HP 7500 Switch Series
Contents
1. 8 6 Use a screwdriver to remove the captive screw on the fan assembly as shown in callout 1 on Figure 50 Press the left side of the fan assembly handle to rotate it out from the slot as shown in a callout 2 on Figure 50 Supporting the fan assembly by its bottom with one hand hold the fan assembly handle with the other hand to pull the fan assembly out of the slot Put the removed fan assembly on the antistatic mat or its original shipping materials Figure 50 Replacing a fan assembly for an HP 7500 V Loosen the captive screw 2 Press the left side of the fan assembly handle to rotate it out from the slot 3 Pull the fan assembly out of the slot Installing a fan assembly 1 Wear an ESD wrist strap and make sure it makes good skin contact and is well grounded For more information see Installing FRUs 2 Unpack a new fan assembly and push it into the fan assembly slot along the slide rails until it has a close contact with the backplane 3 Use a screwdriver to fasten the captive screw on the fan assembly Check the FAN LEDs on the MPU of the switch If the OK LED is on the fan assembly is installed successfully For more information about the FAN LEDs see Appendix C LEDs NOTE e Make sure the fan assembly handle has been pushed in to the slot after installation e You can check the fan status at the CLI For more information see Hardware management and maintenance 82 Replacing the t2. N CAUTION Make sure the AC power supply uses a three wire cable with a protection wire and the PE wire of the AC power supply is well grounded at the power distribution room or AC power supply transformer side In addition make sure the PE connector on the switch is well connected to the PE wire of the AC power supply Figure 15 Grounding through an AC power PE wire Grounding the switch through the RTN wire of a DC power supply If the switch is powered by a 48 VDC power supply and no grounding strip is available at the installation site you can ground the switch through the return RTN wire of the DC power supply as shown in Figure 16 AV CAUTION Make sure the RTN wire is well grounded from the DC egress of the DC power cabinet Figure 16 Grounding through the PGND of a power cabinet DC Power Box 48V strip RTN strip PGND strip Ground 19 Installing FRUs There is no required order for installing FRUs HP recommends that you connect power cords after completing installing all required FRUs Q TIP Keep the chassis and the component packages for future use Attaching an ESD wrist strap Every 7500 switch provides an ESD wrist strap To minimize ESD damage to electronic components wear an ESD wrist strap and ensure it is well grounded when installing modules To attach an ESD wrist strap 1 Make sure the switch is well grounded For how to ground your s
3. Installing a card 2 Installing a CF card to an MPU optional 37 Installing a power supply 22 Installing a transceiver module optional 38 Installing IRF member switches 43 IRF fabric setup flowchart 41 L LPU failure 76 LPU LEDs 122 LPUs 103 M Module power consumption and total power consumption 98 Mounting accessories 111 Mounting the switch to the rack 16 MPU failure 76 MPU LEDs 119 MPUs 102 N Noise 101 O Optical fiber 136 P Planning IRF fabric setup 41 PoE DIMM 111 PoE system failure 78 Port configuration and management 65 Port failure 77 Power supplies 109 Power supply LEDs 124 Power supply system failure 75 Q QSFP cable 138 QSFP to SFP cable 138 R Rebooting a card or the switch 72 Related information 87 Replacing a card 80 Replacing a CF card 84 Replacing a fan assembly 81 Replacing a power supply 79 Replacing a transceiver module 85 Replacing the PoE DIMM 86 S Safety recommendations Saving the running contiguration 71 Setting up a PoE system optional 32 SFP cable 138 Switch and FRU aliases 9 145 T Testing connectivity 54 Thermal output 100 Transceiver modules 112 Troubleshooting methods 74 Troubleshooting the system 74 V Verifying and diagnosing transceiver modules 67 Verifying the IRF fabric configuration 44 W Weights and dimensions 95
4. multiple modules Executing the display diagnostic information command is equivalent to executing the display clock display version display device and display current configuration commands in turn e Save running status data for multiple feature modules lt Sysname gt display diaqnostic i1nformation Save or display diagnostic information Y save N display Please input the file name diag flash default diag aa diag Diagnostic information is outputting to flash aa diag Please wait Save succeeded Y N sy To view the content of tile aa diag execute the more aa diag command in user view in combination of the Page Up and Page Down keys e Display running status data for multiple feature modules The output depends on your device model lt Sysname gt display diagnostic information Save or display diagnostic information Y save Omitted Displaying detailed intormation about a card N display Y N n e Use the display device verbose command to display detailed information about all cards in the switch lt Sysname gt display device verbose Slot No Brd Type Brd Status Subslot Num Sft Ver Patch Ver 0 LSQISRP2XB Master 0 7500 6620 None 1 LSQISRP2XB Slave 0 7500 6620 None 2 LSQIGV48SA Normal 0 7500 6620 None 3 NONE Absent 0 NONE None 4 LSQIFV48SA Normal 0 7500 6620 None 5 SRP2XBSLAVE Normal 0 7500 6620 None 6 SRPZXBSLAVE Normal 0 7500 6620 None Slot 0 info Status
5. 3 Install the blank panel to the PoE port Connect the PoE power cord to the A RPS 800 Plug the H2 7 of the PoE power cord into the DC output of the A RPS 800 and then fasten the screw as shown in callout 5 on Figure 31 5 Supply power to the ARPS 800 Plug the female end of the AC power cord into the AC input on the A RPS 800 and ensure a good contact and plug the male end of the AC power cord into the external power supply socket Figure 31 Connecting the A RPS 800 1 NEG terminal 2 RTN terminal 3 Grounding point 4 DC output 5 Insert the H2 7 plug of the PoE power cord into the DC output 6 AC input 7 A RPS 800 36 For more information about the A RPS 800 see HP A RPS 800 Redundant Power System User Guide Connecting a user supplied power cord to the PoE input on the chassis rear panel A CAUTION To avoid damage to the switch be sure to connect the negative terminals to negative terminals and positive terminals to positive terminals To connect a user supplied power cord to the PoE input on the chassis rear panel 1 2 3 4 Remove the blank panel covering the PoE port of the switch Connect the negative OT terminal on the PoE power cord to the NEG terminal on the PoE power supply socket and fasten the captive screw Connect the positive OT terminal on the PoE power cord to the RTN terminal on the PoE power supply socket and fasten the captive screw Install the blank pan
6. N A N A LPU LSQINSMSCO LSQISSLSCO NOTE Description HP 7500 NetStream Monitoring Module HP 7500 SSL VPN Module with 500 user License Conn ector RJ 45 SFP RJ 45 RJ 45 RJ 45 SFP RJ 45 Number of interfaces 2 combo interfaces su pport optical electi rcal switching One console port 2 copper ports 2 combo interfaces su pport optical electi rcal switching One console port Interface transmission rate Copper port 10 100 10 OO Mbps half full duplex Fiber port 1000 Mbps full duplex No greater than 115200 bps and defaults to 9600 bps 10 100 1000 Mbps half full duplex Copper port 10 100 10 OO Mbps half full duplex Fiber port 1000 Mbps full duplex No greater than 115200 bps and defaults to 9600 bps e For the transceiver modules available for each LPU see Transceiver modules Available transceiver modules N A Gigabit SFP module N A N A N A Gigabit SFP module N A e Support for some software features depends on the LPU model For more information contact the local agenis e For more information about LSU3WCMDO see HP 70500_ 7500 20G Unified Wired WLAN Module Card Manual e For more information about LSUIFWCEAO see HP 10500 711900 7500 20Gbps VPN Firewall Card Manual e For more information about LSQ 1FWBSCO see HP 7500 VPN Firewall Card Manual e For more information about LSQ1LBSCO se
7. Red The power supply is under voltage output short circuit output over current operating incorrectly output over voltage or over temperature and enters Power supply the protection state status LED e A fan failure has occurred This status has occurred in the following cases A power input e The power supply is faulty Off problem has e A power cord connection problem has occurred occurred e The external power supply is unavailable e The power supply is not switched on 1400W AC power supply status LEDs The 1400W AC power supply provides these red green status LEDs power input LED INPUT power output LED OUTPUT and fan LED FAN 125 Table 81 1400W AC power supply status LED description LED Status _ Description Analysis Geen The power is input N A correctly A power input Red problem has The input voltage is not in the rated voltage range INPUT occurred This status has occurred in the following cases e The power supply is faulty Off No power is input j Ki 4 e A power cord connection problem has occurred e The external power supply is unavailable The power is output Green N A correctly This status has occurred in the following cases e The power supply generates an alarm due to input A power output p pPY 9 ete P under voltage output short circuit output over current Red problem has eccuired output over voltage or over temperature and enters ool l the protection state e The power sup
8. When connecting the power cord make sure the circuit breaker is completely turned off for both the positive and negative lines To connect the DC power cord l Loosen the captive screws on the protection cover with a Phillips screwdriver and remove the protection cover There are two flat washers one spring washer and one M6 fastening nut from inside to outside on each wiring terminal Loosen the captive nuts on four wiring terminals with a M6 socket wrench and remove the captive nut spring washer and one flat washer in turn from each wiring terminal Connect the end of the blue DC power cord marked with to the negative terminal on the power supply Connect the end of the black DC power cord marked with to the positive terminal on the power supply Put the flat washer and spring washer on the wiring terminal in turn and screw up the captive nut with the M6 socket wrench Repeat this step for the other three terminals Put the protection cover on the wiring terminals and faster the captive screws Connect the other ends of the DC power cords to the wiring terminals that provide a power supply to the switch Figure 28 Connecting a DC power cord See 8 Se SOAPoE 190A 1 M6 screw 2 Spring washer pring 3 Flat washer 4 Wiring terminal Setting up a PoE system optional A CAUTION e If you do not use the PoE function verity that the PoE power switch on the power supply is off e To ensure
9. for an HP 7503 switch that has two LSQ1SRPBO MPUs three LSQ1GV48SCO LPUs and one fan assembly the maximum system power consumption of the switch is 2 x 50 3 x 90 27 5 397 5 W PoE power consumption The maximum PoE power consumption depends on the type and number of PoE cards PoE power supply mode supported by each PoE card and the number of ports that support PoE For example if an HP 7503 switch has one LSQ 1GV40PSCO two LSQ1GV24PSC and the MPU does not support PoE the maximum PoE power consumption of the switch is 40 x 15 4 2 x 24 x 15 4 1355 2 W 98 NOTE e The PoE power consumption is O if the switch does not supply PoE power e The maximum PoE power consumption refers to the sum of the power consumption of all PDs when all ports supporting PoE are connected to PDs and the maximum output power is reached e For more information about PoE power supply see Installing FRUs Card power consumption Table 39 Card power consumption Model Minimum static power Maximum dynamic power consumption consumption LSQ1MPUAQO 10 W 15 W LSQ1CGP24TSCO 25 W 45 W LSQ1CGV24PSCO 30 W 60 W LSQ1SRPBO Salience VI 42 W 50 W LSQ1SRPDO Salience VI Plus 50 W 60 W LSQ1SRP1CBO Salience Vl Turbo 53 W 60 W LSQ1SRP2XBO Salience VI 1OGE 55 W 65 W LSQ 1FP48SAO 34 W 85 W LSQIFV48SA0 30 W 35 W LSQ1GP24TSAO 25 W 45 W LSQIGV24PSAO 30 W 60 W LSQ1GV48SA0 60 W 80 W LSQIGP12SCO 26 W 35 W LSQ1GP24SCO 38 W 55 W LSQ1GP48SCO 43 W 85 W LSQIG
10. redundancy Location of the fan tray slot Tee sick i 4 Fan e 7506 V Top front of the chassis very oe ee assembly You do not need to order fan assembly slot e Other 7500 switches Right front of the assemblies chassis Switch and FRU aliases The following tables list the aliases of the 7500 switches and FRUs in this installation guide e Table 26 for 7500 switch chassis e Table 27 for MPUs e Table 28 for LPUs e Table 29 for power supplies e Table 32 for PoE DIMMs e Table 33 for fan assemblies e Table 34 for CF cards Table 26 HP 7500 Switch Series Product code Description Alias JD242B HP 7502 Switch Chassis 7502 JD243B HP 7503 S Switch Chassis 7503 S JD240B HP 7503 Switch Chassis 7503 JD239B HP 7506 Switch Chassis 7506 JD241B HP 7506 V Switch Chassis 7506 V JD238B HP 7510 Switch Chassis 7510 Table 27 MPU models Product code Description Alias JD196A HP 7502 Main Processing Unit LSQ1MPUAO JC697A HP 7502 TAA compliant Main Processing Unit JD220A HP 7510 768 Gbps Fabric Main Processing Unit IUEASQISRPDO JC701A HP 7510 768 Gbps TAA compliant Fabric Main Processing Unit 9 Product code Description Alias HP 7503 S 144 Gbps Fabric Main Processing Unit with 16 GbE RAR SFP Ports and 8 GbE Combo Ports LSQ1CGP24TSCO JC698A HP 7503 S 144 Gbps TAA Fabric Main Processing Unit with 16 GbE SFP Ports and 8 GbE Combo Ports HP 7500 384 Gbps Fabric Main Processing Unit with 2 10 GbE JD1
11. 1G SFP LC LH7O Transceiver HP X120 1G SFP LC LH100 Transceiver HP X120 1G SFP LC BX 10 U The two Transceiver modules must be HP X120 used 1G SFP IC together BX 10 D Transceiver HP X170 1G SFP LC LH7O 1470 Transceiver HP X170 1G SFP LC LH7O 1490 Transceiver HP X170 1G SFP LC LH7O 1510 Transceiver HP X170 1G SFP LC LH7O 1530 Transceiver HP X170 1G SFP LC LH7O 1550 Transceiver HP X170 1G SFP LC LH7O 1570 Transceiver HP X170 1G SFP LC LH7O 1590 Transceiver Central wavelength nm 850 1310 1310 1550 1550 1550 TX 1310nm RX 1490nm TX 1490nm RX 1310nm 1470 1490 1510 1530 1550 1570 1590 116 Fiber diameter um 50 125 62 5 125 9 125 50 125 62 5 125 9 125 9 125 9 125 9 125 9 125 9 125 9 125 9 125 9 125 9 125 9 125 9 125 9 125 Multimode fiber modal bandwidth MHz km 500 400 200 160 N A 500 400 500 N A N A N A N A N A N A N A N A N A N A N A N A N A Maximum transmission distance 550 m 1804 46 ft 500 m 1640 42 ft 275 m 902 23 fi 220 m 721 78 ft 10 km 6 21 miles 550 m 1804 46 ft 550 m 1804 46 ft 40 km 24 86 miles 40 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 70 km 43 50 miles 70 km 43 50 miles 70 km 43 50 miles 70
12. 20 D and the minimum static bend radius is 10 D D indicates the outer diameter of dust caps 137 e If the fiber has to pass through a metallic board hole the hole must have a sleek and fully filleted surface the filleting radius must be not less than 2 mm When passing through a metallic board hole or bending along the acute side of mechanical parts the fiber must wear jackets or cushions e Insert and remove a plug with care Never exert a fierce force to the fiber or plug otherwise the plug might be damaged or the fiber might be broken Never pull press or extrude the fiber fiercely For the allowed maximum tensile load and crush load see Table 89 SFP cable You can use the SFP cables to connect the SFP ports on the 7500 switches The SFP cables available for the HP 7500 Switch Series are 10 Gbps SFP cables as shown in Figure 62 Figure 62 SFP cable 1 Connector 2 Pull latch QSFP cable You can use QSFP cables to connect the QSFP ports Figure 63 QSFP cable 1 Connector 2 Pull latch QSFP to SFP cable A QSFP to SFP cable provides one QSFP connector at one end and four SFP connectors at the other end 138 Figure 64 QSFP to SFP cable 1 QSFP connector 2 QSFP pull latch 3 SFP connector 4 SFP pull latch p 139 Appendix E Cabling recommendations When an HP 7500 switch is mounted in a 19 inch standard rack the intertace cables
13. 22 Command output Field Description Member ID Switch e The ID of the master is prefixed with an asterisk sign e The ID of the switch where you are logged in is prefixed with a plus sign Slot Number of the slot that holds the active or standby MPU The role of an MPU in the IRF virtual device including e Master The active MPU of the IRF fabric also called IRF virtual device Role e Slave The standby MPU of the IRF fabric e SlaveWait The standby MPU of the IRF fabric It is joining the IRF fabric e Loading The standby MPU of the IRF fabric It is loading the system boot file Priority Priority of a member switch CPU MAC Bridge MAC address of the CPU of the switch Description of the member switch is displayed if no description is configured If the description of the member switch exceeds one line three dots are displayed at the end of the line and the rest information is not displayed To view the complete description execute the display current configuration command Bridge MAC of the IRF is Bridge MAC address of the IRF fabric Description The status of the automatic boot file updating function e yes Enabled The IRF fabric automatically synchronizes the boot file of the Auto upgrade master switch to the switch you are adding to the IRF fabric e no Disabled You must manually ensure that the joining switch uses the same boot file as the master switch If not the new switch cannot j
14. 5 Put the removed PoE DIMM on its original shipping materials 6 Install a new PoE DIMM For the installation procedures see Installing FRUs Figure 53 Installing a PoE DIMM 1 Pull the white clips on the two sides of the DIMM outward 2 Pull the PoE DIMM out along the guide rails 86 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 Product serial 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 7 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
15. 59 available for the 7500 switches Table 51 CFP module specifications Maximum ae Central Fiber ee Product code Description transmission wavelength nm diameter um di istance HP X140 40G CFP LC LR4 10 km 6 21 RUA 10km SM Transceiver pa a eae miles Table 52 QSFP module specifications Multimode ae Product Description Connector Fiber ae ae a ani ion code P specifications bandwidth di Istance MHz km HP X140 40G QSFP MULTIMODE 100 m 328 08 FARAR MPO SR4 Transceiver pine 50 125um OM3 new ft Table 53 QSFP cable specifications Product code Description Cable length Remarks HP X240 40G QSFP QSFP Im pe Direct Attach Copper Cable Paice HP X240 40G QSFP QSFP 3m Used for connecting 40 G boa Direct Attach Copper Cable ames QSFP ports HP X240 40G QSFP QSFP 5m ARA Direct Attach Copper Cable a ioaen Table 54 QSFP to SFP cable specifications Product code Description Cable length Remarks HP X240 40G QSFP to 4x10G JG329A SFP 1m Direct Attach Copper 1 m 3 28 ft Splitter Cable HP X240 40G QSFP to 4x10G Used for connecting 40 GE JG330A SFP 3m Direct Attach Copper 3 m 9 84 ft QSFP ports and 10 GE SFP Splitter Cable ports HP X240 40G QSFP to 4x10G JG331A SFP 5m Direct Attach Copper 5 m 16 40 fi Splitter Cable 113 Table 55 XFP modules available for the 7500 switches Multimode Central Fiber _ Product Descrinti wavelength di fiber modal Max transmission Code escription g a bandwidth diante m am MHz k
16. 8 port Gigabit combo interface card 24 port Gigabit electrical Ethernet interface card RJ 45 48 port Gigabit electrical Ethernet interface card RJ 45 PoE 48 port Gigabit electrical Ethernet interface card RJ 45 PoE Plus 8 port 10 Gigabit optical SFP interface card 2 port 10 Gigabit optical Ethernet interface card XFP LC Conn ector RJ 45 RJ 45 RJ 45 RJ 45 RJ 45 104 Number of interfaces 48 12 24 48 24 24 48 48 Interface transmission rate 10 100 1000 Mbps half tull duplex 1000 100 Mbps 1000 100 Mbps 1000 1 00Mbit s 1000 100 Mbps 10 100 1000 Mbps half tull duplex 10 100 1000 Mbps half tull duplex 10 100 1000 Mbps half tull duplex 10 100 1000 Mbps half tull duplex 10 Gbps 10 Gbps Available transceiver modules N A e Gigabit SFP module e 100 Mbps SFP module e Gigabit SFP module e 100 Mbps SFP module e Gigabit SFP module e 100 Mbps SFP module e Gigabit SFP module e 100 Mbps SFP module N A N A N A N A e 10 Gigabit SFP module e 10 Gigabit SFP cable 10 Gigabit XFP module LPU LSQ1GV24PSCO LSQ1P24XGSCO LSQ1IT24XGSCO LSQ1GV40PSCO LSQ1QGS4SCO LSQ1QGC4SCO LSQ1GP24TSDO Description 20 port Gigabit electrical interface RJ 45 4 port Gigabit Combo interface card PoE 24 port Gigabit optical interface SFP LC 2 port 10 Gigabit optical inter
17. 8086 JOU p si 7 o fe i O oO MRU oi F o W H F A 9 1 Middle of the narrower metal area between holes 3 Install six cage nuts on the square holes in each rack post as shown in Figure 6 Figure 6 Installing a cage nut E al E 4 Align the installation holes on the front end of the slide rail with the cage nuts on the front rack post and attach them with screws as shown in Figure 7 Figure 7 Attaching the slide rail to the cage nuts with screws Keep the slide rail horizontally and adjust its length until the installation holes in the rear end of the slide rail touch the cage nuts on the rear rack post Then screw in screws and fasten Insert a screw in each mounting hole of the slide rail to ensure its weight bearing capacity Repeat steps 4 and 5 to install the other slide rail Make sure the two slide rails are at the same height so that the device can be placed on them horizontally Figure 8 Installed slide rails Installing cage nuts Before mounting the chassis to the rack install cage nuts to the front square holed brackets of the rack 1 As shown in Figure 9 determine the positions of the cage nuts according to the holes on the mounting brackets and positions of the slide rails 2 Install cage nuts on
18. A system input power cord connection problem has occurred e The external power supply is unavailable Green The PoE power is input N A correctly Red A PoE power input The PoE input voltage is not in the rated voltage problem has occurred range PoE INPUT This status has occurred in the following cases e The power supply is faulty Off No PoE power is input e A PoE input power cord connection problem has occurred e The external power supply is unavailable 128 LED Status Description Analysis The PoE power is output cin correctly N A This status has occurred in the following cases Red A PoE power output e The PoE output voltage is not in the rated problem has occurred voltage range PoE OUTPUT e The PoE power switch is not turned on This status has occurred in the following cases e The power supply is faulty Ott No PoE power is output e A PoE input power cord connection problem has occurred e The external power supply is unavailable 6000W AC power supply status LEDs The 6000W AC power supply provides these red green status LEDs system power input LED SYS IN system power output LED SYS OUT fan LED SYS FAN power input LED PoE IN1 PoE IN2 and PoE IN3 power output LED PoE OUTPUT and PoE fan LED PoE FAN Table 84 6000W AC power supply status LED description LED Status Description Analysis Green The system power is input N A correctly Red A system power input The system input
19. Address 0000 fc00 7506 Description GigabitEthernet2 0 1 Interface Loopback is not set Media type is not sure Port hardware type is No connector Unknown speed mode unknown duplex mode Link speed type is autonegotiation link duplex type is autonegotiation 65 e Ifthe output includes Media type is twisted pair Port hardware type is IOOO_BASE_T the port is an RJ 45 copper port For example the following output shows that GigabitEthernet 2 0 5 is an RJ 45 1000 BASE T port Sysname display interface GigabitEthernet 2 0 5 GigabitEthernet2 0 5 current state DOWN Administratively IP Packet Frame Type PKTFMT_ETHNT_2 Hardware Address 0000 fc00 7506 Description GigabitEthernet2 0 5 Interface Loopback is not set Media type is twisted pair Port hardware type is 1000_BASE_T Unknown speed mode unknown duplex mode Link speed type is autonegotiation link duplex type is autonegotiation To activate a combo port Step Command Remarks 1 Enter system view system view N A 2 Enter the interface view of interface interface type N A combo SFP or RJ 45 port interface number Required 3 Activate the port ind shutdown The other port in the pair automatically shuts down and transitions to the inactive state Enabling active standby mode for the network ports on MPUs The LSQ1SRP2XB MPU provides Ethernet network ports for forwarding traffic When the 7503 7506 7506 V or 7510 switch has two LSQ 1 SRP2XB MPUs th
20. CPLD 1 Version NA Release Version HP 7503 6620 Patch Version None Table 14 Command output Field Description HP Comware Platform Software The software platform of the switch Software version which comprises software platform name Comware platform version Version 5 20 99 and product release version Release 6620 Comware Software Version 5 20 99 Release 6620 HP 7503 uptime is O week O day 6 hours Displays how long the switch has been running since the last 57 minutes reboot Card type and card slot MPU M 1 e MPU M Active MPU LPU x MPU S Standby MPU e LPU Line processing unit Displays how long the card has been running since the last Uptime is O weeks O days 1 hours 23 minutes reboot HP 7503 MPU M with 1 BCM1125H CPU type of the card Processor BOARD TYPE Card model DRAM Memory size of the card FLASH Flash size of the card NVRAM Nonvolatile random access memory NVRAM size of the card PCB 1 Version Version of PCB 1 on the card Bootrom Version Boot ROM version of the card CPLD 1 Version Complex programmable logical device CPLD 1 version of the card Release Version Software version of the card Patch Version Patch version of the card Displaying switch running information For diagnosis or troubleshooting you can use separate display commands to collect running status data module by module or use the display diagnostic information command to bulk collect running data for 57
