cable AO1 03 10 05 L 0 cod OL e A01 03 10 05 The local end of the Ethernet cable is connected to Ethernet Port 05 Slot 10 Chassis 03 of the rack on Row A Column 01 in th
103. urrent or FAIL fault over temperature condition Off The power supply is operating correctly or absent Table 35 Power supply weights Model Description Max output power Net weight 3 90 kg 8 60 Ib NIEPS3500 A ante W AC power 3500 W when two power fexcluding power rame supplies are installed l supplies 1200 W 100 VAC to 120 VAC pen pone EE kg 4 96 Ib supply 1800 W 200 VAC to 240 VAC NeEPS2000 D 7099 WPC power 2000 w 6 36 kg 14 02 lb supply NEPS3500 D mole Ge E 6 14 kg 13 54 lb Select AC or DC power supplies according to the power supply mode of your router 79 e Make sure the maximum total output power of the power supplies exceeds the system power consumption HP recommends reserving a certain power de rating value For the maximum output power of a single power supply see Table 36 HP recommends that you configure N 1 or N M power supply redundancy e To use the AC power supply select the 16 A AC power cables For the 16A AC power cables used in different countries or regions see Table 37 e The NEPS3500 A AC power frame functions properly only if you install one or two NEPS1800 A AC power supplies Table 36 Power supply electrical specifications Model Description Botedtinpubvorage range 3500 W AC 100 VAC to 240 EE power frame VAC 50 Hz or 60 Hz 1800 W AC 100 VAC to 240 EES power supply VAC 50 Hz or 60 Hz NEPS2000 D ee A 60 VDC to 48 VDC power supply NEPS3500 D aes 60 VDC to
104. with fixed dimensions It is applicable to both signal cables and power cables 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 attixed The meaning of the dividing lines is the same as labels for signal cables 97 Figure 62 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 HP recommends that you print labels To print labels select a label printer and a proper label template as needed For more information about using a label printer see the user guide of the printer To write labels use black markers A marker has two nibs Be sure to use the smaller nib to write labels Attixing labels After printing or writing a label remove the label from the bottom page and affix it to the signal cable or the identification plate of the power cable Affixing a label to a signal cable Typically a label is affixed 2 cm 0 79 in away from the connector on a signal cable You can affix the label to other positions as needed Figure 63 shows how to affix a label when a cable is laid vertically 98 Figure 63 Affixing a label Stick side Figure 64 shows the affixed labels when the cable is laid vertically and horizontally Figur
105. ype of power cables Connector outline Countries or regions seldom using this type of power cables No Specifications 0404A0 I type 1A 3m Australia or 9 8 ft Connector outline Power cable outline Connector outline Countries or regions where the type of power Other countries or i l i Countries or regions Connector Code cables conforms to regions using this seldom using this type type Length local safety type of power of power cables regulations and cables can be used legally 7 0404A0C2 C19 3 m 9 8 fi Mainland China Connector outline Power cable outline Connector outline 83 LEDs In this document SPC cards refer to the interface cards prefixed with SPC for example SPC GP48L and SPE cards refer to the base cards prefixed with SPE for example SPE 1020 E Power supply LEDs Table 38 AC power supply LEDs LED Status Description Steady green Power is being input correctly a Off The power supply is absent or has an input voltage error Steady green The power supply is outputting power correctly Be ff The power supply has an output voltage error or is absent NA SERE iii ii ER an overvoltage overcurrent or over Off The power supply is operating correctly or absent Table 39 DC power supply LEDs LED Status Description Steady green Power is being input correctly IN input Off The power supply is absent or has an input voltage error OUT Steady green The power supply is outpu
Download Pdf Manuals
Related Search