21. CPU usage statistics Use the display cpu usage command to display card CPU usage statistics lt Sysname gt display cpu usage Slot 0 CPU usage 2 in last 5 seconds 1 in last 1 minute 1 in last 5 minutes Slot 1 CPU usage 1 in last 5 seconds 1 in last 1 minute 1 in last 5 minutes Slot 2 CPU usage 3 in last 5 seconds 2 in last 1 minute 2 in last 5 minutes Slot 4 CPU usage 2 in last 5 seconds 2 in last 1 minute 2 in last 5 minutes Slot 5 CPU usage 3 in last 5 seconds 2 in last 1 minute 2 in last 5 minutes Slot 6 CPU usage 2 in last 5 seconds 2 in last 1 minute 2 in last 5 minutes 62 Table 17 Command output Field Description CPU usage of the card in slot x Slot x CPU usage If the card has multiple CPUs Slot x CPU usage shows statistics for the primary CPU Slot x CPU 1 CPU usage shows statistics for the secondary CPU 1 in last 5 seconds The average CPU usage for the last five seconds 1 in last 1 minute The average CPU usage for the last minute 1 in last 5 minutes The average CPU usage for the last five minutes Displaying card memory usage statistics Use the display memory command to display the memory usage of the active MPU lt Sysname gt display memory System Total Memory bytes 435927120 Total Used Memory bytes 100618856 Used Rate 23 Use the display memory slot slot number command to display the memory usage of a card lt Sysname gt displ
22. HP 7500 48 port 1OOOBASE T PoE SC TAA compliant Module JD228B HP 7500 40 port Gig T 8 port GbE SFP PoE upgradable SC Module HP 7500 40 port Gig T 8 port GbE SFP PoE upgradable SC LSQ 1GV40PSCO JC710A TAA compliant Module JD223A HP 7500 16 port GbE SFP 8 port GbE Combo SC Module LSQ1GP24TSCO JD211B HP 7500 48 port GbE SFP SC Module LSQ1GP48SCO 92 Product code Description Alias JF290A HP 7500 8 port 10 GbE SFP SC Module LSQ1TGS8SCO JC723A HP 7500 8 port 10 GbE SFP SC TAA compliant Module ICO69A HP 7500 20 port Gig T 4 port GbE Combo PoE upgradable SC 1SQ1GV24PSCO Module JC792A HP 7500 4 port 4OGbE QSFP SC Module LSQ1QGS4SCO0 JG373A HP 7500 4 port 4OGbE CFP SC Module LSQ1QGC4SCO JD191A HP 7500 8 port 10 GbE XFP SD Module LSQ1TGX8SDO JC713A HP 7500 8 port 10 GbE XFP SD TAA compliant Module JD229B HP 7500 48 port Gig T PoE SD Module LSQ1GV48SDO JC712A HP 7500 48 port Gig T PoE SD TAA compliant Module JD230A HP 7500 24 port GbE SFP 2 port 10 GbE XFP SD Module HP 7500 24 port GbE SFP 2 port 10 GbE XFP SD TAA compliant LSQUGP24TXSDO JC714A Module JD236A HP 7500 2 port 10 GbE XFP SD Module LSQ 1TGX2SD0 JD234A HP 7500 16 port GbE SFP 8 port GbE Combo SD Module HP 7500 16 port GbE SFP 8 port GbE Combo SD TAA compliant LSQ1GP241SD0 JC718A Module JD235A HP 7500 4 port 10 GbE XFP SD Module LSQITGX4SDO JC719A HP 7500 4 port 10 GbE XFP SD TAA compliant Module JD237A HP 7500 48 port GbE SFP SD Module LSQ1GP48SDO JC721A HP 7500
23. HP X290 14 pin Mini Fit to 2 x OT Copper Lug 1m RPS Power Cable JG333A HP X210 JG2 to T50 3m DC 2 Power Cables DC Power Cables JG332A RPS Power Cable Table 32 PoE DIMM models Product code Description Alias JD192B HP 7500 48 port PoE DIMM 48 port PoE DIMM JC671A HP 7500 24 port PoE DIMM 24 port PoE DIMM Table 33 Fan assembly models Product code Description Alias JD212A HP 7503 Spare Fan Assembly 7503 Fan JD213A HP 7502 Spare Fan Assembly 7502 Fan JD214A HP 7506 Spare Fan Assembly 7506 Fan JD215A HP 7506 V Spare Fan Assembly 7506 V Fan JD216A HP 7510 Spare Fan Assembly 7510 Fan JC672A HP 7503 S Spare Fan Assembly 7503 S Fan 94 Table 34 CF card models Product code Description Alias JC686A HP X600 256M Compact Flash Card CF 256M JC685A HP X600 512M Compact Flash Card CF 512M JC684A HP X600 1G Compact Flash Card CF 1G Weights and dimensions Table 35 Chassis weights and dimensions Dimensions Model Weight ee a ee Height Width Depth 7502 lt 15 kg 33 07 Ib 175 mm 6 89 in 4RU 436 mm 17 17 in 420 mm 16 54 in 7503S lt 15 kg 33 07 Ib 175 mm 6 89 in 4RU 436 mm 17 17 in 420 mm 16 54 in 7503 lt 30 kg 66 14 lb 441 mm 17 36 in 10 RU 436 mm 17 17 in 420 mm 16 54 in 7506 lt 40 kg 88 18 lb 575 mm 22 64 in 13 RU 436 mm 17 17 in 420 mm 16 54 in 7510 lt 45 kg 99 21 b 708 mm 27 87 in 16 RU 436 mm 17 17 in 420 mm 16 54 in 7506 V A kg 110 23 940 mm 36 61 in 21 RU o
24. Holding the power supply handle with one hand and supporting the bottom of the power supply with the other gently pull the power supply out as shown in callout 2 on Figure 48 Put the removed power supply on the antistatic mat Install a new power supply For the installation procedures see Installing FRUs Atter removing the power supply if you do not install a new power supply install a blank panel As shown in callout 3 on Figure 48 align the screws on the blank panel with the screw holes on the switch and then use a screwdriver to fasten the screws on the blank panel Figure 48 Removing the power supply Loosen the captive screw 2 Pull the power supply out 3 Fasten the screw on the blank panel optional Replacing a card The card replacement procedures for the 7500 Switch Series are the same Remove the cables on an MPU or LPU before removing the MPU or LPU To replace a card l 2 Prepare an antistatic mat to place the removed card Wear an ESD wrist strap and make sure it makes good skin contact and is well grounded For more information see Installing FRUs Use a Phillips screwdriver to remove the captive screw on the card as shown in callout 1 on Figure 49 Move the ejector levers outwards to separate the card from the backplane as shown in callout 2 on Figure 49 80 5 Use one hand to slowly move the card outwards Supporting the bottom of the card with the other hand pull the card o
25. Master Type LSOLSRP2ZXB Software Ver 7500 6620 PCB 1 Ver VER B PCB 2 Ver VER B FPGA Ver 001 BootRom Ver 301 CPLD 1 Ver 006 58 CPLD 2 Ver Slot 1 info Status Type Software Ver PCB 1 Ver PCB 2 Ver FPGA Ver BootRom Ver CPLD 1 Ver CPLD 2 Ver Slot 2 info Status Type Software Ver PCB 1 Ver FPGA Ver BootRom Ver CPLD 1 Ver Chip Learning Mode Chip Learning Mode Slot 4 info Status Type Software Ver PCB 1 Ver FPGA Ver BootRom Ver CPLD 1 Ver Chip Learning Mode Chip Learning Mode Slot 6 info Status Type Software Ver PCB 1 Ver FPGA Ver BootRom Ver CPLD 1 Ver Chip 006 Slave LSQ1ISRP2XB 150 0 66020 VER B VER B 001 oO 006 006 Normal LSQIGV48SA 1500 6620 VER eG 001 205 003 0 IVL IVL Normal LSQIFV48SA TIO O0S6G620 VER C 001 205 004 O IVL IVL Normal SRP2XBSLAVE 7500 6620 VER 0 001 205 006 O 59 Learning Mode Slot 6 info Status Type Software Ver PCB 1 Ver FPGA Ver BootRom Ver CPLD 1 Ver Chip Learning Mode IVL Normal SRP2XBSLAVE 7500 6620 VER O 001 203 006 0 IVL e Use the display device slot slot number command to display detailed information about a card lt Sysname gt display device slot 0 Slot 0 info Status Master Type LSQISRP2XB Software Ver 7500 6620 PCB 1 Ver VER B PCB 2 Ver VER B FPGA Ver 001 BootRom Ver 301 CPLD 1 Ver 006 CPLD 2 Ver 006 Table 1
26. Salience VI 10GE LPUs Table 45 LPUs available for the 7500 switches LPU LSQIFP48SA0 LSQIFV48SA0 LSQ1IGP24TSAO LSQ1GV24PSA0 Description 48 port 100 Mbps optical Ethernet interface card SFP LC 48 port 100 Mbps electrical Ethernet interface card RJ 45 PoE 16 port Gigabit optical Ethernet interface SFP LC 8 port Gigabit combo interface card 20 port Gigabit electrical interface RJ 45 4 port Gigabit Combo interface card PoE Conn ector RJ 45 RJ 45 RJ 45 103 7503 Number of interfaces 48 48 24 24 7506 7510 Interface transmission rate 100 Mbps 10 100 Mbps half tull duplex 1000 100 Mbps 10 100 1000 Mbps half tull duplex 10 100 1000 Mbps half tull duplex 1000 100 Mbps 7506 V Available transceiver modules 100 Mbps SFP module N A e Gigabit SFP module e 100 Mbps SFP module N A N A e Gigabit SFP module e 100 Mbps SFP module LPU LSQ1GV48SA0 LSQ1GP12SCO LSQ1GP24SCO LSQ1GP48SCO LSQ1GP24TSCO LSQ1GT24SCO LSQ1GV48SCO LSQ3GV48SCO LSQITGS8SCO LSQITGX2SCO Description 48 port Gigabit electrical Ethernet interface card RJ 45 PoE 12 port Gigabit optical Ethernet interface card SFP LC 24 port Gigabit optical Ethernet interface card SFP LC 48 port Gigabit optical Ethernet interface card SFP LC 16 port Gigabit optical Ethernet interface SFP LC
27. Switch Series depends on the card model and state Table 39 shows the power consumption for different card models The static power consumption of a card refers to the power consumed by the card when the card is running but all ports on the card are down and when no transceiver module is available on the fiber interface of the card The dynamic power consumption of a card refers to the power consumed by the card when all the ports on the card are link up and send broadcasts Fan assembly power consumption The 7500 Switch Series except the 7503 S uses fan assemblies that can automatically adapt the fan rotating speed to the heat output The power consumed by a fan assembly depends on the fan speed Table 40 shows the power consumption of different fan assemblies System power consumption The system power consumption of an HP 7500 switch depends on the type and number of cards and the fan assembly power consumption The minimum system power consumption is the total static power consumption of all cards plus the minimum fan assembly power consumption For example for an HP 7503 switch that has two LSQ1SRPBO main processing units MPUs three LSQ1GV48SCO line processing units LPUs and one fan assembly the minimum system power consumption of the switch is 2 x 42 3 x 60 15 5 279 5 W The maximum system power consumption is the total dynamic power consumption of all cards plus the maximum fan assembly power consumption For example
28. The power supplies 650W AC 650W DC 300W AC and 300W DC for the 7502 and 7503 S do not support PoE To enable PoE on these switches use an external PoE power supply for example A RPS800 For how to connect an external PoE power supply see Connecting an external PoE power supply e To implement PoE on the 7503 7506 7506 V or 7510 you can select power supplies supporting PoE For description of the power supplies supporting PoE see Table 10 Table 10 Power supplies supporting PoE Power supply Separate PoE power Power cord connection PoE maximum power output model cord rocedure 1400W DC 6720 W No sora the 1400W DC 1150 W 110 V 2800W AC ee Connecting a 2800W AC 1400 W 220 V power cord 1200 W 110 V One line input 1800 W 220 V 2400 W 110 V l 6000W AC Two ine input Yes o a 6000W AC 3600 W 220 V power cor Testing eee input 5300 W 220 V Installing a PoE DIMM The PoE DIMM installed on a card can implement the PoE function It falls into HP 7500 24 port PoE DIMM JC671A and HP 7500 48 port PoE DIMM JD192B 33 Installing an HP 7500 24 port PoE DIMM JC671A N CAUTION e Avoid touching the components on the PoE DIMM and PCB during installation and removal of a PoE DIMM e If no PoE DIMM is in place or the module is not fully seated the interface card cannot supply power though other functions work well HP 7500 24 port PoE DIMM JC671A is applicable to LSQICG
29. Use QSFP transceiver modules and fibers for long haul connection or use QSFP cables to connect QSFP ports for short haul connection e The transceiver modules at the two ends of an IRF link must be the same type 43 For more information about installing transceiver modules see Installing FRUs For more information about connecting fibers see Connecting your switch to the network Figure 37 Connecting two IRF member switches Veritying the IRF tabric contiguration After you finish configuring basic IRF settings and connecting IRF ports verify the basic functionality of the IRF fabric as follows 1 Log in to the IRF fabric through the console port of any member switch 2 Create a Layer 3 interface assign it an IP address and make sure the IRF fabric and the remote network management station can reach each other a Use Telnet or SNMP to access the IRF fabric from the network management station See HP 7500 Switch Series Fundamentals Configuration Guide 4 Verity that you can manage all member switches as if they were one node 5 Display the running status of the IRF fabric by using the commands in Table 11 Table 11 Displaying and maintaining IRF configuration and running status Task Command Display information about the IRF fabric display irf Display topology information about the IRF fabric display irf topology NOTE To avoid IP address collision and network problems contigure at least one MAD me
30. assembly seteeerrettteerrrrsteeerrsrtttesssssttesrsssstteeessssttesssssrteersssstteeessstteeereesssnteeeesssstteeens 8 Replacing the fan assembly of other Moclels lt r sssssstsseteetseetsseeeocensesssecseecnreesssessnssesssssessoensessscessosnseessscessoeneseesss 83 Replacing a CF cardiesetteereretteeeerrettteeeesettteeesssstteeessssttteeesssstteeesssstteeesssstteeessssteeesssstteeesssstteeesssttteeeesessssteeesssstteeessnss 84 Replacing a transceiver module eeeeeeeeeseeseeseeseeeeeeeeeeeeseeseesreressessesseeereseeseeseoseosroseoseeseesresseeseosresresresrosresreseeseeseessesseeseenee 85 Replacing an XFP SFP SFP QSFP module vr eseecesesesssesesseesseseenentennenenneneacnsnnsnnsssensensnnsaneaneensensens 85 Replacing a CFP module vrrsssssseeseseseetesteseesteneesseateanenseaseansaneateatsaneaseaeeaseaseaseassaneassansancensnnsenccncensenseaseny 85 Replacing an SFP QSFP QSFP to SFP cable teetrerretteererrttreereerestteersssrtesessssstteeesntreeenssssrteeesssssssneeens 85 Replacing the PoE DIMM vrrsssssssssssessssstestsstsssessesseseeaseneeaeeneeaseateateatsateateassassassateaseassnseaseaecacansnnsasencnnccncenscnsenessstecs 86 Support and other aatcvol 0 ce RRR REECE EEO EO OOO EO Cer eeer eee er eee rere eererreerreererr ieee errerreererreer reer erreereeeee 87 Contacting HP cceececesecececccccccecscsvcvceceeeesseseseseseseseseeeeeseseseseses sees eens erases eeeeees esas es erases esas es eeee es erases esse eee es esas erases eres esse ee eeenesese
31. chassis slowly and never move suddenly ESD prevention To prevent electric components from being damaged by electrostatic discharge ESD follow these guidelines e Ground the switch correctly For how to ground your switch see Installing the switch e Always wear an ESD wrist strap and make sure it is well grounded when installing FRUs For how to use an ESD wrist strap see Installing FRUs e Hold a PCB by its edges Do not touch any electronic components or printed circuit e Put cards away in ESD bags for future use Laser safety A WARNING Do not stare into any fiber port when the switch has power The laser light emitted from the optical fiber might hurt your eyes The 7500 switches are class 1 laser products Examining the installation site The 7500 switches must be used indoors To ensure normal operation and long service life of your switch the installation site must meet the requirements in this section Floor loading Make sure the floor can support the total weight of the rack chassis cards power supplies and all other components Additionally the floor loading plan must also consider system expansion such as adding more cards Temperature A CAUTION It condensation appears on the chassis when you move it to a high temperature environment dry the chassis before powering it on to avoid short circuits To guarantee the normal operation of the switch the room temperature must meet the r
32. e Three PoE inputs 5300 W 109 NOTE The rack unit RU specities the rack height and 1 RU is 44 45 mm 1 75 inch e Make sure the total maximum output power of the ordered power supplies is greater than the overall power consumption HP recommends that you reserve 20 of the maximum output power e Ifthe switch is expected to supply power for attached devices through PoE order a power supply that can be used for setting up a PoE system depending on the switch model and make sure the maximum PoE output power of the power supply is greater than the PoE power consumption NOTE e For more information about installing power supplies see Installing FRUs e For more information about the overall power consumption and PoE power consumption see Appendix A Chassis views and technical specifications e For more information about supplying power through PoE see Installing FRUs Table 47 Power supply and chassis compatibility matrix Power supply 7502 7503 S 7503 7506 7506 V 7510 300W AC 300W DC 6 a 650W AC z 650W DC 1400W AC 1400W DC 2800W AC 6000W AC Fan assembly All 7500 switches come with a fan assembly installed When you replace the fan assembly on your 7500 switch use Table 48 to check for incompatibility Table 48 Fan assemblies available for the 7500 switches
33. km 43 50 miles 70 km 43 50 miles Multimode Product ae wae h riper fiber modal amy m Description wavelengt diameter bandwidth transmission Code u j andwidt dist m Istance nm MHz km HP X170 1G SFP LC JD112A 1H70 1610 Transceiver 610 9 125 N A 70 km 43 50 miles NOTE The 100 1000 Mbps SFP port of a combo interface does not support transceiver module JDO89B Table 59 100 Mbps SFP modules available for the 7500 switches Product Code JD102B JD120B JDO9OA JDOIIA JD100A JDIOIA Description HP X115 100M SFP LC FX Transceiver HP X110 100M SFP LC LX Transceiver HP X110 100M SFP LC LH40 Transceiver HP X110 100M SFP LC LH80 Transceiver HP X110 100M SFP LC BX 10 U The two Transceiver modules must be HP X110 100M SFP ced in LC BX 10 D sie Transceiver Central wavelength nm 1310 1310 1310 1550 TX 1310 RX 1550 TX 1550 RX 1310 Fiber diameter um 50 125 62 5 125 9 125 9 125 9 125 9 125 9 125 Maximum transmission distance 2 km 1 24 miles 15 km 9 32 miles 40 km 24 86 miles 80 km 49 71 miles 15 km 9 32 miles 15 km 9 32 miles 117 Appendix C LEDs The HP 7500 Switch Series provides various LEDs for you to check the status of MPUs LPUs and power supplies Table 60 shows the supported LEDs NOTE The HP 7500 Switch Series supports various MPU and LPU models The type and quantity of LEDs var
34. m 984 25 ft 50 125 500 82 m 269 03 ft HP X130 10G SFP JDO92B IC SR Transceiver 850 400 66 m 216 54 ft as eas 200 33 m 108 27 ft 160 26 m 85 3 ft 1500 _ 0 220 m 721 78 ft 50 125 5 HP X130 10G SFP JDO93B LC LRM Transceiver 1310 400 100 m 328 08 ft 200 62 5 125 220 m 721 78 ft 160 JDO94B ene ao 9 125 N A 10 km 6 21 miles LC LR Transceiver HP X130 10G SFP JG234A LC ER 40km 1550 9 125 N A i ol ence Transceiver bees Table 57 SFP cables available for the 7500 switches sae Cable a Product Code Description Cable length i Description HP X240 10G SFP SFP 1 2m Direct JDO96C Atoch Copper Coble 1 2 m 3 94 fi Used for ID097C HP X240 10G SFP SFP 3m Direct Attach 3 m 9 84 fi SFP E Copper Cable cable SFP ports IG081C HP X240 10G SFP SFP 5m Direct Attach 5 m 16 40 fi Copper Cable Table 58 Gigabit SFP modules available for the 7500 switches Central Multimode Product m wavelengths Fiber fiber modal maxi 3 Code Description g diameter bandwidth transmission nm um MHz km distance poon ae er NA A A 100 m 328 08 fi Transceiver twisted pair 115 Product Code JD118B JD1 19B JDO61A JDO62A JDO63B JD103A JDO98B JDO99B JD113A JDI14A JD1 15A JD1 16A JD109A JD1 10A JD111A 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
35. port to be used trom the Connect using list and click OK Figure 40 Selecting the serial port used by the HyperTerminal connection 4 Set Bits per second to 9600 Data bits to 8 Parity to None Stop bits to 1 and Flow control to None and click OK 47 Figure 41 Setting the serial port parameters 5 Select File gt Properties in the HyperTerminal window Figure 42 HyperTerminal window aaa HyperTerminal E Connected 0 00 45 Auto detect Auto detect ears Num 4 48 6 On the Settings tab set the emulation to VT100 and click OK Figure 43 Setting terminal emulation in Switch Properties dialog box Connect To Settings Function arrow and ctrl keys act as f Terminal keys Windows keys Backspace key sends f ChleH Del CtritH Space Ctr H Terminal Setup Telnet terminal ID YT OU Backscroll buffer lines 500 Play sound when connecting or disconnecting Input Translation ASC Setup Cancel Powering on the switch Before powering on the switch confirm the following e You know where the power switch of the equipment room is located e The switch has been steadily mounted e All the cards have been correctly installed e All the communication cables fibers power cords and grounding cables have been correctly connected e The voltage of power supply can meet the requirements of the switch e The console cable has been correctly conne
36. shutdown command to bring up the port e After a port fails if the switch has an idle port of the same type you can plug the cable into the idle port Verify that the speed and duplex settings of the ports of a link are the same Make sure two ports can work together CF card failure The MPU provides a CFS LED When the CF card operates correctly the CFS LED is on If the CFS LED is off the CFD card fails To troubleshoot the CF card 1 2 Verify that the MPU is operating correctly For more information see MPU failure If the CF card fails because you execute the umount command you can execute the lt Sysname gt mount cfa0 command in user view to re mount the CF card Verify that the CF card is fully seated If you have a backup CF card replace the current CF card with it to examine whether the current CF card fails For more information see Replacement procedures After the replacement if the CFS LED is on you can be sure that the previous CF card fails PoE system failure If the switch cannot supply power for a PD attached to the switch troubleshoot the PoE system as follows 1 Make sure you have set up the PoE system for the switch as follows use the PoE capable switch and LPUs use the PoE capable power supply system and configure the PoE dualin line memory DIMM modules for LPUs except LEQ3GV48SCO0 and LSQ1GV48SDO For more information see Installing FRUs Make sure the PoE system can provi
37. steady operation of the switch when the switch uses a 1400W DC to supply PoE power if the total power consumption of the switch the system power consumption plus the PoE power consumption is greater than 3300W use the 1 0 AWG cable with 53 mm or 0 08 in cross section HP recommends that you order the HP X210 JG2 to T50 3m DC 2 Power Cables JG333A For more information about the cables see Appendix B FRUs and compatibility matrixes e When the switch uses a 1400W DC to supply PoE power you can monitor the working status of the external power supply through the PoE power monitoring port The PoE power monitoring port is an RS 485 compliant port You can select an RS 485 compliant connection method according to the monitoring port type When you use a 48 V DC power supply you do not need to monitor the working status of the external power supply e When the switch uses a 6000W AC to supply PoE power make sure the input voltage for the system power input PoE 1 PoE 2 and PoE 3 are the same It can be either 110 VAC or 220 VAC for power supplies of the power supply Requirements Power over Ethernet PoE enables a power sourcing equipment PSE to supply power to powered devices PDs from Ethernet interfaces through twisted pair cables Commonly used PDs include IP telephones wireless LAN access points APs and web cameras The following PoE types are available Type 1 Power delivered by a single port O to 15 4
38. text For Boldface example the New User window appears click OK gt Multi level menus are separated by angle brackets For example File gt Create gt Folder Symbols Convention Description An alert that calls attention to important information that if not understood or followed can A WARNING result in personal injury A An alert that calls attention to important information that if not understood or followed can CAUTION result in data loss data corruption or damage to hardware or software O 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 88 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 Represents an access controller a unified wired WLAN module or the switching engine on a unified wired WLAN switch Represents an access point Represents a security product such as a firewall a UTM or a load balancing or security card that is installed in a device Represents a security card such as a firewall card a load balancing card or a NetStream card 6096 GE Port numbering in examples The p
39. the square holes on each rack post as shown in Figure 6 Figure 9 Installing cage nuts 7503 as an example e F d E Wad GO O wO OOO ORO OR OOD OORMO ORR OBB BeBe BnOeeoOeeeue 1 1 i i L C i i i 2 S o o o 2 i t E ee ee ee ee ee ee eee eee eee l 0 ii I eee 1 Cage nut Installing mounting brackets and cable management brackets Betore installing the switch to the rack install the mounting brackets and cable management brackets shipped with the switch Cable management brackets signal cable and power cable management brackets are used for cabling the switch and mounting brackets are used for attaching the chassis to the rack e 7506 V Install the mounting brackets and cable management brackets separately to the chassis For more information see Installing the cable management brackets on the 7506 V and Installing mounting brackets e Other models lInstall the cable management brackets to the mounting brackets and then install the mounting bra
40. the switch does not authenticate the console login user at an AUX interface To increase system security and enable remote management e Configure remote access services for example Telnet or SSH e Configure authentication on each user interface including the AUX interfaces Contiguring authentication on a user interface You can configure authentication on a user interface to control access to the switch Table 12 describes the Telnet login authentication methods available for a VTY user interface 50 Table 12 Telnet login authentication methods Authentication Feature Application scenarios method saa Easy to configure allows any user to Telnet Lab environments and extremely secure to your switch and lowest in security network environments Easy to configure allows any user knowing the password to telnet to your switch high in Environments that do not need granular Password security but incapable of assigning different privilege management privilege levels to different users Complex to configure allows users inputting the correct username and password to Telnet to your switch high in security and capable of assigning different privilege levels to different users Username and password Environments where multiple operators cooperate to manage the switch For more information about login methods see HP 7500 Switch Series Fundamentals Configuration Guide Contiguring the basic access function
41. voltage is not in the rated voltage e problem has occurred range SYS IN This status has occurred in the following cases e The power supply is faulty Off No system power is input e A system input power cord connection problem has occurred e The external power supply is unavailable The system power is output Green N A correctly This status has occurred in the following cases e The power supply generates an alarm due to A system power output output short circuit output over current output oa ystem p p p p p roblem has occurred over voltage or over temperature and enters p g p SYS OUT the protection state e The system power switch is not turned on This status has occurred in the following cases e The power supply is faulty Off No system power is output e A system input power cord connection problem has occurred e The external power supply is unavailable 129 LED Status Description Analysis The fans are operating Green N A correctly ae This status has occurred in the following cases Red oe ee e A fan failure has occurred incorrectly e The system power switch is not turned on SYS FAN This status has occurred in the following cases e The power supply is faulty Ott The fans do not work e Asystem input power cord connection problem has occurred e The external power supply is unavailable Bake The PoE power PoE1 is N A input correctly Red A power input problem has The input voltag
42. 100 240V 50 60Hz 16A 5 1 Captive screws 2 Power switch O for off and for on 3 Status LEDs 4 AC receptacle 5 Hole for fixing a cable tie 6 Power supply handle To connect the AC power cord Make sure of the power cord model the 1400W AC uses a 16 A AC power cord Plug the power cord to the power receptacle on the power supply and ensure a good contact Secure the power cord to the power supply handle by using a cable tie as shown in Figure 22 Plug the other end of the power cord to the AC power receptacle of the power source Turn on the power switch SS Se S Examine the power supply input status LED If the LED is green the power cord is correctly connected If the LED is off or red examine the installation and solve the problem Then switch on the power supply to verity that the LED is green For description of 1400W AC status LEDs see Appendix C LEDs 25 Figure 22 Connecting an AC power cord Connecting a 2800W AC power cord The 2800W A is a built in power supply with AC input and DC output The 2800W AC power supply can provide the switch with both system power and PoE power which can be controlled through separate switches Before connecting power cord make sure the system power switch PoE power switch both are in the off position The 2800W AC provides the system power receptacle callout 2 and the PoE power receptacle callout 5 26 Figure 23 Panel view of the 2800W AC 00 240V
43. 48 port GbE SFP SD TAA compliant Module JD221A HP 7500 48 port GbE SFP EB Module LSQ1GP48EBO JD231A HP 7500 16 port GbE SFP 8 port GbE Combo EB Module HP 7500 16 port GbE SFP 8 port GbE Combo EB TAA compliant LSQUGP24TEBO JC715A Module JD232A HP 7500 4 port 10 GbE XFP EB Module LSQITGX4EBO JC716A HP 7500 4 port 10 GbE XFP EB TAA compliant Module JD233A HP 7500 2 port 10 GbE XFP EB Module LSQ1TGX2EBO JG639A HP 10500 7500 20G Unified Wired WLAN Module ee LSUSWCEMDO JG645A HP 10500 7500 20G Unified Wired WLAN TAA compliant Module JG372A HP 10500 11900 7500 20Gbps VPN Firewall module LSU 1 FWCEAO JD249A HP 7500 VPN Firewall Module LSQ 1 FWBSCO JD252A HP 7500 Load Balancing Module LSQILBSCO JD254A HP 7500 NetStream Monitoring Module LSQINSMSCO JD253A HP 7500 SSL VPN Module with 500 user License LSQ1SSLSCO 93 Table 29 Power supply models Product code Description Alias JD218A HP 7500 1400W AC Power Supply 1400W AC JD208A HP 7500 1400W DC Power Supply 1400W DC JD217A HP 7500 650W AC Power Supply 650W AC JD209A HP 7500 650W DC Power Supply 650W DC JD226A HP 7502 300W AC Power Supply 300W AC JD225A HP 7502 300W DC Power Supply 300W DC JD219A HP 7500 2800W AC Power Supply 2800W AC JD227A HP 7500 6000W AC Power Supply 6000W AC Table 30 Mounting accessories Product code Description Alias ICO65A HP X421 A Series Chassis Universal 4 Post Rack Rack Mounting Ki Mounting Kit Table 31 DC cables Product code Description Alias
44. 5 Command output Field Description S Slot No Brd Type Type Brd Status Status Subslot Num Sft Ver Software Ver Patch Ver PCB 1 Ver FPGA Ver BootRom Ver CPLD 1 Ver Chip Slot numker of the card Card model If this field is NONE no card is in the slot Running status of the card e Master The card is an active MPU e Slave The card is a standby MPU e Absent No card is in the slot e Fault The card is booting or the card has failed e Normal tThe card is an LPU that is correctly operating The maximum number of sub cards supported by the card Software version of the card Patch version of the card If this field is NONE no patch is installed on the card Version of PCB 1 on the card FPGA version of the card Boot ROM version of the card Version of CPLD 1 on the card Chip number of the card 60 Field Description MAC learning mode of the card Learning Mode e Independent VLAN learning IVL e Shared VLAN learning SVL Displaying electronic label data e Use the display device manuinfo command to display the electronic label data for a card lt Sysname gt display device manuinfo Slot 0 DEVICE_NAME HP 7500 384Gbps Fab MPU w 2p 10 GbE XFP JD193B DEVICE_SERIAL_NUMBER CN12D4W123 MAC ADDRESS 1234 5678 9123 MANUFACTURING_DATE 2011 2 24 VENDOR_NAME HP Slot 1 DEVICE_NAME gt HP 7500 384Gbps Fab MPU w 2p 10 GbE XFP JD193B DEVICE_SERIAL_NUMBER CN12D4W456 MAC_A
45. 50 60hz 16A INPUT OUTPUT AN PoE INPUT PoE OUTP LT 4100 240V SOMGOLZ AGA 1 Captive screws 2 System power receptacle 3 Power switch O for off and for on 4 Status LEDs 5 PoE power receptacle 6 PoE power switch O for off and for on 7 Hole for fixing a cable tie 8 Power supply handle The power cord connection procedures are the same for the system power receptacle and PoE power receptacle of the 2800W AC power supply This section takes the system power receptacle for example To connect the AC power cord to the system power receptacle of the power supply 1 Make sure of the power cord model the 2800W AC uses a 16 A AC power cord 2 Plug the power cord to the system power receptacle on the power supply and ensure a good contact Secure the power cord to the power supply handle by using a cable tie as shown in Figure 24 Plug the other end of the power cord to the AC power receptacle of the power source Turn on the power switch e m e p Examine the power supply input status LED If the LED is green the power cord is correctly connected If the LED is off or red examine the installation and solve the problem Then switch on the power supply to verity that the LED is green For description of 2800W AC status LEDs see Appendix C LEDs 2 Figure 24 Connecting an AC power cord Connecting a 6000W AC power cord The 6000W AC power supply is a built in power supply with
46. 74 Troubleshooting methogds eeeeeeeeeeeeeeeeeeereseeseeseeseeseeseeseeseoseosseseeseessesseeeeeseoseeseoseoseoseeseeseeseesresreseeesreseeseesresrosresreseesresreeeeesee 74 Troubleshooting the system E E T 74 Troubleshooting on startup A E 74 Troubleshooting the switch during operation EAE E re ean E E ale eretslned dieu A E E S 75 Power supply system failure sesretteeeeteetteereestttereesttesessstttesesssstteeessstttesessttteeessssttensssstteeesssssstteeesnsstteeesssstteeeessnstteeessnss 75 Fan failure eeeeeeeeeeerereseeeseeeeeesereseeeseeseeeseesereseeeseesseesereseeeseeesroseresereseeeseesereserseceseeesreseroseseesresereseresecesreseresereseceseeeseesereseeeseee 76 E A a T A E E E A A N T E E 76 UI Fecal a A E E E E seoneatseuenmtenenieunedds 76 ek ee ee E N E A OEE T N E 77 CF card failure ereeeeeeeeeeeseeeseeeseeseesereseeeseesseeseeeseeeseesseosecoseceseeeseeseeoseeseceseeesreseresereseeeseeseresseceseesseesereseceseeserosereseceseesseeseeesee 78 PoE system failure eeeeeeeeeetteeeeretttteererrstteeessstteeeessttteeessrtteeesssstteeesssstteeessssntteeesssstteeessssteteeesssttteeesssstteeessstteeeessnstteeensnss 78 Replacement procedures E E AE E E E E E E T E E T E ee T 79 Replacing a power supply EEE E E E E E E T 79 Replacing fo cargeeeeeeeeeeeeeeeeeeeereseeseeseeseesseeeeeeresresresroseosrosroseeseessesseereesresreseesrosroresseereesresresresresresresresrereseesesreseeseeseeseeeseesee 80 Replacing a fan assembly a E E E 8 Replacing an 7506 V fan
47. 87 Subscription SEFV CE REECE EE OEO SEES SEO Oeee ete rere rete reee reer reerreer reer tere eerreerretrrreee rrr reerreerreerreeereerreeern 87 Related information eeeeeeeeeeeererereersereeeereresereseeseeeseesereseeeseesseeseeeseeeseeeseeserosereseeeseeseroseresreeseessecseresecesressresereseeeseesseesereseeeseee 87 Documents seeeeeseseseeseseseeseseseesceeceeseseeeeseseeeesoseeeesoseeeeseseceeseseceeseseceesseseseesesoreeeesoseesesoseeseseeesosecsesoseceesoseeeeseeeeseseseeeeses 87 Websipesseeeeeeeeeeeeeeeeeeeeeeseeseeseeseeseeseeneeeeeeeseeseeseoseoseesressessesreseeescesrosresrosresesressesseorrosresresresresrosseeseeeereresresresreseesseereeseee 87 CONO E E E E A A A E E E 88 Appendix A Chassis views and technical specifications RTT E E AT E A E E E E T E EEE 90 Chassis views REECE OEE CEO OOEOOOOOOOSOOeCOeereerr cere cerererereerrerereeereerreerreerr eter tert reerreeererrreerreerreerrceeereerreeereee 90 Switch and FRU aliases eeeeeeeeeeeeeeeeseeseeseeseeseeseeseeseeneoseoseeseeseessesseeseneeeseeseosroseosrossessessessesrosrosereseosresresresrosroseessessesresseeseee 9 Weights and dimensions seeeeseeeeeeeeeeeeeeereereereeresseseeseeseeseesseseeseeseeeeeeseesresreseesreseeseeseessesreeresrosrosrosresresresresreeeeereresreseeseeseee 95 Module power consumption and total power consumption dein E E aaleaa aaa daw E EA EEEE EE AT 98 Total power consumption EE EEO EE OE LEE TO EE MTT Ie MT Pe ToT oe keer ee ere eer eee eT ee Tmo ee E 98 Card power Consumpti
48. 93B XFP Ports LSQ1SRP2XBO ICO99A HP 7500 384 Gbps TAA compliant Fabric Main Processing Unit with 2 10 GbE XFP Ports JD194B HP 7500 384 Gbps Fabric Main Processing Unit L5G SRPBO JC7O00A HP 7500 384 Gbps TAA compliant Fabric Main Processing Unit JD195A HP 7500 384 Gbps Fabric Advanced Main Processing Unit LSQ1SRP1CBO HP 7503 S 144 Gbps Fabric Main Processing Unit with ccs PoE upgradable 20p Gig T 4p GbE Combo A Table 28 LPU models Product code Description Alias JD197B HP 7500 48 port 100Base FX SA Module LSQ1FP48SA0 JD198B HP 7500 48 port 10 100Base TX PoE upgradable SA Module LSQIFV48SA0 JD199B HP 7500 48 port Gig T PoE upgradable SA Module LSQ1GV48SA0 JC667A HP 7500 16 port GbE SFP 8 port GbE Combo SA Module LSQ1GP24TSAO ICO68A HP 7500 20 port Gig T 4 port GbE PoE upgradable Combo SA ISQIGV24PSA0 Module JD201A HP 7500 2 port 10 GbE XFP SC Module LSQ1ITGX2SCO JD203B HP 7500 24 port GbE SFP SC Module LSQ1GP24SCO JC704A HP 7500 24 port GbE SFP SC TAA compliant Module JD204B HP 7500 24 port Gig T SC Module LSQ1GT24SCO JD205A HP 7500 24 port GbE SFP 2 port 10 GbE XFP SC Module LSQ1P24XGSCO JD206A HP 7500 24 port Gig T 2 port 10 GbE XFP SC Module LSQIT24XGSCO JD207A HP 7500 12 port GbE SFP SC Module LSQ1GP12SCO JD210A HP 7500 48 port Gig T PoE upgradable SC Module TTT TSS 59 ooo LST GVABSCO JC7O9A HP 7500 48 port Gig T PoE upgradable SC TAA compliant Module JG663A HP 7500 48 port 1OOOBASE T PoE SC Module LSQ3GV48SCO JG664A
49. A 7500 switch without any configuration can perform basic data forwarding immediately after it is plugged into a network To implement more forwarding features configure the basic network settings in Table 13 on the switch Table 13 Basic network settings Function Description IP addresses Enables remote switch management for example by using Telnet Static routes Implement static routing VLANs Divide the LAN into multiple VLANs for data security MSTP Avoids loops in a dual homed network Contiguration example Configuring Telnet service Enter system view lt Sysname gt system view Enable the Telnet server Sysname telnet server enable Enter user interface view of VTY O Sysname user interface vty 0 Configure the authentication mode as password for users logging in through user interface VTY O Sysname ui vty0O authentication mode password Configure the password as hello for users logging in through user interface VTY O Sysname ui vty0O set authentication password cipher hello 51 Set the user privilege level to 3 for the users that log in through user interface VTY O Then all users that log in through Telnet can use all commands Sysname ui vty0O user privilege level 3 Sysname ui vty0O quit Configuring the basic network settings Configure IP addresses Create VLAN interface 1 Sysname interface vlan interface 1 Assign an IP address to VLAN intertace 1 accord
50. AC input and DC output It provides the device with both system power and PoE power which can be controlled through separate switches Betore connecting power cord make sure the system power switch PoE power switch both are in the off position Each 6000W AC power supply has four independent AC receptacles where callout 4 shows the system power receptacle and callout 8 shows the PoE power receptacles PoE1 PoE2 and PoE3 28 Figure 25 Panel view of the 6000W AC PoE PoE o g s Q 100 240V 50 60hz 16A POELO O PoE FAN Q SYS IN O PoE2 SYS OUT 3 O 100 240V 50 60Hz 16A SYS FAN PoE3 100 240V 50 60Hz 16A 1 Captive screws 2 PoE power switch O for off and for on 3 Status LEDs 4 System power receptacle 5 System power switch O for off and for on 6 Holes for fixing cable ties 7 Power supply handle 8 PoE power receptacles lt x SA S S The power cord connection procedures are the same for the system power receptacle and PoE power receptacle of the 6000W AC power supply This section takes the system power receptacle for example To connect an AC power cord to the system power receptacle of the power supply 1 Make sure of the power cord model the 6000W AC power supply uses a 16A AC power cord 2 Plug the power cord into the system power receptacle on the power supply and ensure a good contact As shown in Figure 26 secure the power cord to the pow
51. C 2 3kg 5 07 Ib 40 mm 1 57 in 140 mm 5 51 in 350 mm 13 78 in 1400W AC 8 3 kg 18 30 Ib 128 mm 5 04 in 196 mm 7 72 in 380 mm 14 96 in 1400W DC 9 3 kg 20 50 Ib 128 mm 5 04 in 196 mm 7 72 in 380 mm 14 96 in 2800W AC 9 9 kg 21 83 b 128 mm 5 04 in 196 mm 7 72 in 380 mm 14 96 in 6000W AC 12 2 kg 26 90 Ib 128 mm 5 04 in 196 mm 7 72 in 380 mm 14 96 in Table 38 Fan assembly weights and dimensions Dimensions Fan assembly Weight a2 Height Width Depth beg 0 9 kg 1 98 lb 27 mm 1 06 in 115 mm 4 53 in 338 mm 13 31 in assembly Zoe an 0 9 kg 1 98 lb 27 mm 1 06 in 115 mm 4 53 in 338 mm 13 31 in assembly atc 1 6 kg 3 53 Ib 27 mm 1 06 in 203 mm 7 99 in 365 mm 14 37 in assembly a 2 2 kg 4 85 lb 28 mm 1 10 in 331 mm 13 03 in 365 mm 14 37 in assembly A 3 2 kg 7 05 lb 45 mm 1 77 in 375 mm 14 76 in 369 mm 14 53 in assembly ran 3 0 kg 6 61 Ib 28 mm 1 10 in 497 mm 19 57 in 380 mm 14 96 in assembly Module power consumption and total power consumption Total power consumption The total power consumption is the system power consumption plus PoE power consumption The system power consumption is the sum of the power consumption of all running cards and the power consumption of all fans The PoE power consumption is the sum of the power consumption of all PDs connected to the switch Card power consumption The power consumption of the cards of the 7500
52. CMDO LSUTFWCEAO LSQ 1 FWBSCO LSQ 1LBSCO Description 4 port 10 Gigabit optical Ethernet interface card XFP LC HP 10500 7500 20G Unified Wired WLAN Module HP 10500 1 1900 750 O 20Gbps VPN Firewall module HP 7500 VPN Firewall Module HP 7500 Load Balancing Module Conn ector RJ 45 RJ 45 RJ 45 SFP RJ 45 RJ 45 RJ 45 SFP RJ 45 RJ 45 107 Number of interfaces One console port One 10 100 10 OOBase T management Ethernet port One console port 2 combo interfaces su pport optical electi rcal switching One console port 2 copper ports 2 combo interfaces su pport optical electi rcal switching One console port 2 copper ports Interface transmission rate 10 Gbps No greater than 115200 bps and defaults to 9600 bps 10 100 1000 Mbps half full duplex No greater than 115200 bps and defaults to 9600 bps Copper port 10 100 1 000 Mbps half tull duplex Fiber port 1000 Mbps full duplex No greater than 115200 bps and defaults to 9600 bps 10 100 1000 Mbps half full duplex Copper port 10 100 10 OO Mbps half full duplex Fiber port 1000 Mbps full duplex No greater than 115200 bps and defaults to 9600 bps 10 100 1000 Mbps half full duplex Available transceiver modules 10 Gigabit XFP module N A N A N A Gigabit SFP module N A N A Z A Gigabit SFP module
53. DDRESS lt 0023 3895F 954F MANUFACTURING_DATE 2011 2 27 VENDOR_NAME HP Slot 2 DEVICE_NAME HP 7500 48 port Gig T PoE upg SA Mod JD199B DEVICE_SERIAL_NUMBER CN12D4W789 MAC_ADDRESS NONE MANUF ACTURING_DATE 2011 2 15 VENDOR_NAME gt HP Slot 4 DEVICE_NAME gt HP 7500 48p 10 100Base T PoE upg SA Mod JD198B DEVICE_SERIAL NUMBER CN12D4W9BC MAC ADDRESS NONE MANUFACTURING _DATE lt ao LIS 2a LS VENDOR_NAME HP Slot 5 The operation is not supported on the specified board or subslot Slot 6 The operation is not supported on the specified board or subslot e Use the display device manuinfo slot slot number command to display the electronic label data for a card for example the card in slot O lt Sysname gt display device manuinfo slot 0 Slot 0 DEVICE_NAME HP 7500 384Gbps Fab MPU w 2p 10 GbE XFP JD193B DEVICE_SERIAL_NUMBER CN12D4W123 MAC_ADDRESS 0023 895F 958B MANUFACTURING_DATE 2011 2 24 VENDOR_NAME HP 6l Table 16 Command output Field Description DEVICE_NAME Card model DEVICE_SERIAL_ NUMBER Card serial number MAC address of the card MAC_ADDRESS e An MPU has a MAC address e An LPU has no MAC address the field is NONE MANUFACTURING_DATE Manufacturing date of the card VENDOR_NAME Vendor name of the card The operation is not supported on The card is a virtual LPU and does not support the display device manuinfo the specified board or subslot command Displaying card
54. Fan assembl Number of fans Fan diameter Max rotating speed Max airflow 7502 fan 3 92 mm 3 62 in 3800 RPM 165 CFM assembly 7503 S fan 3 92 mm 3 62 in 3800 RPM 165 CFM assembly 7503 fan 6 92 mm 3 62 in 3800 RPM 330 CFM assembly 7506 fan 9 92 mm 3 62 in 3800 RPM 495 CFM assembly 110 Fan assembly Number of fans Fan diameter Max rotating speed Max airflow 7506 V fan 6 120 mm 4 72 in 3200 RPM 546 CFM assembly 7510 fan 6 4 92 mm 3 62 in 120 399 ppm 3100 RPM 662 CEM assembly mm 4 72 in e The fans on the 7503 S fan assembly rotate at a fixed speed and cannot automatically adapt to the ventilation condition e The fans on all other 7500 fan assemblies can automatically adapt their rotating speed to the ventilation condition Mounting accessories Betore installing the switch to the rack install slide rails to the rack You can order an HP X421 A Series Chassis Universal 4 Post Rack Mounting Kit JC665A An HP X421 A Series Chassis Universal 4 Post Rack Mounting Kit JC665A includes cage nuts screws and a pair of slide rails The length of the slide rails is in the range of 500 mm 19 69 in to 800 mm 31 50 in and a pair of slide rails can bear up to 350 kg 771 60 Ib of weight Before using the slide rail make sure e The inside depth of the rack falls into the length range of the slide rail e The slide rails can support the total weight of the switch chassis and its accessories DC cables If you use a
55. HP 7500 Switch Series Installation Guide 5998 1730 Part number 5998 1730a Document version 6W105 20141107 Legal and notice information Copyright 2014 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 tor 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 RAxRRR ERECT TOSS rer reer reer errr ere terre erreerreerrerrreerreeererrrerreerrerrrerrrerreerrecrreire Satety recommendations verrereeeeeeeeetee eet eee eteeeeteeeeseeeeseeessaesseeseeueseeueseeeesseeeseeueseeueseeueeseuesseueseeueeseweeeeeeseeueneeueseeueneeueneeueeeeuenes General safety recommen
56. LED status see Appendix C LEDs Connecting your switch to the network through optical fibers A WARNING To avoid injury to your eyes do not stare at the fiber interfaces when connecting optical fibers You can install a transceiver module see Installing FRUs in a fiber port and use optical fibers to connect the port to the network For more information about the optical fibers see Appendix D Cables The installation of ditferent optical tiber connectors is similar To connect your switch to the network through optical fibers 1 Install a transceiver module into the port 2 Remove the dust cover of the optical fiber connector and clean the end of the optical fiber 53 3 Remove the dust plug of the transceiver module plug one end of the optical fiber into the transceiver module in the switch and plug the other end into the transceiver module in the peer device o For how to connect an LC connector see Figure 44 o For how to connect an MPO connector see Figure 45 4 Examine the port LEDs for incorrect connection For more information about the LED status see Appendix C LEDs NOTE For the QSFP module you do not need to differentiate between the transmitter TX and receiver RX ports For other types of transceiver modules the Tx port on one end must connect to the RX port on the other end Figure 44 Using an LC optical fiber connector to connect an SFP module A E module Figure 45 Usin
57. LSQ1GP48SCO 3 04 kg 6 70 Ib 40 mm 1 57 in 399mm 15 71 in 352 mm 13 86 in LSQ1GT24SC0 2 72 kg 5 60 lb 40mm 1 57 in 399mm 15 71 in 352 mm 13 86 in LSQ1GP24TSCO 2 77 kg 6 11 lb 40mm 1 57 in 399 mm 15 71in 352 mm 13 86 in LSQ1GV48SC0 3 09 kg 6 81 Ib 40mm 1 57 in 399 mm 15 71 in 352 mm 13 86 in LSQ3GV48SCO 3 31 kg 7 30 Ib 40 mm 1 57 in 399 mm 15 71 in 352 mm 13 86 in LSQITGS8SCO 3 11 kg 6 86 Ib 40mm 1 57 in 399 mm 15 71 in 352 mm 13 86 in LSQITGX2SCO 2 95 kg 6 50 Ib 40mm 1 57 in 399 mm 15 71 in 352 mm 13 86 in LSQ1GV24PSCO 2 8 kg 6 17 lb 40mm 1 57 in 399 mm 15 71in 352 mm 13 86 in LSQ1P24XGSCO 2 95 kg 6 50 Ib 40mm 1 57 in 399 mm 15 71 in 352 mm 13 86 in LSQ1T24XGSCO 2 92 kg 6 44 lb 40mm 1 57 in 399 mm 15 71 in 352 mm 13 86 in LSQ1GV40PSCO 3 02 kg 6 66 Ib 40 mm 1 57 in 399 mm 15 71 in 352 mm 13 86 in LSQ1QGS4SCO 3 12 kg 6 88 Ib 40 mm 1 57 in 399 mm 15 71 in 352 mm 13 86 in LSQ1QGC4SCO 3 46 kg 7 62 Ib 40mm 1 57 in 399 mm 15 71 in 352 mm 13 86 in LSQ1GP24TSDO 3 01 kg 6 64 lb 40mm 1 57 in 399mm 15 71 in 352 mm 13 86 in LSQ1GP24TXSDO 3 08 kg 6 79 Ib 40mm 1 57 in 399 mm 15 71 in 352 mm 13 86 in LSQ1GP48SD0 3 25 kg 7 16 lb 40mm 1 57 in 399 mm 15 71 in 352 mm 13 86 in LSQ 1GV48SD 3 31 kg 7 30 Ib 40 mm 1 57 in 399 mm 15 71 in 352 mm 13 86 in LSQ 1TGX2SDO 2 93 kg 6 46 Ib 40 mm 1 57 in 399 mm 15 71 in 352 mm 13 86 in LSQ1TGX4SDO 2 93
58. P24TSCO 25 W 45 W LSQIGT24SCO 42 W 50 W LSQ1GV48SCO 60 W 90 W LSQ3GV48SCO 67 W 95 W LSQ1TGS8SCO 75 W 95 W LSQ1TGX2SCO 30 W 40 W LSQ1GV24PSCO 30 W 60 W LSQ1P24XGSCO 40 W 55 W LSQIT24XGSCO 50 W 75 W LSQ1GV40PSCO 41 W 95 W LSQ1QGS4SCO 70 W 90 W 29 Model Minimum static power Maximum dynamic power consumption consumption LSQ1QGC4SCO 52 W 85 W LSQ1GP24TSDO 47 W 75 W LSQ1GP24TXSDO 54 W 95 W LSQ1GP48SDO 44 W 95 W LSQ1GV48SDO 67 W 95 W LSQ1TGX2SDO 43 W 55 W LSQ1TGX4SDO 53 W 80 W LSQITGX8SDO 73 W 120 W LSQ1GP24TEBO 50 W 90 W LSQ1GP48EBO 43 W 110 W LSQ1TGX2EBO 46 W 65 W LSQ1TGX4EBO 53 W 80 W LSU3WCMDO 118 W 150 W LSU1FWCEAO 109 W 157 W LSQ1FWBSCO 80 W 107 W LSQILBSCO 80 W 107 W LSQINSMSCO 80 W 104W LSQISSLSCO 80 W 100W Fan assembly power consumption Table 40 Fan assembly power consumption Model Minimum fan assembly power Maximum fan assembly power consumption consumption SSS 7502 7 5 W 14 5 W 7503 S 14 5 W 14 5 W 7503 15 5 W 27 5 W 7506 24 5 W 42 5 W 7510 28 W 48 5 W 7506 V 30 W 45 5 W Thermal output The thermal output of the switch depends on power consumption To calculate thermal output of the switch assume 90 power consumption is converted to heat and the efficiency of the power supply is 100 80 Thermal output hour of the switch is 0 9 x total power consumption of the cards plus power consumption of the fan assembly 0 8 x 3 4121 NOTE e For the power consumption of the cards and fan assembli
59. PCB under the slot and the slave DIMM into the slave DIMM slot there is a Slave mark on the PCB under the slot e The master and slave DIMMs must be used simultaneously The PoE system operates correctly only when both of them are inserted in the correct slots e Avoid touching the components on the PoE DIMM and PCB during installation and removal of a PoE DIMM HP 7500 48 port PoE DIMM JD192B is applicable to LSQ1FV48SA0 LSQ1GV48SA0 LSQ1GV48SCO and LSQ1GV40PSCO Figure 30 PoE master slave DIMM a E ao eB PERRET NE i ana mr E 7 J ad a F Fa T7 ai Bait ps i g gt AJ Vary nro cat dish fk paani buns Wannan 1 There is a chip on the master DIMM but not on the slave DIMM To install a PoE DIMM 1 Wear an ESD wrist strap and make sure it makes good skin contact and is well grounded For more information see Attaching an ESD wrist strap 2 Place the card steadily Then tind the master PoE DIMM slot there is a Master mark on the PCB under the slot on the PCB 3 Pull the white clips on the two sides of the PoE DIMM slot outward as shown in callout 1 on Figure 27 4 Unpack the master PoE DIMM and align the golden finger of the PoE DIMM with the groove on the slot 5 As shown in Figure 29 use your thumbs to press the edges of the master PoE DIMM and push it along the guide rail into the slot until the white clips click into the grooves on the two sides of t
60. PWR see Table 62 for the LED description e Ifan MPU provides multiple LEDs with numbers for example PWR1 and PWR2 each LED corresponds to a hot swappable power supply with the same number the power supply number is marked on the chassis See Table 63 for the LED description Table 62 Description for PWR LEDs without numbers OK FAIL Description On Ott All power supplies in the chassis are operating correctly A power supply has no power output The cause can be the power Off On supply is faulty or not switched on a power cord connection problem has occurred the external power supply is unavailable This status has occurred in the following cases e No power supply is installed in the chassis Off Off No power supplies in the chassis output power The cause can be the power supplies are faulty or not switched on a power cord connection problem has occurred the external power supply is unavailable 119 Table 63 Description for PWR LEDs with numbers OK FAIL Description On Off The corresponding power supply is operating correctly The corresponding power supply has no output power The cause can be the power supply is faulty or not switched on a power cord E n connection problem has occurred the external power supply is unavailable Off Off No power supply is installed in the corresponding slot Fan LEDs FAN The MPU provides two fan LEDs OK and FAIL to indicate the working status of the fan
61. Power supply LEDs crvresessssesseesessessseseesesseeseeseeseeseesecseeseeneeaseseeaseasenscsccssensenccncescsaceasenseaseascansansnnconsnacasescencnscensnnsensesn 124 Appendix D Cables ssrsssssssssssssisssssensssnessnesseenessnecsnecanesaneesssnnssnesenecsnecasesnscsncanecanesanessnesaneeanseasencsnnecanesaaeenas 139 Ethernet twisted pair cable seeeseeseeesereseeeseesseesereseeeseesseeseeeseceseesseeseroseceseesseeserosereseeesreserosrosereseeeseessresereseeeseessresereeeseeseese 132 RAS conego sateen wees ea cece aa a EEr EE aT 132 Cable pinouts ssrsrsrssssssessssessnsesesesneensecnecnsecneensecasecnsecnssanecasccasccascnssanccascenesanecasccasccnscanccanecasscenccancenssenscantens EF Cable typerssrsssrssesssesseessesssneeserssesneesneensecnsecnsennessnccanecnccnssanceaserasecasscaccasccnsscuccanetasccasscnsconecansceectaneeasccassenssanetens 133 Pin assignments E E T E N E a a a a E E A T T T 134 Making an Ethernet twisted pair cable eeeeeeseeeseesseeeseesereseeseesseeseeeseeeseeeseosereseceseesseoseosereseeeseeserosereseseseroseeeseeeseene 135 Optical fiber eeeeeeereseeeseeseeesereseeeseeseeesereseeseeeseeseeoseceseeesressrosereseceseessreseresereseeereesreseresereseereseeseresreesresseosereseeeseeeseesereseeeseee 136 Concepts srsrrsrssressssesessssesseessecnsecnsenneesnecasecnsseneeanccanccasecnssanccnsconcanecasccasccnssenssanetanccanetanccasscessanecanecasccnssenssantans 136 Usage guidelines E cepa ned enmcebere cap aambigadadacsumsmesamdausiuesda
62. UT power output LED OUTPUT fan LED FAN PoE input LED PoE INPUT and PoE output LED PoE OUTPUT 127 Table 83 2800W AC power supply status LED description LED Status __ Description Analysis Green The power is input N A correctly A power input problem Red The input voltage is not in the rated voltage range has occurred INPUT This status has occurred in the following cases e The power supply is faulty Off No power is input e A system input power cord connection problem has occurred e The external power supply is unavailable The power is output Green N A correctly This status has occurred in the following cases e The power supply generates an alarm due to Red A power output problem input under voltage output short circuit output has occurred over current output over voltage or over OUTPUT temperature and enters the protection state e The system power switch is not turned on This status has occurred in the following cases e The power supply is faulty Ott No power is output e A system input power cord connection problem has occurred e The external power supply is unavailable The fans are operatin Green perating N A correctly Ta This status has occurred in the following cases ti l Red a e A fan failure has occurred incorrectly e The system power switch is not turned on FAN This status has occurred in the following cases e The power supply is faulty Ott The fans do not work e
63. V24PSCO LSQ1GV24PSCO and LSQ1GV24PSAO The PoE DIMM slot is a reverse insertion prevention slot to help you identity the direction for installing a PoE DIMM To install an HP 7500 24 port PoE DIMM JC671A 1 Wear an ESD wrist strap and make sure it makes good skin contact and is well grounded For more information see Attaching an ESD wrist strap 2 Place the card steadily Then find the PoE DIMM slot there is a master mark on the PCB under the slot on the PCB 3 Pull the white clips on the two sides of the PoE DIMM slot outward as shown in callout 1 on Figure 29 Unpack the PoE DIMM and align the golden tinger of the PoE DIMM with the groove on the slot 5 As shown in Figure 29 use your thumbs to press the edges of the PoE DIMM and push it along the guide rail into the slot until the white clips click into the grooves on the two sides of the PoE DIMM 6 Verify that the clips lock the PoE DIMM Figure 29 Installing a PoE DIMM 1 Pull the white clips on the two sides of the DIMM outward 2 Press the edges of the PoE DIMM and push it into the slot along the guide rail 3 The white clips automatically click into the grooves on the two sides of the DIMM 34 Installing a master slave DIMM A CAUTION e Determine the master or slave HP 7500 48 port PoE DIMM JD192B before installation For how to distinguish them see Figure 30 e Plug the master DIMM into the master DIMM slot there is a Master mark on the
64. W voltage range 44 V to 57 V maximum current 350 mA This PoE type provides power to classes O to 3 PDs Type 2 Power delivered by a single port O to 30 W voltage range 50 V to 57 V maximum current 600 mA This PoE type provides power to classes O to 4 PDs To set up a PoE system for the 7500 Switch Series the following requirements should be met Cards supporting PoE The 7500 Switch Series can implement the PoE function through the cards listed in Table 9 Except the LSQ3GV48SCO and LSQ1GV48SDO all the other cards require a PoE dual in line memory module DIMM to implement the PoE function PoE DIMMs fall into the following types HP 7500 24 port PoE DIMM JC671A and HP 7500 48 port PoE DIMM JD192B For the compatibility between the two types of modules and cards see Table 9 For the installation of a PoE DIMM see Installing a PoE DIMM The LSQ 1GV48SD0 and LSQ3GV48SCO each can provide a maximum of 806 W power through PoE When you use the cards to power devices through PoE make sure the total power of PDs does not exceed 806 W 32 Table 9 Cards supporting PoE Number of Card model POE capable ports POE DIMM PoE type LSQ1GV48SDO 48 No PoE DIMM needed Typel Type2 LSQ3GV48SC0 48 LSQICGV24PSCO 24 LSQ 1GV24PSCO 24 HP 7500 24 port PoE DIMM JC67 1A LSQ 1GV24PSAO 24 LSQ1FV48SA0 48 Type 1 LSQ1GV48SA0 48 LSQ1GV48SCO 48 LSQ1GV40PSCO 40 HP 7500 48 port PoE DIMM JD1928B Power supplies supporting PoE e
65. an assembly of other models Removing a fan assembly 1 Prepare an antistatic mat to place the removed fan assembly 2 Wear an ESD wrist strap and make sure it makes good skin contact and is well grounded For more information see Installing FRUs 3 Use a screwdriver to remove the captive screw on the fan assembly as shown in callout 1 on Figure 51 4 As shown in callout 2 on Figure 51 hold the handle of the fan assembly to pull the fan assembly out of the slot 5 Put the removed fan assembly on an antistatic mat or in its original shipping materials Figure 51 Replacing a fan assembly for other models 1 Loosen the captive screw on the fan assembly 2 Pull the fan assembly out of the slot Installing a fan assembly 1 Wear an ESD wrist strap and make sure it makes good skin contact and is well grounded For more information see Installing FRUs 2 Unpack a new fan assembly and insert it into the fan assembly slot along the slide rails Push the fan assembly in the slot until it has a close contact with the backplane 3 Use a screwdriver to fasten the captive screw on the fan assembly Check the FAN LEDs on the MPU of the switch If the OK LED is on the fan assembly is installed successtully For more information about the FAN LEDs see Appendix C LEDs NOTE You can check the fan status at the command line interface CLI after replacement For more information see Hardware management and maint
66. are routed through the cable management brackets bound at cabling racks on chassis sides and then routed up or down to pass through the chassis top or the raised floor depending on the available equipment room condition The power cords run along the right rear of the chassis and out of the chassis either from the chassis top or the raised floor depending on the equipment room conditions power distribution cabinet lightning protection box and connector strip etc of the exchange office General cabling requirements Minimum curvature radius of cables e The curvature radius of a fixed power cord communication cable or ribbon cable should be at least five times the cable s outer diameter If the cable is frequently bent plugged and unplugged the curvature radius should be at least seven times the cable s outer diameter e The curvature radius of an ordinary fixed coaxial cable should be at least seven times of the cable s outer diameter If the coaxial cable is frequently bent plugged and unplugged the curvature radius should be at least 10 times the cable s outer diameter e The curvature radius of a high speed cable for example SFP cable should be at least five times of the cable s outer diameter If the coaxial cable is frequently bent plugged and unplugged the curvature radius should be at least 10 times the cable s outer diameter Minimum curvature radius of fibers e When the fiber is wrapped up around the cabl
67. assembly Table 64 Fan LED description OK FAIL Description On Off The fan assembly is operating correctly Off On A fan problem has occurred or the fan assembly is absent Off Off The switch is not powered on Card LEDs SLOT The MPU provides card LEDs SLOT Table 65 shows the LED description e The LSQ1MPUAO MPU provides numbered LEDs to indicate the status of LPUs in the corresponding slots The MPU LED indicates the working status of the MPU itself e Other MPU models provide numbered LEDs to indicate the status of active MPUs standby MPUs and LPUs in the corresponding slots NOTE The number of a slot on the 7506 V is marked on both left and right sides of the slot and that on other models is marked on the right side of the slot Table 65 Card LED description RUN ALM Description Flashing Off The corresponding card is operating correctly Off On The corresponding card is faulty This status has occurred in the following cases e The corresponding card is absent Off Off e The card is not started the software version of the switch does not match that of the card On On The corresponding LPU is starting up On Off The corresponding MPU is starting up 120 NOTE A quick flashing RUN LED indicates that the card is in the process of startup rather than operating correctly The ALM LED will be on for a period of time at the initial phase of the system startup MPU active standby status LED ACTIVE Th
68. ate the link status and data receiving forwarding status of the corresponding Ethernet ports Table 72 RJ 45 Ethernet port LED description LED LED status Description Flashing The Ethernet port is receiving or sending data RJ 45 Ethernet port LED On A link is present Off No link is present Combo interface status LED A combo interface comprises an SFP port and an RJ 45 Ethernet port Only one port of a combo interface can work at a time The LPUs provide a combo interface status LED to indicate the link status and data receiving forwarding status of the corresponding combo interface Table 73 Combo interface status LED description LED LED status Description Flashing The combo intertace is receiving or sending data Combo interface status LED On A link is present Ott No link is present NOTE e For the SFP port and the RJ 45 Ethernet port of a combo interface only one port can be active at a time The other one is inactive By default the port with smaller number becomes active e To use the inactive port of a combo interface execute the undo shutdown command to activate the port The other port of the combo interface is then automatically shut down and becomes inactive SFP port LED The LPUs provide an SFP port LED to indicate the link status and data receiving ftorwarding status of the corresponding SFP port Table 74 SFP port LED description LED LED status Description Flashing The SFP intertace is recei
69. aution Powering off a running switch can cause data loss and hardware damages To reboot the switch or a card at once Task Command Remarks Reboot the switch or a card other Available in user view than the standby MPU at once in reboot slot slot number if no slot is specitied the command standalone mode reboots the entire switch Reboot the standby MPU in slave restart Available in system view standalone mode Available in user view e If neither chassis nor slot is specified the command reboots all member switches Reboot the IRF virtual device a member switch or a card in IRF mode e If only a chassis is specified the command reboots the specified member switch reboot chassis chassis number slot slof number e If you specify both a chassis and a slot the command reboots the specitied card in the specified switch To schedule a reboot of the switch 72 Task Command Remarks Schedule a reboot of the switch at schedule reboot at hh mm By detault no reboot schedules are set a specitic date and time date Available in user view Schedule a reboot of the switch schedule reboot delay By default no reboot schedules are set after a specific amount of time hh mm mm Available in user view NOTE e To reboot the switch or the active MPU by using the reboot command you must ensure that you have specified a main boot file e The switch prompts REBOOT IN ONE MINUTE one m
70. ay memory slot 0 System Total Memory bytes 435562480 Total Used Memory bytes 103701596 Used Rate 23 Table 18 Command output Field Remarks System Total Memory bytes Total memory in bytes of the card Total Used Memory bytes Used memory in bytes of the card Used Rate Used memory as a percentage of the total memory of the card Displaying CF card information Use the display device cf card command to display CF card information lt Sysname gt display device cf card CF Card Information in slot 0 2 Status Normal Size 256 MB CF Card Information in slot 1 2 Status Absent Table 19 Command output Field Description CF Card Information in slot O Number of the slot that holds the CF card Field Description Operating status of the CF card e Absent No CF card is in the slot Status a e Fault The CF card is faulty e Normal The CF card is correctly operating Size Memory size of the CF card Displaying the operating status of the fan assembly Use the display fan command to display the operating status of the fan assembly lt Sysname gt display fan Fan 1 State Normal Table 20 Command output Field Remarks Fan 1 Fan assembly number Fan assembly status e Normal The fan assembly is correctly operating State e Absent The fan assembly is absent e Fault The fan assembly has failed Displaying the operating status of power supplies Use the display power co
71. bo interface ee status LED On A link is present Off No link is present NOTE e For the SFP port and the RJ 45 Ethernet port of a combo port only one port can be active at a time The other one is inactive By default the port with smaller number becomes active e To use the inactive port of a combo interface execute the undo shutdown command to activate the port The other port of the combo interface is then automatically shut down and becomes inactive SFP port LED The MPUs provide an SFP port LED to indicate the link status and data receiving forwarding status of the corresponding SFP port Table 70 SFP port LED description LED LED status __Description Flashing The SFP port is receiving or sending data SFP port LED On A link is present Off No link is present XFP port LEDs The MPUs provide XFP port LEDs to indicate the link status and data receiving forwarding status of the corresponding XFP port Table 71 XFP port LED description LINK ACT Description On Flashing A link is present and the XFP port is receiving or sending data On Off A link is present but no data is being received or sent Off Off No link is present LPU LEDs Figure 56 LPU LEDs LSQ1T24XGSCO as an illustration 10 100 1000BASE T 10CBASE R XFP SOMME SEO 1 2 S eS V AV AV AY AY AY AVY AY AV 1 RJ 45 Ethernet port LED 2 XFP port LEDs 122 RJ 45 Ethernet port LED The LPUs provide RJ 45 Ethernet port LEDs to indic
72. card outward Push the card until the positioning pin on card touches the hole on the chassis As shown in callout 4 on Figure 18 press the ejector levers inward until the ejector levers touch the panel tightly and the card seats into the backplane As shown in callout 5 on Figure 18 fasten the captive screws on the card When the switch is powered on examine the running status of the card You can examine the running status of a card by referring to the card status LED SLOT on the MPU of the switch If the RUN LED flashes the card in the slot operates correctly For more information about card status LED SLOT see Appendix C LEDs Atter the switch is powered on you can examine the card running status at the command line intertace CLI For more information see Hardware management and maintenance Figure 18 Installing a card Remove the blank filler 2 Slide the card into the slot along the guide rails Press the ejector levers on the card outward 4 Press the ejector levers on the card inward 5 Fasten the captive screws 21 Installing a power supply A _ CAUTION For dual grid input the input voltage and frequency for the two grids must be the same Provide a circuit breaker for each power supply and make sure the circuit breaker is off before installation Do not install power supplies of different models on the same switch To avoid power supply damage or bodily injury support the bottom of a p
73. ce SFP LC 8 port Gigabit combo interface 2 port 10 Gigabit optical interface XFP LC card 48 port Gigabit optical Ethernet interface card SFP LC 48 port Gigabit electrical Ethernet interface card RJ 45 PoE Plus 2 port 10 Gigabit optical Ethernet interface card XFP LC 4 port 10 Gigabit optical Ethernet interface card XFP LC 8 port 10 Gigabit optical Ethernet interface card XFP LC 16 port Gigabit optical Ethernet interface SFP LC 8 port Gigabit combo interface card 48 port enhanced Gigabit optical Ethernet interface card SFP LC 2 port 10 Gigabit optical Ethernet interface card XFP LC Conn ector RJ 45 RJ 45 RJ 45 106 Number of interfaces 24 48 48 24 48 Interface transmission rate 1000 100 Mbps 10 Gbps 10 100 1000 Mbps half tull duplex 1000 100 Mbps 10 100 1000 Mbps half tull duplex 10 Gbps 10 Gbps 10 Gbps 1000 100 Mbps 10 100 1000 Mbps half tull duplex 1000 100 Mbps 10 Gbps Available transceiver modules e Gigabit SFP module e 100 Mbps SFP module 10 Gigabit XFP module N A e Gigabit SFP module e 100 Mbps SFP module N A 10 Gigabit XFP module 10 Gigabit XFP module 10 Gigabit XFP module e Gigabit SFP module e 100 Mbps SFP module N A e Gigabit SFP module e 100 Mbps SFP module 10 Gigabit XFP module LPU LSQ 1 TGX4EBO LSU3W
74. chanism to detect the presence of multiple identical IRF fabrics and handle collisions For more information about MAD see HF 7500 Switch Series IRF Configuration Guide Connecting your switch to the network This chapter describes how to connect your switch to a network The first time you access a switch you must log in through the console port On the switch you can contigure Telnet or SSH for remote access through Ethernet ports You manage console login users at AUX user interfaces and manage Telnet and SSH users at VTY user interfaces For more information about login methods and user interfaces see HP 7500 Switch Series Fundamentals Configuration Guide NOTE e A 7500 switch with one MPU supports one AUX user and a 7500 switch with two MPUs supports up to two concurrent AUX users The total number of AUX users that an IRF fabric supports equals the number of MPUs in the IRF fabric e All 7500 switches support up to 16 concurrent VTY users Accessing the switch for the first time The first time you access the switch you must use a console cable to connect a console terminal for example a PC to the console port on the switch Setting up the configuration environment To connect a terminal for example a PC to the switch 1 Plug the DB 9 female connector of the console cable to the serial port of the PC on which you configure the switch 2 Plug the RJ 45 connector of the console cable to the console port of the s
75. ckets to the chassis For more information see Attaching the cable management brackets on other models and Installing mounting brackets Installing the cable management brackets on the 7506 V The 7506 V has two cable management brackets the one with a tray is installed at the lower part of the switch and the one without a tray is installed at the upper part of the switch They are installed in the same way To install a cable management bracket 1 Unpack the cable management brackets 2 Attach the cable management bracket to the chassis and align the screws with the screw holes in the chassis as shown in Figure 10 3 Fasten the screws Figure 10 Attaching cable management brackets on an HP 7506 V 1 Attach the cable management bracket to the chassis 2 Screw holes for installing the cable management bracket 3 Screws for fixing the cable management bracket to the chassis 4 Cable management bracket without a tray installed at the upper part of the chassis 5 Cable management bracket with a tray installed at the lower part of the chassis Attaching the cable management brackets on other models For the models except the 7506 V install the cable management bracket on the left mounting bracket as shown in Figure 11 The switch is supplied with two mounting brackets and the one with the cable management bracket screw holes is the left mounting bracket Figure 11 Attaching the cable management bracket
76. cted The configuration terminal has been started and the terminal parameters have been configured To power on the switch Turn on the power source of the switch to power on the switch The following is a sample output you can see on the terminal DUer CUM sa ae 2 RAMLine OK System is D DOooting s es eses eses KKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKK 49 BOOTROM Version 3 01 KKEKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKKEKKKKKKKKKKKKKKKKKKK Creation Date Aug 26 2010 CPU Type gt BCM1125H CPU L1 Cache 32KB CPU Clock Speed 600MHz Memory Type DDR SDRAM Memory Size 512MB Memory Speed 133MHz BootRom Size 512KB Flash Size 64MB CPLD Version 002 PCB Version Ver B Mac Address gt 0000FC007506 Press Ctrl B to enter Boot Menu 0 System is starting User interface aux0 is available Press ENTER to get started Press Enter at the prompt When the prompt lt sysname gt appears you can configure the switch For more information about configuring the switch see Configuring the switch After powering on the switch verify the following items e The cooling system is working and you can hear fan rotating noise and feel air being blown out e The system status LEDs on the MPUs show that the system is operating normally For more information about LED behaviors see Appendix C LEDs Contiguring the switch By default
77. data BIDA Bi directional data cable A 3 Rx Receive data BIDB Bi directional data cable B 4 Reserved N A BIDC Bi directional data cable C 5 Reserved N A BIDC Bi directional data cable C 6 Rx Receive data BIDB Bi directional data cable B 7 Reserved N A BIDD Bi directional data cable D 8 Reserved N A BIDD Bi directional data cable D Table 88 RJ 45 MDI X interface pinouts 10Base T 100Base TX 1000Base T E Signal Function Signal Function 1 Rx Receive data BIDB Bi directional data cable B 2 Rx Receive data BIDB Bi directional data cable B 3 Tx Send data BIDA Bi directional data cable A 4 Reserved N A BIDD Bi directional data cable D 5 Reserved N A BIDD Bi directional data cable D 6 Tx Send data BIDA Bi directional data cable A 7 Reserved N A BIDC Bi directional data cable C 8 Reserved N A BIDC Bi directional data cable C To ensure normal communication the pins for sending data on one port should correspond to the pins for receiving data on the peer port When both of the ports on the two devices are MDI or MDIX a crossover Ethernet cable is needed A cross over cable connects devices of the same type When one port is MDI and the other is MDIX a straight through Ethernet cable is needed A straight through cable connects devices of different types If an RJ 45 Ethernet interface with MDI MDIX autosensing enabled can automatically negotiate pin roles The 7500 RJ 45 Ethernet interfaces support MDI MDIX B
78. dations sseeeeseeeeereresereseeereseeesereseeeseeseeesereseeeseesseesereseeeseesseeseosereseeeseessreserceseeeseesereseeeseeeseese Electricity safety A EE E RE T T E E E EET Handling safety E E E E E E S 2 ESD prevention a a A E week weuu seus Sosa ceuieeseue sua usinmusunudaduenadidecuorcieeceseanaenun 2 Laser safety MEE E E E E A R 2 Examining the installation Site eeeeeeeeeeeeeeeereeeeeseeseeseeeeeereeeeseeseoseeseeseeseesseneeeeeosesreseesreseeereeseeseeseeereesresresresresroseeseeseeseesseeseesee 2 Floor loading ANE E E E E base oa banaue epmeaumenmmneeeeeeneenn 2 Temperature ee eee Eee E e Cee T Te TUTE EPEC ERTL TTT eT Teer Ere Cr reer er rere rer rer rere 3 Humidity asanaceedeubansatsesesaedeuawaseniadine wil sisi adlueluuaswidins wisi alk ipuislsGiauluuine ules nis wdndaadwendadadunnandudadedaueanidutaulgauadide sews siaakdauleibe suns Meaekewnedaunta 3 oars csc ets se cacao ca ctecccty cetacean te devs cause ANE A E eaeee ee 3 ENA E E E E T 4 Grounding E wie hdd cate E E wed nia isle said AE N AAEE N E AE A E 4 Po ean tad sees e ender inisedeonapeedanaduniawaesuueousasessessaregssuasava teva gn sigsaeeesdousaoes tei seus sasiaued tae auseyeeeaanisanestousecesboussavdnuaaeedeoaeerioas 4 Cooling a stoeeisie wSistob sein Cis we stew nts sini n adieu ulna ala ell EEA AE E A AAAA 5 Space EE 6 Installation toolseeeeeeeeeeeeeeeeseereereeseeereereseeseeseeseeseeseeseeneenseeseoseeseoseoseessessesrosrosroseosresresresseosreseessesseeseeereseesresrosrosr
79. de enough power for all attached PDs For intormation about the maximum PoE power consumption see Appendix A Chassis views and technical specifications Verity that the cable that connects the switch to the PD is a straightthrough cable Make sure PoE related configurations are correct For how to contigure PoE see the related configuration guide 78 Replacement procedures The 7500 Switch Series uses a modular hot swappable architecture and supports field replaceable units FRUs You can replace any of FRUs when the switch is running N CAUTION When replacing hot swappable modules when the switch is running notice safety with electricity Replacing a power supply A WARNING e Strictly follow the procedures shown in Figure 46 and Figure 47 to replace a power supply to avoid device or bodily injury e AnAC power supply and a DC power supply cannot be installed on the same 7500 switch and power supplies with ditferent models cannot be installed on the same 7500 switch When you use two power supplies to supply power and the power supplies to be replaced are of different models power off the switch before replacement to avoid damage to the switch e When you use two power supplies to supply power to the switch make sure each power supply has a separate circuit breaker Before replacing a power supply turn off the circuit breaker on the power supply Replace a power supply in the following cases e The p
80. e Ethernet network ports on the MPUs work in one of the following modes e Concurrent mode The network ports of both MPUs forward traffic concurrently These ports can still forward traffic when an active standby switchover has occurred upon a software failure If the active standby switchover is caused by a hardware failure the network ports on the failed MPU might not be able to correctly forward data You can use this mode to increase network ports e Active standby mode Only the Ethernet network ports on the active MPU can forward data and the Ethernet network ports on the standby MPU function as backups When an active standby switchover has occurred the network ports on the previous active MPU goes down and the network ports on the previous standby MPU comes up to take over You can connect the Ethernet network ports on the two MPUs to upstream devices to increase availability NOTE If LSQ1SRP2XB MPUs are used the switch creates one virtual LPU slot for each MPU slot and the LPU slot numbers are higher than the largest physical LPU slot number To configure the Ethernet ports on one MPU you must access the virtual LPU for the MPU Configuration guidelines e This feature is available only for the LSQ1SRP2XB MPUs 66 e To avoid forwarding loops enable active standby mode before you connect the Ethernet network ports on the MPUs Configuration procedure To enable active standby mode for the Ethernet network ports on t
81. e HP 7500 Load Balancing Card Manual e For more information about LSQ INSMSCO see HP 7500 NetStream Monitoring Card Manual e For more information about LSQ1SSLSCO see HP 7500 SSL VPN Card Manual 108 Power supplies A CAUTION e A chassis must be configured with at least one power supply To improve power supply availability you can configure a chassis with two power supplies which back up each other e The power supplies installed on an HP 7500 switch must be the same model Table 46 describes the power supplies available for the 7500 switches and Table 47 describes the power supply and switch chassis compatibility Table 46 Power supplies available for the 7500 switches Power suppl Support AMN Maximum PoE PPY Height Input PP Rated voltage range m output model for PoE output power ower 100 VAC to 240 VAC 300W AC 1 RU AC No 50 60 Hz 300 W N A 300W DC 1 RU DC No 48 VDC to 60 VDC 300 W N A 100 VAC to 240 VAC 650W AC 1 RU AC No 50 60Hz 650 W N A 650W DC 1 RU DC No 48 VDC to 60 VDC 650 W N A 1150 W 100 VAC to 240 VAC at TIOV 1400W AC 3 RU AC No 50 60Hz 1400 W N A at 220 V 1400W DC 3 RU DC Yes 48 VDC to 60 VDC 1400W 6720 W 1150 W at llOV 1150Watl1l0V 2800WAC 3RU AC Yes ee ee 50 60Hz 1400 W 1400 W at 220 V at 220 V e One PoE input 1200 W e Two PoE inputs 1150 W at 110 V ails e Three PoE inputs 3600 100 VAC to 240 VAC W 6000W AC 3 RU AC Yes T n See 50 60Hz e One PoE input 1800 W 1400wW Nei at 220 V
82. e MPUs provide the active standby status LED ACTIVE to indicate the status active or standby of the MPUs Table 66 MPU active standby status LED description LED LED status __Description On The MPU is active ACTIVE This status has occurred in the following cases e The MPU is in standby status e The MPU is faulty Check the card LED to determine whether the MPU is faulty CF card status LED CFS The MPUs provide a CF card status LED CFS to indicate the status of the CF card Table 67 CF card status LED description LED LED status Description On The CF card is in position CFS Off The CF card is absent or is damaged RJ 45 Ethernet port LED The MPUs provide RJ 45 Ethernet port LEDs to indicate the link status and data receiving forwarding status of the corresponding Ethernet ports Table 68 RJ 45 Ethernet port LED description LED LED status __Description Flashing The Ethernet port is receiving or sending data pie a pen On A link is present LED Off No link is present Combo interface status LED A combo interface comprises an SFP port and an RJ 45 Ethernet port Only one port of a combo interface can work at a time The MPUs provide a combo interface status LED to indicate the link status and data receiving forwarding status of the corresponding combo interface 12 Table 69 Combo interface status LED description LED LED status __ Description Flashing The combo interface is receiving or sending data Com
83. e lightning protection and anti interterence of the switch Grounding the switch with a grounding strip A CAUTION e Use the supplied grounding cable yellow green grounding cable e Connect the grounding cable to the earthing system in the equipment room Do not connect it to a fire main or lightning rod If a grounding strip is available at the installation site connect the grounding cable through the grounding strip To connect the grounding cable 1 Unpack the grounding cable The grounding cable provided with the switch series is compliant with the NEBS standards 2 Remove the grounding screws from the rear panel of the switch chassis as shown in callout 2 on Figure 14 3 Attach the grounding screw to the dual hole terminal of the grounding cable Use a screwdriver to fasten the grounding screw into the grounding screw hole 5 Connect the ring terminal of the grounding cable to the grounding post of the grounding strip and fasten the grounding cable to the grounding strip with the hex nut Figure 14 Connecting the grounding cable to a grounding strip 1 Attach the grounding screws with dual hole terminals to the grounding holes 2 Grounding holes 3 Grounding strip 4 Grounding post 5 Ring terminal 6 Hex nut Grounding the switch through the PE wire of an AC power supply If the installation site has no available grounding strips you ground an AC powered switch through the PE wire of the AC power supply
84. e of PoE 1 is not in the rated voltage occurred to PoE1 range PoE INI This status has occurred in the following cases e The power supply is faulty Ott No power of PoE is input e An input power cord connection problem has occurred to PoE1 e The external power supply is unavailable Green The PoE power PoE2 is N A input correctly Red A power input problem has The input voltage of PoE2 is not in the rated voltage i occurred to PoE2 range PoE IN2 This status has occurred in the following cases e The power supply is faulty Off No power of PoE2 is input e An input power cord connection problem has occurred to PoE2 e The external power supply is unavailable Green The PoE power PoE3 is N A input correctly Red A power input problem has The input voltage of PoE3 is not in the rated voltage e occurred to PoE3 range PoE INS This status has occurred in the following cases e The power supply is faulty Off No power of PoE3 is input e An input power cord connection problem has occurred to PoE3 e The external power supply is unavailable 130 LED Status Description Analysis The PoE power is output Green N A correctly This status has occurred in the following cases e The power supply generates an alarm due to Red A PoE power output output short circuit output over current output problem has occurred over voltage or over temperature and enters PoE OUT the protection state e The PoE power switch is not tu
85. e power cords used in different countries or regions see Appendix B FRUs and compatibility matrixes Connecting the 300W AC 650W AC power cord The 300W AC and 650W AC are built in power supplies with AC input and DC output to supply power to the switch Before connecting power cord make sure the power switch is in the off position To connect the AC power cord 1 ae Se Make sure of the power cord model the 300W AC and 650W AC use a 10 A AC power cord Plug the power cord to the power receptacle on the power supply and ensure a good contact Plug the other end of the power cord to the AC power strip of the AC power source Turn on the power switch Examine the power supply input status LED If the LED is green the power cord is correctly connected If the LED is off or red examine the installation and solve the problem Then switch on the power supply to verify that the LED is green For description of 300W AC and 650W AC status LEDs see Appendix C LEDs Figure 20 Connecting an AC power cord oHz 10A n o 240v 50 6 1 AC power cord 2 Power switch O for off and for on 3 Power supply status LED Connecting a 1400W AC power cord The 1400W AC is a built in power supply with AC input and DC output to supply power to the switch Betore connecting power cord make sure the power switch is in the off position 24 Figure 21 Panel view of the 1400W AC 9 2 INPUT OVTROT FANI 6 4
86. ecifications Slide rail installation varies by rack type The following installation procedure is for your reference only To install a slide rail 1 Read the signs on the slide rail see Table 7 to avoid making a mistake Figure 4 Right slide rail 1RU Rack Unit 44 45mm 1 75 in 1 Sign 2 Guide rail 3 Installation hole Table 7 Description of signs on the slide rails Sign Meanin Remarks F L Front end of the left slide rail Mount this end to the front left rack post F R Front end of the right slide rail Mount this end to the front right rack post 2 Mark the position on the rack for installing the slide rail a Make sure the bottom edge of the slide rail aligns with the middle of the narrower metal area between holes as shown in Figure 5 b Each rack post requires six screws to fix the slide rail You only need to mark the uppermost square hole and lowermost square hole for installation c Mark the square holes at the same height on the other three rack posts One rack unit has three holes the middle of which is an auxiliary installation hole and the other two are standard installation holes You can distinguish them by the space between each two holes The space between a standard installation hole and an auxiliary installation hole is larger than that between two adjacent standard installation holes Figure 5 Locating the rack position for installing slide rails
87. el to the PoE port Connect the PoE power cord to the external PoE power supply Figure 32 Connecting a user supplied power cord 1 NEG terminal 2 RTN terminal 3 Grounding point Installing a CF card to an MPU optional If you select an MPU supporting CF card you can install a CF card as needed To install a CF card l Push the CF card eject button all the way into the slot and make sure the button does not project from the panel Push the CF card all the way into the CF card slot so that it does not automatically project as shown in callout 4 of Figure 33 At the same time the eject button projects When the switch is powered on examine the running status of the CF card 37 To examine the CF card status examine the CFS LED on the MPU of the switch If the LED is on the CF card is correctly installed For more information about CFS LED description see Appendix C LEDs Atter the switch is powered on you can examine the CF card running status at the CLI For more information see Hardware management and maintenance Figure 33 Installing a CF card 1 CF card eject button 2 CF card 3 CF card status LED 4 Insert the CF card into the slot Installing a transceiver module optional N CAUTION e To avoid component damage read this section carefully before installing a transceiver module e Do not remove the protection co
88. enance 83 Replacing a CF card A CAUTION Do not remove the CF card when the switch is booting or the CF card LED is flashing Otherwise the file system on the hardware or the CF card might be damaged Before replacing a CF card execute the umount command to unmount the CF card to ensure that the file system on the CF card is not damaged when you remove the CF card Atter 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 After you replace the CF card the system automatically loads the CF card To replace a CF card 1 Log in to the switch to execute the umount command For how to log in to the switch see Connecting your switch to the network 2 Press the eject button of the CF card reader as shown in callout 1 of Figure 52 The reader ejects the card part way out of the slot 3 Remove the CF card from the reader and put it in an antistatic shielding bag 4 Install a new CF card For the installation procedures see Installing FRUs Figure 52 Replacing the CF card 1 Press the eject button of the CF card reader 2 The reader ejects the card part way out of the slot 3 The ejector button of the CF card reader 4 CF card status LED 84 Replacing a transceiver module A WARNING When you install or remove a module e Do not stare at the fibers to a
89. entration mg m SO 0 2 H S 0 006 NH 0 05 Cl 0 01 EMI All electromagnetic interference EMI sources from outside or inside of the switch and application system adversely affect the switch in a conduction pattern of capacitance coupling inductance coupling electromagnetic wave radiation or common impedance including the grounding system coupling To prevent EMI take the following actions e Take measures against interference from the power grid e Use a grounding system and lighting protection system for the switch separate from those for other electric equipment and keep them far away as possible e Keep the switch far away from radio transmitting stations radar stations and high frequency devices e Use electromagnetic shielding for example shielded interface cables when necessary e Route interface cables only indoors to prevent signal ports from getting damaged by over voltage or over current caused by lightning strikes Grounding Using a good grounding system to protect your switch against lightning shocks interferences and ESD is essential to the operating reliability of your switch Make sure the resistance between the chassis and the ground is less than 1 ohm Power Perform the following tasks to meet the power requirements 1 Calculate the total power consumption The total power consumption varies by card type and density and fan assembly power consumption If the switch provides PoE pow
90. equirements in Table 2 Table 2 Temperature requirements Tem perature Range Operating temperature O C to 45 C 32 F to 113 F Storage temperature 40 C to 70 C 40 F to 158 F Humidity Maintain appropriate humidity in your equipment room as described in Table 3 e Lasting high relative humidity tends to cause poor insulation electricity creepage mechanical property change of materials and corrosion of metal parts e 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 3 Humidity requirements Humidity Range Operating humidity 10 to 95 noncondensing Storage humidity 5 to 95 noncondensing Cleanness Dust buildup on the chassis might result in electrostatic adsorption which causes poor contact of metal components and contact points especially when indoor relative humidity is low In the worst case electrostatic adsorption can cause communication failure Table 4 Dust concentration limit in the equipment room Substance Concentration limit particles m lt 3x 10 No visible dust on desk in three days Dust particles NOTE Dust particle diameter gt 5 um The equipment room must also meet strict limits on salts acids and sulfides to eliminate corrosion and premature aging of components as shown in Table 5 Table 5 Harmful gas limits in an equipment room Gas Maximum conc
91. er the total power consumption must also include PoE power consumption For more information about total power consumption calculation see Appendix A Chassis views and technical specifications 2 Select power supplies and identity the number of power supplies The total maximum output power of all power supplies must be higher than the total power consumption of the switch For more information about available power supplies see Appendix B FRUs and compatibility matrixes 3 Verity that the power supply system at the installation site meets the requirements of the power supplies including the input method and rated input voltage Cooling Plan the installation site for adequate ventilation e Leave at least 10 cm 3 94 in of clearance at the inlet and outlet air vents e The rack for the switch has a good cooling system e The installation site has a good cooling system e Verify that the airflow design of the chassis meets the airflow design of the installation site Figure 1 Airflow through the 7506 V chassis 1 Inlet air vents for the power supplies 2 Outlet air vents for the power supplies 3 Inlet air vents for the chassis 4 Outlet air vents for the chassis Figure 2 Airflow through other 7500 switch chassis 1 Inlet air vents for the power supplies 2 Outlet air vents for the power supplies 3 Inlet air vents for the chassis 4 Outlet air vents for the chassis Space For easy maintenance f
92. er supply handle by using a cable tie Plug the other end of the power cord to the AC power receptacle of the power source Turn on the power switch ote a Examine the power supply input status LED If the LED is green the power cord is correctly connected If the LED is off or red examine the installation and solve the problem Then switch on the power supply to verity that the LED is green For description of 6000W AC status LEDs see Appendix C LEDs 29 Figure 26 Connecting an AC power cord Connecting the 300W DC 650W DC power cord A CAUTION When connecting the power cord make sure the circuit breaker is completely turned off for both the positive and negative lines To connect the DC power cord l 2 3 Take off the protection cover Use a No 2 Phillips screwdriver to loosen the screws on the wiring terminals Connect the end of the blue DC power cord marked with to the negative terminal on the power supply and fasten the screw Connect the end of the black DC power cord marked with to the positive terminal on the power supply and fasten the screw Put the protection cover on the wiring terminals Connect the other ends of the DC power cords to the wiring terminals that provide a power supply to the switch Figure 27 Connecting a DC power cord 1 Protection cover 2 Screws 3 Wiring terminal 4 Grounding point 30 Connecting the 1400W DC power cord A CAUTION
93. erature it enters the self protection state Make sure the switch is well ventilated 3 Examine the power cable for a loose connection If a power cable is loose re plug the power cable If a power cable is broken replace it 4 Examine the power supply installation If the power supply is not fully seated re install the power supply to make sure it has a close contact with the backplane of the switch 75 Examine the power supply system Make sure the power supply system operates correctly and provides a normal voltage If the switch has empty power supply slots plug the power supply into an empty power supply slot and verify that the power supply can operate correctly Plug a new power supply of the same model into the same slot and connect it to the same power input end If the new power supply can work correctly the old power supply fails Contact the agents to replace the old power supply Fan failure The fan LEDs on the MPU include an OK LED and a FAIL LED When the fan assembly is operating correctly the OK LED is on and the FAIL LED is off If the fan assembly has failed the OK LED is off or the FAIL LED is on To troubleshoot the fan assembly 1 Verify that the power supply is operating correctly For more information see Power supply system failure Verify that the air intakes and exhaust vents of the chassis are not blocked If they are blocked clean them to keep good ventilation Verify that the fa
94. erminal to free the terminal and the cable from stress Do not use tapping screws to fasten the connecting terminals The power cord of the same type and in the same direction should be bound together and kept organized The following table lists the requirements in the binding with cable ties 142 Table 90 Tie binding parameters Cable bundle diameter mm Space between bundles mm 10 80 to 150 10 to 30 150 to 200 30 200 to 300 No cable or bundle can tie a knot The metal parts of the crimped cold pressed terminal blocks such as air switch cannot stretch beyond the blocks 143 Accessing the switch for the first time 45 Attaching an ESD wrist strap 20 Attaching slide rails and cage nuts to the rack 9 C Cable management requirements 141 CF card failure 78 CF cards 112 Chassis views 90 Configuring a software exception handling method 68 Configuring basic IRF settings 43 Configuring the switch 50 Confirming installation preparations 8 Connecting the physical IRF ports 43 Connecting the switch to the network 53 Contacting HP 87 Conventions 88 Correct use of labels 140 D DC cables 111 Displaying information about the switch 55 Displaying IRF information 68 Environmental specifications 101 Ethernet twisted pair cable 132 Examining the installation site 2 F Fan assembly 110 Fan failure 76 G General cabling requirements 140 Grounding the switch 17 Installation tools 6
95. es of the 7500 Switch Series see Module power consumption and total power consumption e Thermal output is measured in the unit of BTU h 1 W 3 4121 BTU h Environmental specifications Table 41 Environmental specifications for the 7500 Switch Series Description Operating Nonoperating Temperature O C to 45 C 32 F to 113 F 40 C to 70 C 40 F to 158 F Relative humidity 10 to 95 non condensing 5 to 95 non condensing Noise The 7500 Switch Series adopts different types of fan assemblies The 7503 S adopts fans with a fixed speed the fan speed does not change with the thermal output so the sound pressure level of the switch is fixed The other models adopt fans with the automatic speed adjustment function so the sound pressure levels are different when the fan speeds are different For more information see Table 42 Table 42 7500 sound pressure levels Sound pressure level when Sound pressure level when Sound pressure level Model the fan assembly operates the fan assembly operates when the fan assembly at low speed at middle speed operates at full speed 7502 49 8 dBA 51 6 dBA 56 7 dBA 7503 S N A N A 56 7 dBA 7503 51 6 dBA 54 6 dBA 56 1 dBA 7506 53 6 dBA 56 2 dBA 57 7 dBA 7510 53 5 dBA 55 8 dBA 56 7 dBA 7506 V 52 1 dBA 55 1 dBA 56 2 dBA 101 Appendix B FRUs and compatibility matrixes NOTE In the compatibility matrixes in this appendix a solid dot represents compatible and a dash represe
96. esereseceseerseceseeeseeeseoseeesee 5 Configuration example E LEE EEE E E E E es as nt E T T T 5 Verifying the network configuration P E E E E S sa canurdsanmea sean aaandencsaaseadeanesaesasaueas 52 Connecting the switch to the Network eeeeeeeeeeeeeeeeeeeseeeeeeeeeseeseeseoseeseeeeeeeeseeseoseoseoseoseessessesseseeeroseoseeresoseoseosseseessessessesseesee 53 Connecting your switch to the network through twisted pair cables eeesseeseeseeseesesereeeeereseeseoseeseoseeseeseoseoseeseoseeo 53 Connecting your switch to the network through optical fibers sereereeeseerseeeeeeseeeseeseesseoseeeseeeseesseeseceseeeseeseeosseeesee 53 Testing connectivity E a a a a E E E 54 Hardware management and maintenance eeeeeeeeeeeseeeeseereerseesessesesrereseeseseeresesreseseesesresescoresesresesreresreseseesesrereseeseseeses 55 Displaying information about the Switch eeeeeeeeeseeeseeeeeeseeeseeeseesseeseeeseensenseeseeoseeeseenseeseeoseceseesseesecosecesreeseeseeoseeeseesseeseeesee 55 Displaying software and hardware version information eeeeeeeeeeeeeeereeeeeereeeseeeseeeseeseeeseeseeeseeseeeseeeseesseesseeseeeeseeseee 55 Displaying switch running informat tjon eeeeeeeeeereeeeeereeeeeeerereseeeseeseresereseeeseeseeoseroseceseesseesereseceseesseeseesereseceseesseeseresee 57 Displaying detailed information about a card eeeeeeeeeeeeeeeereeeseeseeeseeeseeeseessesseeseeeseesseeseeoseeeseesseesseoseeoreesseeseeoseeeseee 58 Displaying electronic label data eeeeeeeeeeeeeeeeeeeeereereereere
97. face XFP LC card 24 port Gigabit electrical interface RJ 45 2 port 10 Gigabit optical interface XFP LC card 40 port Gigabit electrical interface RJ 45 8 port Gigabit optical interface SFP LC card 4 port 40 G optical Ethernet interface QSFP MPO card 4 port 40 G optical interface CFP card 16 port Gigabit optical Ethernet interface SFP LC 8 port Gigabit combo interface card Conn ector RJ 45 LC LC RJ 45 LC RJ 45 LC MPO RJ 45 105 Number of interfaces 24 24 24 40 24 Interface transmission rate 10 100 1000 Mbps halt full duplex 1000 100 Mbps 1000 100 Mbps 10 Gbps 10 100 1000 Mbps half tull duplex 10 Gbps 10 100 1000 Mbps half tull duplex 1000 100 Mbps 40 Gbps 40 Gbps 1000 100 Mbps 10 100 1000 Mbps half tull duplex Available transceiver modules N A e Gigabit SFP module e 100 Mbps SFP module e Gigabit SFP module e 100 Mbps SFP module 10 Gigabit XFP module N A 10 Gigabit XFP module N A e Gigabit SFP module e 100 Mbps SFP module e QSFP module e QSFP cable e QSFP to SFP cable e CFP module e Gigabit SFP module e 100 Mbps SFP module N A LPU LSQ1GP24TXSD O LSQ1GP48SD0 LSQ1GV48SDO LSQITGX2SD0 LSQ 1TGX4SDO LSQ 1TGX8SDO LSQ 1GP24TEBO LSQ1GP48EBO LSQITGX2EBO Description 16 port Gigabit optical Ethernet interfa
98. for a link problem e DIS No physical port is bound to the IRF port ohb The member ID of the switch that connects to this IRF port If the IRF port does not connect taal to any switch two hyphens are displayed The IRF fabric that the switch belongs to represented by the CPU MAC address of the Belong To master switch Saving the running configuration To save the running configuration use one of the following methods Fast saving mode Executing the save command without the safely keyword This mode saves configuration quickly but the configuration can be lost if a reboot or power failure has occurred during the saving process Use this mode if stable power supply is available Safe mode Executing the save command with the safely keyword This mode takes more time to save configuration but it has no configuration loss risk even if the device reboots or the power supply fails during the saving process Use this mode in an unstable power supply environment or for remote maintenance Use one of the following commands to save the running configuration Task Command Remarks Available in any view e The extension of the configuration file must be cfg e You specify chassis chassis number only when the switch is in IRF mode save file url all e The all keyword saves the configuration to all chassis MPUs chassis number slot slot number Save the running configuration to a file other than the startup file fo
99. g an MPO optical fiber connector to connect a QSFP module MPO plug Testing connectivity After you plug the switch into the network use the ping or tracert command to test the network connectivity For more information about these commands see HP 7500 Switch Series Command References 54 Hardware management and maintenance NOTE The command output depends on your software version Displaying information about the switch Displaying software and hardware version information You can use the display version command to display the switch software and hardware version information including the version of the running software and hardware uptime of the switch and type and uptime of each MPU and LPU The output of the display version command depends on your switch model and software and hardware versions lt Sysname gt display version HP Comware Platform Software Comware Software Version 5 20 99 Release 6620 Copyright c 2010 2011 Hewlett Packard Development Company L P HP 7503 uptime is 0 week 0 day 6 hours 57 minutes MPU M 0 Uptime is 0 weeks 0 days 6 hours 57 minutes HP 7503 MPU M with 1 BCM1125H Processor BOARD TYPE LSQISRP2XB DRAM 512M bytes FLASH 64M bytes NVRAM 512K bytes PCB 1 Version VER B PCB 2 Version VER B Bootrom Version 301 CPLD 1 Version 006 CPLD 2 Version 006 Release Version HP 7503 6620 Patch Version None MPU S 1 Uptime is 0 weeks 0 days 1 hours 23 min
100. has a higher modal dispersion than single mode optical fiber It is mostly used for communication over shorter distances Table 89 Allowed maximum tensile force and crush load Period of force Tensile load N Crush load N mm Short period 150 500 Long term 80 100 Concepts Optical fiber cable An optical fiber cable is a bundle of optical fibers The optical fiber elements are typically individually coated with plastic layers and contained in a protective tube Optical fiber cables fall into single mode and multi mode Patch cord A fiber that has connectors at both ends is called a patch cord A patch cord connects one optical device to another for signal routing Patch cords fall into single mode and multi mode patch cords e Single mode patch cord The jacket is yellow It permits transmission over longer distances e Multimode patch cord The jacket is orange It permits transmission over shorter distances Patch cords are classitied into SC LC FC and so on by intertace type Typical lengths of patch cords include 0 5 m 1 64 ft 1 m 3 28 ft 2 m 6 56 ft 3 m 9 84 ft 5 m 16 40 ft and 10 m 32 81 ft 136 Pigtail cord A pigtail cord is an optical fiber that has an optical connector on one end and a length of exposed fiber on the other The end of the pigtail is fusion spliced to a fiber connecting the fiber cable and transceiver Pigtail cords fall into single mode yellow and multi mode orange and can als
101. he PoE DIMM 6 Verify that the clips lock the master PoE DIMM 7 Repeat steps 3 through 6 to install the slave DIMM to the slave DIMM slot there is a Slave mark on the PCB under the slot 35 Connecting an external PoE power supply A CAUTION To ensure steady operation of the switch when you use your own PoE power cord make sure the cross section of the cable is no less than 8 4 mm 0 01 in and the power cord can carry 50 A current To supply PoE power to 7502 or 7503 S a PoE power cord is required to connect the external PoE power supply to the PoE input on the chassis rear panel You can use an A RPS800 or other DC power supplies that can satisfy PoE input requirements voltage range 46 V to 57 V 52 V to 57 V for type 2 and maximum current 40 A as the external PoE power supply If you use an A RPS800 as the external PoE power supply HP recommends that you order the HP X290 14 pin Mini Fit to 2 x OT Copper Lug 1m RPS Power Cable JG332A For more information about the cable see Appendix B FRUs and compatibility matrixes Connecting the A RPS 800 to the switch 1 Remove the blank panel covering the PoE port of the switch 2 Connect the OT terminal with a sign on the blue wire to the NEG terminal on the PoE power supply socket and fasten the captive screw Connect the OT terminal with a sign on the black wire to the RTN terminal on the PoE power supply socket and fasten the captive screw
102. he MPUs Step Command Remarks 1 Enter system view system view N A 2 Enable active standby mode Optional for the Ethernet ports on the _strict standby enable By default concurrent mode MPUs applies Veritying and diagnosing transceiver modules Veritying transceiver modules You can verify the genuineness of a transceiver module in the following ways e Display the key parameters of a transceiver module including its transceiver type connector type central wavelength of the transmit laser transfer distance and vendor name Display its electronic label The electronic label is a protile of the transceiver module and contains the permanent configuration including the serial number manufacturing date and vendor name The data is written to the storage component during debugging or testing To verify transceiver modules perform the following commands in any view Task Command display transceiver interface interface type Display key parameters of the pluggable transceiver interface number begin exclude include regular expression display transceiver manuinfo interface interface type interface number begin exclude include regular expression Display the electrical label information of the pluggable transceiver Diagnosing transceiver modules The device provides the alarm function and digital diagnosis function for transceiver modules When a transceiver module fails or inapp
103. he daisy chain topology If the system software version you are using supports more than two IRF members you can create an IRF fabric that comprises more than two members in daisy chain topology or more reliably ring topology In ring topology the failure of one IRF link does not cause the IRF fabric to split as in daisy chain topology Rather the IRF fabric changes to a daisy chain topology without interrupting network services Identifying physical IRF ports on the member switches Identify the physical IRF ports on the member switches according to your topology and connection scheme On 7500 switches only 10 GE 40 GE ports can be used for IRF connection The 7500 switches support multi card link aggregation for IRF ports You can bind up to eight physical ports to one IRF port 42 Installing IRF member switches Step Reference 1 Prepare the installation site Preparing for installation 2 Rack mount the IRF member switches to racks Installing the switch 3 Install modules on IRF member switches Installing FRUs Contiguring basic IRF settings A CAUTION If one or two LSQ1SRP2XB MPUs are used the switch automatically creates one virtual LPU slot for each MPU slot and the LPU slot numbers are higher than the largest physical LPU slot number To bind the XFP ports on one MPU to an IRF port you must access the virtual LPU for the MPU You can use the display device command to display information about the virtual LPU slot
104. hp com go networkin e HP manuals http 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 e HP Education http www hp com learn 87 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 Piet Braces enclose a set of required syntax choices separated by vertical bars from which Yio you select one Cota Square brackets enclose a set of optional syntax choices separated by vertical bars from a Nite which you select one or none beet ed Asterisk marked braces enclose a set of required syntax choices separated by vertical ELS bars from which you select at least one CATRE Asterisk marked square brackets enclose optional syntax choices separated by vertical yi bars from which you select one choice multiple choices or none 2 lt l n gt 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
105. ield Description Current member ID of the device MemberlD If no member ID has been assigned this field displays two hyphens Member priority Priority This field is available only in standalone mode enD The member ID re assigned to the switch This setting takes effect at reboot ew This field is available only in IRF mode IRF Port Ports bound to IRF port 1 To bring up IRF port 1 you must bind at least one physical port to it If no ports have bound to IRF port 1 this field displays disable RF Port2 Ports bound to IRF port 2 To bring up IRF port 2 you must bind at least one physical port to it If no ports have bound to IRF port 2 this field displays disable Displaying IRF topology information Use the display irf topology command to display IRF topology information lt Sysname gt display irf topology Topology Info IRF Port1 IRF Port2 Switch Link neighbor Link neighbor Belong To 70 1 2 DIS UP 2 00e0 fc0f 8c0f UP 1 DOWN 00e0 fc0f 8c0f The output shows that IRF port 2 of member switch 1 connects to IRF port 1 of member switch 2 Table 24 Command output Field Description Switch Member ID of the switch IRF Port Information about IRF port 1 including its link state and neighbor IRF Port2 Information about IRF port 2 including its link state and neighbor Link state of the IRF port e UP The IRF link is up and operating correctly Link n e DOWN fThe IRF link is down for example
106. ility and manageability For more information about IRF see HP 7500 Switch Series IRF Configuration Guide IRF fabric setup tlowchart Figure 36 IRF fabric setup flowchart Start Plan IRF fabric setup Install IRF member switches Power on the switches Configure basic IRF Connect physical IRF settings ports Access the IRF fabric to verify the configuration End NOTE For the actual procedure see HP 7500 Switch Series IRF Contiguration Guide tor the software release you are using Planning IRF fabric setup This section describes issues that an IRF fabric setup plan must cover Planning IRF fabric size and the installation site Plan IRF fabric size and the installation site as follows 1 Use HP 7500 Switch Series IRF Configuration Guide as a reference to identify the number of member switches that your system software version supports for a 7500 IRF fabric 2 Choose 7500 switch models for your network IRF capable 7500 switches include the 7503 7506 7510 and 7506 V The member switches in a 7500 IRF fabric must be the same model 3 Select LPUs that can provide 10 GE 40 GE optical ports The 7500 switch series requires 10 GE 40 GE optical ports for IRF connection Available cards include the LSQ1SRP2XB JD193B MPU and the SC SD and EB type LPUs For more information about the LPUs see Appendix B FRUs and compatibility matrixes 4 Select XFP SFP QSFP CFP transceiver modules and fibers for long hau
107. ing data over shorter distances The maximum transmission distance is 100 m 328 08 ft RJ 45 connector An Ethernet twisted pair cable connects network devices through the RJ 45 connectors at the two ends Figure 57 shows the pinouts of an RJ 45 connector Figure 57 RJ 45 connector pinout diagram PIN 8 e_ Cable pinouts EIA TIA cabling specifications define two standards 568A and 568B for cable pinouts e Standard 568A pin 1 white green stripe pin 2 green solid pin 3 white orange stripe pin 4 blue solid pin 5 white blue stripe pin 6 orange solid pin 7 white brown stripe pin 8 brown solid 132 e Standard 568B pin 1 white orange stripe pin 2 orange solid pin 3 white green stripe pin 4 blue solid pin 5 white blue stripe pin 6 green solid pin 7 white brown stripe pin 8 brown solid Cable type Based on performance Ethernet cables can be classified into category 3 category 4 category 5 category 5e category 6 and category 7 cable based on performance In LANs category 5 category 5e and category 6 are commonly used Table 86 Description on commonly used Ethernet cables Type Description Category 5 Transmits data at a maximum speed of 100 Mbps with a bandwidth of 100 MHz Category 5e Transmits data at a maximum speed of 1000 Mbps with a bandwidth of 100 MHz Category 6 Transmits data at a speed higher than 1 Gbps with a bandwidth of 250 MHz NOTE The RJ 45 Ethernet
108. ing plate the diameter of the cabling plate should be at least 25 times the tiber s diameter e When the fiber is being moved the curvature radius of the fiber should be at least 20 times the tiber s diameter e When the fiber is fixed the curvature radius of the fiber should be at least 10 times the fiber s diameter NOTE The fiber s diameter refers to the outer diameter of the fiber jacket Typically the diameter of a single core fiber is 0 9 mm 2 0 mm or 3 0 mm 0 04 in 0 08 in or 0 12 in Correct use of labels Betore binding the cables fill in the labels for them correctly and stick them to the right position on the cables 140 Cable management requirements Bind and put the cables inside the rack in an organized manner Make sure the cables do not have any kinks or sharp bends Figure 65 Cable binding example 1 Tangled Different cables power signal and PGND cables should be routed and bound separately rather than together in the rack If they are close to each other you can route them in cross shape For parallel routing the space between power cord and signal cable should be no less than 30 mm 1 18 in The cable management bracket and cable routing slot inside and outside the rack should be smooth and without sharp edges or tips The metal cable management hole should have a smooth and fully rounded surface or wear an insulating bush Use the right type of ties to bind the cables Do n
109. ing to the IP network segment distribution and usage in the current network 192 168 0 1 is used as an example Sysname Vlan interfacel ip address 192 168 0 1 24 Sysname Vlan interfacel quit Configure static routes Configure a static route with the destination IP address 172 16 1 0 and the next hop IP address 192 168 0 2 Sysname ip 2oute static 172 16 1 0 255 255 255 0 192 168 0 2 Configure VLANs Create VLAN 10 and enter its view Sysname vlan 10 Sysname vlan10 Assign port GigabitEthernet 2 0 1 to VLAN 10 Sysname vlan10 port gigabitethernet 2 0 1 Sysname vlan10 quit Configure MSTP Create an MST region named example map VLAN 10 to instance 1 and set the MSTP revision level to O Sysname stp region configuration Sysname mst region region name example Sysname mst region instance 1 vlan 10 Sysname mst region revision level 0 Activate the MST region configuration Sysname mst region active region configuration Sysname mst region quit Configure the switch as the primary root bridge of instance 1 Sysname stp instance 1 root primary Enable MSTP globally Sysname stp enable For more information about the access function configuration see HP 7500 Switch Series Layer 2 LAN Switching Configuration Guide Verifying the network configuration To verify the software version and network configuration perform display commands in any view 52 Task Command Displa
110. inute before the rebooting time and then reboots in one minute e For data security the switch does not run a scheduled reboot task if you are performing a file operation at the scheduled reboot time 73 Troubleshooting Troubleshooting methods When an HP 7500 switch fails you can use the following methods to troubleshoot the switch e Command line interface CLI provided by the switch At the CLI you can use the related commands to display the hardware information and locate the hardware failures For more information about the CLI see Hardware management and maintenance e The main processing unit MPU provides the LEDs for the power supply system fan assembly MPUs line processing units LPUs CF cards and ports You can locate the failures according to the LED status on the MPU For more information about the LED status on the MPU see Appendix C LEDs e The LPU of the switch provides the port status LEDs with which you can detect port failures For more information about the LED status on the LPU see Appendix C LEDs NOTE If you cannot locate failures by following the guidelines in this chapter see Support and other resources Q TIP Clean your switch periodically because the noncompliant operating environments of switches might cause switch failures At the same time examine the installation environments against the requirements in Preparing for installation Make sure the switch operates in a com
111. kg 6 46 lb 40mm 1 57 in 399mm 15 71 in 352 mm 13 86 in LSQ 1TGX8SDO 3 23 kg 7 12 Ib 40 mm 1 57 in 399 mm 15 71 in 352 mm 13 86 in LSQ1GP24TEBO 3 04 kg 6 70 lb 40mm 1 57 in 399 mm 15 71 in 352 mm 13 86 in LSQ1GP48EBO 3 25 kg 7 16 lb 40mm 1 57 in 399 mm 15 71 in 352 mm 13 86 in LSQ1TGX2EBO 2 93 kg 6 46 lb 40mm 1 57 in 399mm 15 71 in 352 mm 13 86 in LSQ1TGX4EBO 2 93 kg 6 46 lb 40 mm 1 57 in 399 mm 15 71 in 352 mm 13 86 in LSU3WCMDO 3 62 kg 7 98 lb 40mm 1 57 in 399 mm 15 71 in 352 mm 13 86 in LSUTFWCEAO 3 9 kg 8 60 lb 40mm 1 57 in 399 mm 15 71 in 352 mm 13 86 in LSQIFWBSCO 3 23 kg 7 12 lb 40mm 1 57 in 399 mm 15 71 in 352 mm 13 86 in LSQILBSCO 3 23 kg 7 12 1b 40 mm 1 57 in 399mm 15 71 in 352 mm 13 86 in LSQINSMSCO 3 23 kg 7 12 1b 40mm 1 57 in 399 mm 15 71 in 352 mm 13 86 in LSQISSLSCO 3 1 kg 6 83 lb 40mm 1 57 in 399 mm 15 71 in 352 mm 13 86 in 96 NOTE The dimensions of the cards are measured as follows e H Height of the card front panel e W Width of the card front panel e D Depth from the card front panel to the connector Table 37 Power supply weights and dimensions Dimensions Model Weight oe Height Width Depth 300W AC 1 9 kg 4 19 Ib 40 mm 1 57 in 140 mm 5 51 in 350 mm 13 78 in 300W DC 1 9 kg 4 19 Ib 40 mm 1 57 in 140 mm 5 51 in 350 mm 13 78 in 650W AC 2 5 kg 5 51 b 40 mm 1 57 in 140 mm 5 51 in 350 mm 13 78 in 650WD
112. l IRF connection Select SFP QSFP QSFP to SFP cables for short haul IRF connection For more information about transceiver modules and cables see Appendix B FRUs and compatibility matrixes 5 Plan the installation site Identifying the master switch and planning IRF member IDs Determine which switch you want to use as the master for managing all member switches in the IRF fabric An IRF fabric has only one master switch You configure and manage all member switches in the IRF fabric at the CLI of the master IRF member switches will automatically elect a master You can affect the election result by assigning a high member priority to the intended master switch For more information about master election see HP 7500 Switch Series IRF Configuration Guide Prepare an IRF member ID assignment scheme An IRF fabric uses member IDs to uniquely identity and manage its members and you must assign each IRF member switch a unique member ID Planning IRF topology and connections Connect the IRF member switches through IRF ports the logical interfaces for the connections between IRF member switches Each IRF member switch has two IRF ports IRF port 1 and IRF port 2 To use an IRF port you must bind at least one physical port to it When connecting two neighboring IRF member switches you must connect the physical ports of IRF port 1 on one switch to the physical ports of IRF port 2 on the other switch A two member IRF fabric must use t
113. lt an MPU automatically reboots when instruction error illegal address error data overtlow null pointer reset or any other software anomaly has occurred You can also configure the MPUs to stay in the error condition without taking any protective action to preserve the error information for identifying the problem To contigure a software exception handling method for MPUs Step Command Remarks 1 Enter system view system view N A 2 Configure a software a Optional on handli hod system failure maintain exception handling metho By default an MPU reboots when for MPUs reboot software exception has occurred Displaying the exception handling method Use the display system failure command to display the exception handling method lt Sysname gt display system failure System failure handling method reboot Displaying IRF intormation Displaying information about all IRF member switches Use the display irf command to display information about all IRF member switches lt Sysname gt display irf 68 Switch Slot Role Priority CPU Mac Description x 1 0 Master 1 00e0 fc0a 15e0 F1Num001 1 1 Slave al O0S0 fe0L 8602 2 1 Slave 1 00e0 fc0f 8c1f F1Num002 2 il Slave 1 006e0 fc0f 8clg indicates the device is the master indicates the device through which the user logs in The Bridge MAC of the IRF is 000f e26a 58ed Auto upgrade no Mac persistent always Domain ID 30 Auto merge no Table
114. m 2000 300 m 984 25 ft 50 125 500 82 m 269 03 ft JD117B i ERO B56 400 66 m 216 54 ft ere 220 33 m 108 27 fi 5 125 160 26 m 85 3 ft progg It ANS TOG APIS IR 1310 9 125 N A 10 km 6 21 miles mo HPX135 10G XFPLCER a ies ve 40 km 24 86 Transceiver miles pioa HPX130 10G XFPLC ZR s0 ee wa 80 km 49 71 Transceiver miles HP X180 10G XFP LC LH JG226A 80km 1538 98nm 1538 98 9 125 N A ie 7 49 71 DWDM Transceiver les HP X180 10G XFP LC LH JG227A 80km 1539 77nm 1539 77 9 125 N A ie y 49 71 DWDM Transceiver les HP X180 10G XFP LC LH JG228A 80km 1540 56nm 1540 56 9 125 N A ie i or DWDM Transceiver les HP X180 10G XFP LC LH JG229A 80km 1542 14nm 1542 14 9 125 N A ie 4 49 71 DWDM Transceiver les HP X180 10G XFP LC LH JG230A 80km 1542 94nm 1542 94 9 125 N A in 49 71 DWDM Transceiver HP X180 10G XFP LC LH JG231A 80km 1558 98nm 1558 98 9 125 N A a S DWDM Transceiver HP X180 10G XFP LC LH JG232A 80km 1559 79nm 1559 79 9 125 N A ie i G DWDM Transceiver les HP X180 10G XFP LC LH JG233A 80km 1560 61nm 1560 61 9 125 N A ce 49 71 DWDM Transceiver NOTE The 9 125um single mode fibers used by modules JG226A through JG233A should conform to ITU T G 655 and those used by other modules should conform to ITU T G 652 114 Table 56 SFP modules available for the 7500 switches Multimode Product a oie th Fiber fiber modal am Code Description g diameter um bandwidth transmission nm distance MHz km 2000 300
115. mmand to display the operating status of power supplies lt Sysname gt display power Power L state Normal Power 2 State Absent Table 21 Command output Field Description Power 1 Power supply number Power supply status Stat e Normal The power supply is correctly operating ate e Absent The power supply is absent e Fault The power supply has failed Contiguring the temperature thresholds for a card The switch sends traps when the temperature of a card crosses the lower or upper temperature threshold You can change the temperature threshold settings for a card as needed so you can remove the alarm condition in time To contigure and display the temperature thresholds for a card 64 Step Command Remarks 1 Enter system view system view N A Optional 2 Configure the temperature temperature limit slot slofnumber By default the lower temperature thresholds for a card in hotspot sensor number lowerlimit threshold is O C 32 F the standalone mode warninglimit alarmlimit warning threshold is 80 C 176 F and the alarming threshold is 97 C 206 6 F The warning and alarming temperature limit chassis P thresholds must be higher than the 3 Configure the temperature chassis number slot slot number thresholds for a card in IRF h ber lowerlimi lower temperature threshold mode otspot sensor number lowerlimit warninglimit alarmlimit The alarming threshold must be higher than the
116. mmani 420 mm 16 54 in NOTE A rack unit RU is a measurement of the height of a rack 1 RU is 44 45 mm 1 75 in Table 36 Card weights and dimensions Dimensions Card model Weight ces 6060 lc a Height Width Depth LSQIMPUAO 1 35 kg 2 98 lb 45 mm 1 77 in 199 mm 7 83 in 352 mm 13 86 in ISQ1ICGP24TSCO 2 8 kg 6 18 lb 45mm 1 77 in 399 mm 15 71 in 352 mm 13 86 in LSQICGV24PSCO 2 86 kg 6 31 Ib 45 mm 1 77 in 399 mm 15 71 in 352 mm 13 86 in eal DONICE gg kg 7 94 lb 45 mm 1 77 in 399 mm 15 71 in 352 mm 13 86 in a Palenes ggg kg 7 85 lb 45 mm 1 77 in 399 mm 15 71 in 352 mm 13 86 in LSQ1SRP1CBO Salience ViTurbo 3 6 kg 7 94 lb 45 mm 1 77 in 399 mm 15 71 in 352 mm 13 86 in LSQ1SRP2XBO Salience Vk 1OGE 30 Kg 7 94 lb 45mm 1 77 in 399mm 15 71 in 352 mm 13 86 in LSQ1FP48SA0 3 05 kg 6 72 lb 40mm 1 57 in 399 mm 15 71 in 352 mm 13 86 in LSQ1FV48SA0 2 89 kg 6 37 Ib 40mm 1 57 in 399 mm 15 71 in 352 mm 13 86 in LSQ1GP24TSAO 2 77 kg 6 11 lb 40 mm 1 57 in 399 mm 15 71 in 352 mm 13 86 in 95 Dimensions Card model Weight PE _ Height Width Depth LSQ1GV24PSA0 2 8 kg 6 17 lb 40mm 1 57 in 399 mm 15 71 in 352 mm 13 86 in LSQ1GV48SA0 3 09 kg 6 81 Ib 40mm 1 57 in 399 mm 15 71 in 352 mm 13 86 in LSQ1GP12SC0 2 66 kg 5 86 Ib 40mm 1 57 in 399 mm 15 71 in 352 mm 13 86 in LSQ1GP24SC0 2 78 kg 6 13 lb 40mm 1 57 in 399mm 15 71 in 352 mm 13 86 in
117. n Install slide rails and cage nuts to the rack Install accessories to the chassis Install the switch to the rack Ground the switch Confirming installation preparations Before you install the 7500 switch verify that e You have read the chapter Preparing for installation carefully and the installation site meets all the requirements e A 19 inch rack is ready for use For how to install a rack see the rack installation guide e The rack is sturdy and securely grounded e No debris exists inside or around the rack e Choose a correct rack mounting position for the switch Make sure the heaviest device is placed at the bottom of the rack e The switch is ready for installation and has been carried to a place near the rack Attaching slide rails and cage nuts to the rack Installing slide rails If the rack has slide rails skip this section Betore you attach slide rails to the rack contirm the following items e The slide rails can support the weight of the switch For the weights of the 7500 switches see Appendix A Chassis views and technical specifications HP recommends that you order the HP X421 A Series Chassis Universal 4 Post Rack Mounting Kit JC665A For more information about the kit see Appendix B FRUs and compatibility matrixes e Identify the rack position for the switch For the height and other specifications of the 7500 Switch Series see Appendix A Chassis views and technical sp
118. n A RPS800 as the external PoE power supply order an HP X290 14 pin Mini Fit to 2 x OT Copper Lug 1m RPS Power Cable JG332A At one end of the cable is an H2 7 plug and at the other end of the cable are two OT terminals with a minus sign on the blue wire and a plus sign on the black wire If a 1400W DC power supply is used and the total power consumption of the switch the system power consumption plus the PoE power consumption is greater than 3300 W order HP X210 JG2 to T50 3m DC 2 Power Cables JG333A The cable kit includes two cables each having a minus sign on the blue wire and a plus sign on the black wire PoE DIMM You must install a PoE dual in line memory DIMM module on a PoE capable LPU except the LSQ1GV48SD0 and LSQ3GV48SC0 to supply power over Ethernet Use Table 49 to check for incompatibility when you install a PoE DIMM on an LPU If an incompatible PoE DIMM module is used the Ethernet ports on the LPU work as common Ethernet ports and do not supply power to powered devices PDs Table 49 PoE DIMM module and PoE capable LPU compatibility matrix PoE capable LPU PoE capable ports Compatible PoE DIMM modules PoE standard LSQ1GV48SDO 48 No PoE DIMM is required Type 1 Type 2 111 PoE capable LPU PoE capable ports Compatible PoE DIMM modules PoE standard LSQ3GV48SCO LSQ1CGV24PSCO LSQ1GV24PSCO 24 HP 7500 24 port PoE DIMM IJC67 1A Type LSQ1GV24PSA0 LSQIFV48SA0 LSQ1GV48SA0 48 HP 7500 48 por
119. n assembly is fully seated You can unplug the fan assembly plug it again and then fix the screws Verify that the empty LPU slots and power supply slots are installed with blank filler panels If not install blank filler panels for them to guarantee good ventilation MPU failure The status LEDs on the MPU show the status of a card in the corresponding slot According to the slot number of an MPU you can examine the corresponding LEDs for the MPU When the MPU operates correctly the RUN LED flashes 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 correctly For more information see Power supply system failure Verify that the MPU model is compatible with the chassis For more information see Appendix B FRUs and compatibility matrixes Press the RESET button of the MPU to reset the MPU After the MPU is reset verity that the corresponding RUN LED is on Verify that the MPU is fully seated You can unplug the MPU plug it again and make sure the MPU is fully seated If the switch has empty MPU slots plug the MPU into an empty MPU slot and verity that the MPU can operate correctly LPU failure The status LEDs on the MPU show the status of a card in the corresponding slot According to the slot number of an LPU you can check the corresponding LEDs for the LPU 76 Port When the LPU operates correctly the RUN LED flashes and
120. not place the switch on a moist area and avoid liquid flowing into the switch Make sure the ground is dry and flat and anti slip measures are in place Keep the chassis and installation tools away from walk areas Do not wear loose clothing jewelry for example necklace or any other things that could get caught in the chassis when you install and maintain the switch Electricity satety Clear the work area of possible hazards such as ungrounded power extension cables missing safety grounds and wet floors Locate the emergency power off switch in the room before installation so you can quickly shut power off when an electrical accident has occurred Unplug all external cables including power cords before moving the chassis Do not work alone when the switch has power Never assume that power has been disconnected from a circuit Always check Handling satety A CAUTION e When moving the switch hold the handles at both sides of the chassis e Do not hold the handle of the fan assembly power supply or back cover of the chassis or the air vents of chassis Any attempt to move the switch with these parts might cause equipment damage and even bodily injury When you move an HP 7500 switch follow these guidelines e Remove all external cables including the power cords before moving the chassis e Moving the chassis requires at least two persons and you can use a mechanical lift as needed e Lift and put down the
121. nstalling a power supply 1 Remove the blank filler 2 Push the power supply along the guide rails into the slot 3 Fasten the captive screws Follow the forward inertia of the power supply when inserting it into the chassis to ensure that the power supply has firm contact with the connector on the backplane To prevent damage to the power supply and the connection terminals on the backplane be sure to pull out the power supply first in case of any misalignment and then push it in again Connecting the power cord A WARNING Before connecting the power cord make sure the power supply that connects to the power cord is switched off Table 8 Power cord connection for the 7500 Switch Series Model tapi PoE support Power cord connection procedure 300W AC AC No Connecting the 300W AC 650W AC power cord 650W AC AC No Connecting the 300W AC 650W AC power cord 1400W AC AC No Connecting a 1400W AC power cord 2800W AC AC Yes Connecting a 2800W AC power cord 6000W AC AC Yes Connecting a 6000W AC power cord 300W DC DC No Connecting the 300W DC 650W DC power cord 650W DC DC No Connecting the 300W DC 650W DC power cord 1400W DC DC Yes Connecting the 1400W DC power cord Typically 10 A busbars are available in the equipment room but the 1400W AC 2800W AC and 6000W AC power supplies require a 16 A power cord AC so you need to use a 16 A busbar and 23 ensure that the AC power supply system can provide enough power For th
122. nts incompatible MPUs MPUs are the supervisor engines that manage and control the operations of a switch The MPUs for the 7500 switches also work as switching fabrics You can install up to two MPUs on an HP 7500 switch except the 7503 S and the MPUs must be the same model Table 43 describes the MPUs available for the 7500 switches and Table 44 describes the MPU and switch chassis compatibility Table 43 MPUs available for the 7500 switches Management MPU ae Ethernet ports m Other ports P 10 100BASE TX LSQ1MPUAO N A e 20x 10 100 1000Base T LSQ1CGV24PSCO 1 1 N A Ethernet ports RJ 45 e 4x combo interfaces e 16 x Gigabit 100 Mbps LSQ1CGP24TSCO 1 1 N A SFP ports LC e 8x combo interfaces LSQ1SRPBO N A Salience VI LSQISRPDO N A Salience VI Plus LSQ 1SRP1CB N A Salience VI Turbo LSQ1SRP2XBO 1 1 1 2 x 10 Gigabit XFP ports LC Salience VI 1OGE NOTE A combo interface has one SFP port and one RJ 45 Ethernet port These two ports cannot work simultaneously When you activate one port by using the undo shutdown command the other port automatically shuts down By default the lower numbered port is active 102 Table 44 MPU and 7500 switch chassis compatibility matrix MPU LSQ1MPUAO LSQ1CGP24TSCO LSQ1CGV24PSCO 7502 7503 S a LSQ1SRPBO Salience VI LSQ1SRPDO Salience VI Plus LSQ 1SRP1CB Salience Vl Turbo LSQ1SRP2XBO
123. o be classified into SC LC FC and so on based on interface type Fiber connector Fiber connectors are indispensable passive components in an optical fiber communication system They allow the removable connection between optical channels which makes the optical system debugging and maintenance more convenient and the transit dispatching of the system more flexible Figure 60 SC connector Usage guidelines Follow these guidelines when you connect an optical fiber e Make sure the fiber connector and fiber type match the transceiver module type e The fiber interfaces on some cards of the 7500 Switch Series have shielded covers Remove the shielded covers before using the fiber interfaces Fiber interfaces must be installed with shielded covers when they are not in use Keep them safely e Fiber connectors must be protected under safe and reliable outer packing and be fitted with dust caps Fiber connectors must be installed with dust caps when they are not in use Take care not to scratch their end face Replace the dust cap if it is loose or polluted e Before connecting a fiber use dust free paper and absolute alcohol to clean the end face of the fiber connector You can brush the end face only in one direction You also need to brush the end face of the fiber port e Never bend or curve a fiber when connecting it After a fiber is installed well the bend radius must be not less than 40 mm the minimum dynamic bend radius is
124. oin the IRF fabric The bridge MAC address preservation setting of the IRF fabric e 6min The bridge MAC address of the IRF fabric does not change within six minutes after the master switch leaves MAC persistent e always The bridge MAC address of the IRF fabric does not change after the master switch leaves e no As soon as the master leaves the IRF fabric uses the bridge MAC address of the newly elected master as its bridge MAC address Domain ID IRF domain ID 69 Field Description Whether the auto reboot for IRF fabric merge is enabled Auto merge e yes Enabled e no Disabled Displaying the basic IRF settings of IRF member switches Use the display irf configuration command to display the basic IRF settings that take effect after member switches reboot including their member IDs priority and IRF port bindings e Display the basic IRF settings that take effect after the member switch reboots when it is operating in standalone mode lt Sysname gt display irf configuration MemberID Priority IRF Portl IRF Port2 1 1 Ten GigabitEthernet2 0 1 disable e Display the basic IRF settings of all member switches after the member switches reboot and the IRF fabric is formed lt Sysname gt display irf configuration MemberID NewID IRF Portl IRF Port2 1 ili Ten GigabitEthernet1 2 0 1 disable Ten GigabitEthernet1 2 0 2 2 2 disable Ten GigabitEthernet2 3 0 1 Ten GigabitEthernet2 3 0 2 Table 23 Command output F
125. ollow these guidelines e __ Reserve at least 1 m 3 28 ft of clearance between the rack and walls or other devices e The equipment room is at least 3 m 9 84 ft high Installation tools Table 6 lists the tools and equipment that you might need during installation All of them are user supplied Table 6 Installation tools and equipment Catego Tool Measuring and rakao Long tape ruler of 1 meter gradienter marker chalk line and pencil Drills Percussion drill electric drill and several auxiliary drill bits Flat blade screwdriver P4 75 mm Phillips screwdriver P1 100 mm P2 150 mm and P3 250 mm Socket wrench M5 Socket wrench M6 Fastening tools Needle nose pliers diagonal pliers combination pliers wire stripping pliers crimping Small tools pliers RJ 45 crimping pliers file and handsaw ESD wrist strap hair brush tweezers paper knife hand bellows electric iron solder Auxiliary tools l y wire ladder cable stripper vacuum cleaner crowbar and rubber hammer Category Tool Tools for fiber optic cleaning Lint free paper and optical fiber microscope Multimeter 500 V Megohmmeter for measuring the insulation resistance error Equipment amp detector optical power meter and earth resistance tester Installing the switch CD IMPORTANT Keep the packages of the switch and the components for future use Figure 3 Hardware installation flow Check before installatio
126. on sr ereessscecesteseseeneeseeneestenecnecnteaneaceneenseassatccnscnseansatconccnseansanconscnctansancnnscnseansassencs 99 Fan assembly power consumption Ce EE EE ET E eT TT TCT eT eT eT mene me mr ere a mre 100 Thermal output itt tea cs scan in S E TE AE ET PIU Suteo mp so E A A E asm aru T A T 100 Environmental specitications esa ea ta eg ae St ta eran nce ee E E A EE Mote CTs 101 Nea ee T E E 101 Appendix B FRUs and compatibility matrixes eeeeeeereeerereeeererereeeereeereeeresescsescecererereseeeeesresoreseseerereresoseseorerereseseseseeeo 102 Ue oe N EE EN 102 LU a i re tre 103 Power supplies ee Te TT ee Te Te Te Te Te Te Te Te Te Te TT Te Te Tee TT Tee Tre TT TCC Ce rc reeC E rrr rn rn rr 109 Fan assembly vveresecsssssssseseessessesseseeseesesscsseessesseseessesceseesessssaseaesassaseassansassaseacenssaceaccsssansacansacasasnncasnnsnscensensnnsessseee 110 Mounting Accessories srr srsesseesstestesesstestesseseeseeseesseneeneeseeaeeaeeaeeaseaseatsansassascaseasenecassasesecacancnnsonsasacnscensencensenssssens 111 DO cobles e A a E ert rr er 111 Poar DIM NA catnscnasvascunsedarcnadsdasecandnnnsnayesustesgusacsusonussauageysasueanvaguneeensayesgevd duesasedesesededer wes eouausGrysasuanevawusen Wenn eaqenseeseavannnieees 111 Eae a E N ee 112 leche aie Ct n arenan aaa a a a EAE a EO Taari a aea aaae Teen E AAA a 112 Appendix C LEDs E E E ee Te E N eT Te CTT Te ETT E E E E E E E E E T 8 Np eT re rr er re 119 PU EDan aaa a a A aa aa a e a en a a es 122
127. ort numbers in this document are for illustration only and might be unavailable on your device 89 Appendix A Chassis views and technical specifications Chassis views Every 7500 switch chassis has an MPU section LPU section power supply section and fan assembly section Figure 54 uses the 7503 switch as an example Figure 54 Front view of the 7503 vee VY AV AV AV AV AV AV AV AV AV AVAY AV AV AV 4VVANM AY YAY 100AMOMBASE T RJ4 LAQIGVASA 1 1 a ee Ne eee AV AV AVAY AV AV AV AVAVAVAVAV AV AV AV A Gy A 1CHORHOOIBASE T RGE 1 2 oes V AV AV AV AV AV AV AV AV AV AVAYV a aaas Table 25 Chassis structure Section Description Ordering remarks Both MPUs and MPU slots are pink edged for kis ins OPARA AER ene aa eee install at least one MPU easy identification 1 MPU slots You can install two MPUs for active and standby switchover for all 7500 switches except the 7503 S An MPU is the supervisor and control engine and switching fabric for the switches 90 Section Description Ordering remarks Both LPU slots and LPUs are purple edged for easy identification 2 LPU slots The LPUs are interface cards that provide network services including receiving and forwarding trattic You must order LPUs as needed and install at least one LPU You must order power supplies as needed 3 Power and install at least one power supply You p pp y N A supply slots can also install two power supplies for
128. osreseesresreeseese 6 Installing the SWIICh eeeeeeeeeeseeeeeeeeeseeeeseseeseseesesesseseseeseseuseseesesessesesesreseerosesroseseeresrereseoreresresrereseereseoreresreseseoresesreseseeresresese 8 Confirming installation preparations did nia iat dS Ses Wioeutdldlans Sig SrsWidiea ig stsd g baialrsaig sg Win lald bald Us Nldlialatslns Gowns osorosis osese ssssssssss seess rossi sesira 8 Attaching slide rails and cage nuts to the rackeeeeeeeeeeeeeeeeeeeseeseeseeseeseeseeeeeeeeeseeeeeseeseoseoseosseseessessesseseeeseoseeseoseesesressesseeseene 9 Installing Ifo 0k col Ree EEE REO OEE OREO OeEO CeCe rere reer reeereerreeer teeter rere reerreerreetereerreerreeereerreerreerrrerrrerrrerereces 9 Installing cage al REESE REO EOOeEO CeO eee eee reer reer reeereeereerreerr reer erreerreeer etre cere eeeererrrerrrreerreerrerereeys 12 Installing mounting brackets and cable management bracketseeeeeeeeeeeeeseeseeseesseseeseeeeeeseeeeeseeseoseoseoseeseeseesseesees 13 Mounting the switch to the rackeeeeeeeeeseeseeeeeeeeeeeeeeeeeseeseeseeseeseeneseneenseeseeseeseoseoresseeseeseeseeseesroseoseosseoseosrosroseeseeseessessesseesees 16 Grounding the switch eeeeeeeeeeeeeeeeseeseeseeseeseeeeeseoseeseoseeseesseseeseeseeeseeseeseeseeseesroseosroseeseessesresseeseeseesresreseesrosresreseeseeseeseesseereesee 17 Grounding the switch with a grounding strip E E E E E E E E E E E 17 Grounding the switch through the PE wire of an AC power supply E E ET T 18 Grounding the switch through the RTN
129. ot bind cables with joined ties Cut the extra parts of the ties neatly after binding the cables leaving no sharp or angular tips See the following figure Figure 66 Cable binding example 2 Bind the cables wherever cable bending cannot be avoided However the cable ties cannot be placed inside the bending area in case of the likelihood of cable core break due to excessive stress See the following figure 141 Figure 67 Cable binding example 3 X 4 E The spare cables or excessive cable parts should be folded and bound and placed at a right place in the rack or on the cable routing slot A right place refers to the place where the cables will not affect the operation of the switch or impair the switch or be damaged The power cords cannot be tied on the slide rails of any mobile components Reserve some redundancy for the cables connecting to the mobile parts the PGND cable of the door for example to free the cables from possible stress Such a mobile part should be installed in such a way that the extra cable segments will not contact the heat source sharp points or edges Use high temperature cables against the heat sources For the cable terminals fixed using screw threads the screws or nuts should be securely fastened and prevented from loosing See the following figure Figure 68 Cable fixing example 000 1 Flat washer 2 Spring washer 3 Nut When using a hard power cord fix it near its t
130. ow these guidelines e The bend radius of the cable must be at least eight times the cable diameter e If the cable cannot be removed or installed verify that the removal or installation procedures are correct 85 e When you remove a cable pull the pull latch horizontally Otherwise the cable cannot be removed smoothly or even the module or slot could be damaged To replace an SFP QSFP QSFP to SFP cable 1 Wear an ESD wrist strap and make sure it makes good skin contact and is well grounded For more information see Installing FRUs 2 Gently press the cable plug in and then pull the pull latch on the cable outward to pull out the cable plug 3 Install a new cable For the installation procedures see Installing FRUs Replacing the PoE DIMM NOTE Before replacing a PoE DIMM remove the cables on the card where the PoE DIMM is installed and then remove the card from the switch For information about removing a card see Replacing a card To replace a PoE DIMM 1 Wear an ESD wrist strap and make sure it makes good skin contact and is well grounded For more information see Installing FRUs 2 Place the card steadily Find the PoE DIMM slot there is a Master mark on the PCB under the slot on the PCB 3 Pull the white clips on the two sides of the PoE DIMM slot outward as shown in callout 1 on Figure oS 4 Pull the PoE DIMM out along the guide rails as shown in callout 2 on Figure 53
131. ower supply instead of holding its handle for power supply movement Before installing a power supply make sure the power supply is switched off Make sure the power of the power supply can satisfy the requirements of the switch The switch uses 1 1 power redundancy and supports AC and DC power input You can select AC or DC power supply as needed For more information about optional power supplies see Appendix B FRUs and compatibility matrixes Installing a power supply A CAUTION If the captive screws cannot be fastened verify that the power supply is correctly installed To install the power supply 1 Wear an ESD wrist strap and make sure it makes good skin contact and is well grounded For more information see Attaching an ESD wrist strap As shown in callout 1 on Figure 19 remove the blank filler if any from the slot to be used Keep the blank filler correctly for future use Unpack the power supply and verity that the power supply model is correct Be sure to insert the power supply with its upside up Grasp the handle of the module with one hand and support the module bottom with the other As shown in callout 2 on Figure 19 gently push the power supply along the guide rails into the slot until it has firm contact with the slot As shown in callout 3 on Figure 19 use a Phillips screwdriver to fasten the captive screws on the power supply to secure the power supply into the chassis 22 Figure 19 I
132. ower supply is faulty e The power of the current power supply cannot satisfy the power requirements of the switch For example when the power supply does not support PoE or the PoE output power of the power supply cannot satisfy the PoE power supply requirements To ensure normal operation of the connected PDs use a power supply with a higher power For power supply compatibility information see Appendix B FRUs and compatibility matrixes The system power consumption is the total dynamic power consumption of all MPUs plus the total dynamic power consumption of all the LPUs plus the maximum power consumption of fans For more information see Appendix A Chassis views and technical specifications Figure 46 Power supply removal flow Power off the switch __ Remove the power cord Remove the power supply Figure 47 Power supply installation flow Install the power supply Connect the power cord Power on the switch To replace a power supply 1 Prepare an antistatic mat to place the removed power supply 79 Wear an ESD wrist strap and make sure it makes good skin contact and is well grounded For more information see Installing FRUs Turn off the switch on the power supply Remove the cable trom the power supply Use a Philips screwdriver to loosen the captive screw on the power supply as shown in callout 1 on Figure 48
133. perating correctly For more information see MPU failure or LPU failure 2 Examine the cable connection of the port For how to correctly connect the cable to an Ethernet port with an RJ 45 connector or a fiber port see Connecting your switch to the network 3 Verify that the cable is not broken Use the cable to connect two ports of the same type that operate correctly If the LEDs of the two ports are on the cable is normal Otherwise the cable fails Use a compliant cable to connect the port For more information about the compliant cables see Appendix D Cables 4 Ifthe port uses a transceiver module verify that the port type is compatible with the transceiver module and that the transceiver module is compatible with the cable For more information see Appendix B FRUs and compatibility matrixes 5 If the port uses a transceiver module make sure the current transceiver module operates correctly by replacing a normal transceiver 6 If the port is a combo interface which contains a fiber port and a copper port make sure the port used for connection is activated for the combo interface Then use the undo shutdown command to activate the port and check the LED For more information see Hardware management and maintenance 77 NOTE e A combo interface comprises an SFP port and an RJ 45 Ethernet port Only one of them can be activated at a time e Ifa port is brought down by the shutdown command use the undo
134. peration At the CLI you can use related commands to display the switch information and locate the failures For more information about the CLI see Hardware management and maintenance When you detect configuration errors re contigure the switch or restore the factory settings for the switch Power supply system failure When the switch operates correctly the LEDs related to the power supply system are as follows e The LED on the power supply is green On a power supply with multiple LEDs each LED indicates the status of a function For more information see Appendix C LEDs e For the PWR LEDs on the MPU the OK LED is on and the Fail LED is off NOTE e For more information about the PWR LEDs on an MPU and the LEDs on a power supply see Appendix C LEDs e After the power supply to the power supply is turned off it is normal that the LEDs stay on for a period of time When the LEDs do not conform to the status mentioned above the power supply does not work correctly To troubleshoot the power supply system 1 Verity that the switches of the power supply are turned on Power supplies 1400W DC 2800W AC and 6000W AC each have a system power switch and a PoE power switch If PoE is not enabled on the switch you do not need to turn on the PoE power switch and you only need to make sure the system power switch is turned on 2 Examine the power supply for an over temperature condition When a power supply is over temp
135. pliant environment Additionally periodically perform the power on test for the spare switches Troubleshooting the system Troubleshooting on startup After you power on the switch if the switch operates correctly the startup information appears on the console terminal If the console terminal displays nothing or garbled characters use the following methods to troubleshoot the switch No terminal display If the configuration terminal displays nothing when the switch is powered on verify the following items e The power supply system is operating correctly e The MPU is operating correctly e The console cable has been connected to the console port of the MPU If no problem is found the following failure reasons might apply e The console cable is connected to an incorrect serial interface the serial interface in use is not the one set on the terminal To solve this problem select a correct serial interface e The console cable fails To solve this problem replace the console cable 74 Garbled terminal display If terminal display is garbled verify that the following settings are configured for the terminal for example HyperTerminal e Baud rate 9 600 e Data bits 8 e Parity none e Stop bits 1 e Flow control none e _Emulation VT 100 When you modify the settings for the console port of the switch configure the same settings for the console terminal Troubleshooting the switch during o
136. ply is not switched on This status has occurred in the following cases e The power supply is faulty Off No power is output e A power cord connection problem has occurred e The external power supply is unavailable Green The fans are N A operating correctly This status has occurred in the following cases Red line ans pi e A fan failure has occurred operating incorrectly FAN e The power supply is not switched on This status has occurred in the following cases e The power supply is faulty Off The fans do not work P seni A power cord connection problem has occurred e The external power supply is unavailable 1400W DC power supply status LEDs The 1400W DC power supply provides these red green status LEDs power input LED INPUT power output LED OUTPUT fan LED FAN and PoE status LED PoE Table 82 1400W DC power supply status LED description LED Status Description Analysis The power is input correctly and the system Green a N A power output switch is INPUT turned on A power input problem l Red The input voltage is not in the rated voltage range has occurred 126 LED Status Description Analysis Off Green Red OUTPUT Off Green Red FAN Off Green Red PoE Off No power is input The power is output correctly A power output problem has occurred No power is output The fans are operating correctly The fans are opera
137. ports of the 7500 Switch Series use category 5 or higher Ethernet twisted pair cables for connection Based on pinouts Ethernet twisted pair cables can be classified into straight through and crossover cables based on their pinouts e Straight through The pinouts at both ends comply with standard 568B as shown in Figure 58 e Crossover The pinouts at one end comply with standard 568B and those at the other end comply with standard 568A as shown in Figure 59 133 Figure 58 Straight through cable 1white orange 2 orange 3 white green 4 blue 5 white blue 6 green 7 white brown 8 brown Straight through cable 1 white orange 2 orange 3 white green 4 blue IE 5 white blue 6 green 7 white brown 8 brown Figure 59 Crossover cable white orange 2 orange 3 white green 4 blue 5 white blue 6 green 7 white brown 8 brown Crossover cable 1 white green 2 green 3 white orange 4 blue 5 white blue 6 orange 7 white brown 8 brown Pin assignments Select an Ethernet twisted pair cable according to the RJ 45 Ethernet interface type on your device An RJ 45 Ethernet interface can be MDI for routers and PCs or MDIX for switches For the pinouts of RJ 45 Ethernet interfaces see Table 87 and Table 88 134 Table 87 RJ 45 MDI interface pinouts 10Base T 100Base TX 1000Base T Pin Signal Function Signal Function 1 Tx Send data BIDA Bi directional data cable A 2 Tx Send
138. present Off No link is present Power supply LEDs The 7500 Switch Series supports various power supply models Each power supply provides a LED to indicate the operating status of the power supply The power supply LEDs vary with power supply models 124 300W AC 300W DC power supply status LED The 300W AC 300W DC power supply provides a red green status LED Table 79 300W AC 300W DC power supply status LED description LED Status _ Description Analysis The power supply is Green N A operating correctly This status has occurred in the following cases e The power supply generates an alarm due to input Red The power supply is under voltage output short circuit output over current operating incorrectly output over voltage or over temperature and enters Power supply the protection state status LED e A fan failure has occurred This status has occurred in the following cases A power input e The power supply is faulty Off problem has e A power cord connection problem has occurred occurred e The external power supply is unavailable e The power supply is not switched on 650W AC 650W DC power supply status LED The 650W AC 650W DC power supply provides a red green status LED Table 80 650W AC 650W DC power supply status LED description LED Status Description Analysis Green The power supply is N A operating correctly This status has occurred in the following cases e The power supply generates an alarm due to input
139. r the next reboot e In standalone mode if neither all nor slot slot number are specified the command saves the configuration to the active MPU e In IRF mode if neither all nor chassis chassis number slot slot number are specitied the command saves the configuration to the active MPU on the master switch 7 Task Command Remarks Save the running configuration to the root directory of the storage medium and specity the file as the startup configuration file for the next reboot save safely force Available in any view NOTE The startup configuration file for the next reboot might be lost if a reboot or power failure has occurred during the saving process and the switch will reboot with the default contiguration Atter the switch reboots you must re specity the startup contiguration file for the next reboot For more information about the save commands see HP 7500 Switch Switches Fundamentals Configuration Guide Rebooting a card or the switch You must reboot the switch after you upgrade or maintain its boot file or configuration file You must also reboot an MPU or LPU after you change its operating mode The following methods are available for you to reboot the switch or a card Reboot the switch or a card at once e Schedule an automatic reboot of the switch at a specific data and time or after a certain amount of time e Power off and then power on the switch Use this approach with c
140. reseeeseee 67 Diagnosing transceiver modules eeeeeeeeeeseeseeseeseeeeeeeeeereeeeeeeseeseoseoseseeeseeseeseosresroseeseesreseesseeseesresreseeeeeeroseeseeseeseesseenee 67 Configuring a software exception handling methoqd seeeeeeeeeesereseeeseeeseeseeeseeeseesseeseceseceseesseeseeosereseeeseeserosereseeeseesseeseeesee 68 Configuring an exception handling methoqd eeeeeeeeeseeeseeseeeseeeseeeseeseeeseeeseesseesereseesseesseesereseeeseesecesereseeeseeseeeseoseceseee 68 Displaying the exception handling methoqd eeeeeeeeeeeeeeeeeeeeseeseeseeseeeeeeeneeeseeseoseoseoseeseessesseoreoseoseesreseosroseeseesreseeeeeene 68 Displaying IRE information eeeeeeseeeeeeeeeeseesereseereeesereseeeseeseeesereseeeseesseesereseceseesseosereseceseesseeseroseceseesseosereseceseeeseesereseeeseeeseese 68 Displaying information about all IRF member switchesg eeeeeeeeeeeeeeeseesseeseeeseeeseesseeseeoseenseenseesseoseeeseesseeseeoseeeseesseess 68 Displaying the basic IRF settings of IRF member switcheseeeeeeeeeeereeeseesseeseeeseeeseesseeseeeseeeseesseeseeoseeeseesseeseeoseeeseee 70 Displaying IRF topology information eeeeeeeeeeererreeesereseeeeeesereseeeseeeseeseesecesereseeeseeserosereseeeseeseroserercessresseeseresereseeeseese 70 Saving the running configuration E E E 71 Rebooting a card or the switch eeeeeeeeeeeeeeeeseeeeeseeseeseeseeseeeeeseossoseeseeseeseesseeseeseeseoseosroseoseeseeseeseeoseesresresrosrosreseeseeseessesseeseee 72 Troubleshooting sis ate wa T E E T E A E A E E E E E E E E T
141. rned on This status has occurred in the following cases e The power supply is faulty Ott No PoE power is output e An input power cord connection problem has occurred to PoE PoE2 and PoE3 e The external power supply is unavailable The PoE fans are operating Green N A correctly This status has occurred in the following cases Red ner eb tans ore Cpe rang A PoE fan failure has occurred incorrectly e The PoE power switch is not turned on PoE FAN This status has occurred in the following cases e The power supply is faulty Ott No PoE power is input e An input power cord connection problem has occurred to PoE PoE2 and PoE3 e The external power supply is unavailable 13 Appendix D Cables This chapter describes the cables available for connecting ports on MPUs and LPUs Table 85 Cable description Cable Port type Application Ethernet twisted pair cable RJ 45 Ethernet ports Connects RJ 45 Ethernet ports to transmit data Optical fiber Connects the fiber ports to transmit data SFP cable SFP ports Connects SFP ports to transmit data QSFP cable QSFP ports Connects QSFP ports to transmit data QSFP port at one end and QSFP to SFP cable SFP port at the other end Connects a QSFP port to an SFP port Ethernet twisted pair cable An Ethernet twisted pair cable consists of four pairs of insulated wires twisted together It mainly transmits analog signals and is advantageous in transmitt
142. ropriately work you can check for alarms present on the transceiver module to identity 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 diagnose transceiver modules perform the following commands in any view Task Command display transceiver alarm interface interface type interface number begin exclude include regular expression Display the current alarm information of the pluggable transceiver Task Command display transceiver diagnosis interface interface type interface number begin exclude include regular expression Display the currently measured values of the digital diagnosis parameters of the pluggable transceiver For more information about transceiver modules see HP A Series Switches Transceiver Modules User Guide For more information about transceiver related commands see HP 7500 Switch Series Fundamentals Command Reference Contiguring a software exception handling method Contiguring an exception handling method When you configure an exception handling method follow these guidelines e If two MPUs are used the reboot of the active MPU causes an active standby switchover e If one MPU is used the reboot of the active MPU causes the entire switch to reboot e An LPU always automatically reboots when it detects a software exception By defau
143. s After you install the IRF member switches power on the switches and log in to each IRF member switch see Connecting your switch to the network to configure their member IDs member priorities and IRF port bindings Follow these guidelines when you contigure the switches e You must first configure the member IDs member priorities and IRF port bindings for the IRF member switches save the configuration connect the member switches and change the operating mode of the switches to IRF mode e Assign the master switch higher member priority than any other switch e Bind physical ports to IRF port 1 on one switch and to IRF port 2 on the other switch e Execute the display irf configuration command to verify the basic IRF settings For more information about configuring basic IRF settings see HP 7500 Switch Series IRF Configuration Guide Connecting the physical IRF ports Connect the physical IRF ports of switches by following these guidelines e Use XFP transceiver modules and fibers to connect 10 Gigabit XFP ports e You can use SFP transceiver modules and fibers or use SFP cables to connect SFP ports SFP cables are used over a relatively short distance e Use CFP transceiver modules and fibers to connect CFP ports e When connecting XFP SFP CFP ports connect the transmit port of an XFP SFP CFP transceiver module at one end to the receive port of an XFP SFP CFP transceiver module at the other end e
144. s asaisa danas lssedad E 137 Pe ceed etree so ec tates enc cae cr actu T A une sa oN RN Sons 138 GN see ay eect se A nc oe nsec ose nc oe tase E E E ueusenerateeuesueasoreist 138 CNS hae ea cas sce recs E N wees Geran oR siren re eee stent 138 Appendix E Cabling recommendations eeeeeeeeeeeeeeseeeeseereeeeeeseeeeresreseseereseseesesresesrorescoresesreseseereseereseereseeresesreseseereeeee 140 General cabling requirements P ie ra Sec E E 140 Correct use of labels seeeseeeseeseesseeeseeeseeseeseeeseenseesseosereseeeseesseosereseeeseeseeosereseeoreeseeseeesereseeeseessereseeesreserosereseeeseeseresereseeeseese 140 Cable management requirements aAa E ra siete sta A AA A EE E E E EE nce cate cance are ie EEEE EE E 141 Index a ee ee re ee ee E E E E E a eer E a E E E re er ee ren E E E ree 144 Preparing for installation The HP 7500 Switch Series includes the models in Table 1 Table 1 HP 7500 Switch Series roduct code Description Alias JD242B HP 7502 Switch Chassis 7502 JD243B HP 7503 S Switch Chassis 7503 S JD240B HP 7503 Switch Chassis 7503 JD239B HP 7506 Switch Chassis 7506 JD241B HP 7506 V Switch Chassis 7506 V JD238B HP 7510 Switch Chassis 7510 Safety recommendations To avoid possible bodily injury and equipment damage read all safety recommendations carefully betore installation Note that the recommendations do not cover every possible hazardous condition General safety recommendations Keep the chassis clean and dust ree Do
145. seeseeseeseeeeeseeseeseoseoseoseoseeseessessesseeseeseesreseosseseosroseeseesresseeseesee 6 Displaying card CPU usage STATISTICS eeeeeeeereereeeeeeereereereereeresreseeseeseeseesreseeerosrosreseeseeseeereeseeseesresreseesreseesreseesseeseenee 62 Displaying card memory usage STOTISTICS coeeccrece cette eteeeeeeeteeeeeeeeeeseeescenscenseeaseeeeseeeseeeeeueseeseeaeseeeesensseeeeeeneeueeeueeeees 63 Displaying CE card informa ion eeeeeeeeeeeeeeeereresereeeeeeeesereseeeseeseeesereseeeseeseeosereseeeseesseesereseceseessesseesereseceseesseesereseeeseee 63 Displaying the operating status of the fan assembly E EE E EASE OE EEEE EEEE E 64 Displaying the operating status of power supplies EE E EE 64 Configuring the temperature thresholds for q caprgeeeeeeeeeeeeeeeeseeesereseeeseeseeesereseeeseeseeosereseeeseesseoseroseeeseesseoseroseeeseee 64 Port configuration and management PTPRE EEEE E E E 65 Configuring a combo in erfgceeeeeeeeeeeseeeseeeeeesereseeeseeeseesereseceseesseesereseeesreseeesereseeeseesecoseresreeseesseeeresereseeesresereseceseee 65 Enabling active standby mode for the network ports ON MP Us eeeeeeseesseesseesereseeeseeseeeseoseceseeeseeseeoseceseesseoseceseeee 66 Verifying and diagnosing transceiver modules seeeeeeeeesereseeeseeeeeesereseeeseeseeeseesereseeeseeseeosereseeeseeseeosereseeeseesseesereseeeseeeseese 67 Verifying transceiver modules eeeeeeeeseeeseeeeeesereseeeseesseeseesereseeeseesseesereseeeseesseosereseceseesseosereseeseeeseecsereseceseesseese
146. seeseeseeseeseeseeseoseeseeseessessenseeneeeseoseoseoseoseoseeseessessesseeeeeseoseeseosrosresresreseeseesreseeeeees 43 Configuring basic IRF settings E E T 43 Connecting the physical IRF ports E T E 43 Verifying the IRF fabric configuration E E E T 44 Connecting your switch to the network eeeeeeeeeeeeeeeeeseeeeseeeeeeseeseseereseereseeeesesseseseeresesreseorereseesesresesroseoresesrosesroresesreseeses 45 Accessing the switch for the first time eeeeeeeeeeeeeereeeeeeereeeseeeseeeseeseoseeeseeeseeeseeseeeseeeseeeseeseeoseeseceseeeseeosecoseceseesseosereseeeseesseese A5 Setting up the configuration environment eseeeeeeeeeeeeresereseeeeresereseceseeeseeseesereseceseeeseeseresereseeeseesereseesereeeresseesereseeeseee 45 Setting terminal parameters sane Seaedianasaseas ans aaansannesaniansanasaaesegensanaananaguaiaunienanaunaaucansdaasasasaauarsauer es eleudneceies Woes r sborra 46 Powering on the swit cheeeeeeeeeeseeseeseeseeseeeeeseeseeseoseeseeseessesseseeneeeseoseeseoseoseoseoseeseeseesresresrosrosroseeesresroseosreseeseesresseseeesees 49 Configuring the swit cheeeeeeeeeeeeeeesereseeeseeseeeseeeseeeseesseoseceseeeseesseosereseeeseeseeosecoseceseesseeserosecereeseesseesereseceseesseesereeeseesereseeseeeseee 50 Configuring authentication on a user in erfgceeeeeeeeeeeeereeeseereeereeeseesseeseeeseeeseesseesseoseeeseesseesseoseeeseesseeseroseeeseeseee 50 Configuring the basic access function seeeeeeeeeeeeeereeeseeeeeeeeesereseeeseesseesereseceseesseoseesereseeeseesse
147. strap and make sure it makes good skin contact and is well grounded For more information see Attaching an ESD wrist strap Unpack the CFP module Do not touch the golden finger of the module Holding both sides of the module gently push the module into the slot until it has firm contact with the slot See Figure 35 Fasten the captive screws 5 Connect the fiber to the module For the installation procedure see Connecting your switch to the network Figure 35 Installing a CFP module 1 Gently push the module into the slot 2 Fasten the captive screws Connecting an SFP QSFP QSFP to SFP cable Use SFP cables to connect SFP ports QSFP cables to connect QSFP ports and QSFP to SFP cables to connect QSFP and SFP ports All these cables are hot swappable To connect an SFP QSFP or QSFP to SFP cable 1 Wear an ESD wrist strap and make sure it makes good skin contact and is well grounded For more information see Attaching an ESD wrist strap 2 Unpack the cable Plug the cable connector into the port Make sure the cable connector is the right side up The bend radius of the cable must be at least eight times the cable diameter 40 Setting up an IRF fabric You can use HP IRF technology to connect and virtualize 7500 switches into a large virtual switch called an IRF fabric for flattened network topology high availability scalab
148. t PoE DIMM JD1928B Type 1 LSQ1GV48SCO LSQ1GV40PSCO 40 HP 7500 48 port PoE DIMM JD192B Type 1 NOTE e Type 1 A port outputs O to 15 4 W of power at 44 V to 57 V and the maximum current is 350 mA This type is applicable to class O to class 3 powered devices e Type 2 A port outputs O to 30 W of power at 50 V to 57 V and the maximum current is 600 mA This type is applicable to class O to class 4 powered devices NOTE The LSQ 1GV48SD0 and LSQ3GV48SC0 each can provide a maximum of 806 W power through PoE When you use the cards to power devices through PoE make sure the total power of PDs does not exceed 806 W CF cards You can install a CF card on some MPUs see Table 43 to expand storage space for saving files Table 50 CF cards available for the 7500 switches CF card model Description Storage capacity CF 256M HP 7500 256M Compact Flash Card JC686A 256 MB CF 5 12M HP 7500 512M Compact Flash Card JC685A 512 MB CF 1G HP 7500 1G Compact Flash Card JC684A 1 GB Transceiver modules This section describes the following transceiver modules e CFP transceiver modules Table 51 e QQSFP transceiver modules Table 52 e QSFP cables Table 53 e QSFP to SFP cables Table 54 e 10 Gigabit XFP transceiver modules Table 55 e 10 Gigabit SFP transceiver modules Table 56 e 10 Gigabit SFP cables Table 57 112 e Gigabit SFP transceiver modules Table 58 e 100 Mbps SFP transceiver modules Table
149. the ALM LED is off When the RUN LED is off the LPU fails To troubleshoot the LPU 1 Verify that the MPU is operating correctly For more information see MPU failure 2 Verity that the console terminal prompts that the software version is incompatible with the LPU in the current slot An LPU is compatible with a specific software version If the software version is incompatible with the LPU upgrade the software to a compatible version 3 Calculate the overall power consumption and make sure your power supply can provide enough power For more information see Appendix B FRUs and compatibility matrixes 4 Verity that the LPU is fully seated You can unplug the LPU plug it again and press the ejector levers inward until the ejector levers touch the panel tightly 5 If the switch has empty LPU slots plug the LPU into an empty LPU slot and verify that the LPU can work correctly failure The ports provided by MPUs and LPUs all have corresponding LEDs When a port connected to the network operates correctly the corresponding LED is on NOTE A management Ethernet port SFP port or XFP port each has two LEDs LINK and ACT The LED mentioned in this section for such a port refers to the LINK LED Each port of any other type has only one LED If the LED of a port connected to the network is off the port or the connecting cable might fail To troubleshoot the port 1 Verify that the MPU or LPU where the port resides is o
150. ting incorrectly The fans do not work The PoE power is output correctly A PoE power output problem has occurred No PoE power is output This status has occurred in the following cases e The power supply is faulty e A power cord connection problem has occurred e The external power supply is unavailable e The system power output switch is not turned on N A The power supply generates an alarm due to output short circuit output over current output over voltage or over temperature and enters the protection state This status has occurred in the following cases e The power supply is faulty e A power cord connection problem has occurred e The external power supply is unavailable e The system power output switch is not turned on N A A fan failure has occurred This status has occurred in the following cases e The power supply is faulty e A power cord connection problem has occurred e The external power supply is unavailable e The system power output switch is not turned on N A The PoE output voltage is not in the rated voltage range This status has occurred in the following cases e The power supply is faulty e A power cord connection problem has occurred e The external power supply is unavailable e The PoE power output switch is not turned on 2800W AC power supply status LEDs The 2800W AC power supply provides these red green status LEDs power input LED INP
151. to face the rear of the chassis towards the front of the rack 2 Use at least two persons to lift the switch until the bottom of the switch is a little higher than the slide rails on the rack HP recommends using a mechanical lift for moving your switch 3 Place the switch on the slide rails and slide the switch along the slide rails until the mounting brackets on the switch touch the front rack posts as shown in callout 1 on Figure 13 4 Attach the chassis to the rack with mounting screws Figure 13 Installing the chassis to the rack 7503 DOOOODODOOOROD OOO OOD oOOooOoY OOVUOOUOONOON OOOO oOoOoDoOoDoon HMOOWoOoOW a Cnn nnn nay OOooOooE ooo EE EEEE EEE QUO BOO OOD ODO BOO OOOO DOOODD Dannan nAn 9900 y y i y N I I I I Q i a 1 Slide the chassis into the rack 2 Left mounting bracket 3 Right mounting bracket 4 Screws for fixing the mounting brackets to the rack If the screw holes in the mounting brackets cannot align with the cage nuts on the rack verify 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 installed in the correct holes Grounding the switch A CAUTION Before you use the switch connect the grounding cable correctly to guarante
152. to the left mounting bracket 1 Left mounting bracket 2 Cable management bracket 3 Screw hole for installing the cable management bracket 4 Screw for tixing the cable management bracket to the left mounting bracket Installing mounting brackets Betore installing the switch to the rack install the mounting brackets to the chassis as shown in Figure 12 e 7506 V Facing the front of the switch mount the left and right mounting bracket to the two sides of the switch e Other models Facing the front of the switch mount the mounting bracket with a cable management bracket to the left of the switch and mount the mounting bracket without a cable management bracket to the right of the switch where the fan assembly is located Figure 12 Installing the mounting brackets 7503 1 Screws for fixing the mounting brackets to the chassis 2 Left mounting bracket 3 Right mounting bracket Mounting the switch to the rack A CAUTION e Do not hold the handle of the fan assembly power supply or the back cover of the chassis or the air vents of chassis Any attempt to carry the switch with these parts might cause equipment damage or even bodily injury e After placing the switch on the slide rails do not leave go of your hands immediately because this might tip the switch damaging the switch or even causing bodily injury To mount the switch in the rack 1 Move the chassis
153. tttrrrrrrrrrrertrtttrrererersssrersrsstttrteneeenssssseeesrttteens 38 Installing a CFP module eeeeeeeseeseesseeeseesseeseeeseeeeeeseesseeseeeseceseeeseeseroseceseesseesseosereseeeseeseeoseroseeessroseoseroseceseesseesereseeeseee 39 Connecting an SFP QSFP QSFP to SFP cable versseressssssesssstessecstentenneentensecntennecntenseeneennerntenteanennsennaes AO Setting up an IRF fabric eeeeeereesersereereereeseeseeseeseeeeseeseeseeseeeeseeseeseereseeseeseeseeresecsreseeseereereereseeseeseesreseeresecseeseeseeresecsreseeseee A IRF fabric setup flowcharp eeeeeeeeeeseeeeeeeeeesereseeeseeseeesereseeseeeseeseeeseceseeeseeseeesereseeeseeseeosereseceseessesseroseceseesseoseresereseesseesereseceseee A Planning IRF fabric setup cssessssssrsstesscstessecstessecnsensecstsasernesasecnseasernsssesanecassenecansasccaecassasccassanerassanccassanerensanenestans 4 Planning IRF fabric size ANC the installation sijeeeeeeeeeeeeeeeeeeseerseeeeeereeeseeeseeseeseeeseeeseeeseeseeeseeeseesseeseeoseeeseesseeseeesee A Identifying the master switch and planning IRF member Ds ceereeeeeeerereseeseeeseeeseeseeeseeeseesseesseoseeeseeeseesseesereseeeseee 42 Planning IRF topology and CONNECTIONS eeeeeeeeeeeeeereeeeeeeseeseeseesseseeseeeeeeeresresroseeseoseeseeseeseeereereesresresreseoseeseeseeseesseesee 42 Identifying physical IRF ports on the member switches eeeeeseeeeeeeeeesereseeseeseeeseceseeeseeseeoseceseesseeseeosereseeeseesereseeeseee 42 Installing IRF member switches eeeeeeeeeeeeesee
154. ut of the slot along slide rails as shown in callout 3 on Figure 49 6 Put the removed card on the antistatic mat 7 Install a new card For the installation procedures see Installing FRUs If no new card is to be installed install a blank panel to ensure heat dissipation of the switch and prevent dust from entering the switch Figure 49 Replacing a card 1 Loosen the captive screw 2 Move the ejector levers outwards 3 Supporting the bottom of the card pull out the card Replacing a tan assembly A CAUTION e When replacing the fan assembly do not touch the rotating fans to avoid bodily injury e To ensure normal operation of the switch install a new fan assembly within five minutes after the fan assembly is removed When the fan assembly fails replace the fan assembly to ensure normal operation of the switch The fan assembly handle of the 7506 V is ditferent from other models e The fan assembly handle of the 7506 V adopts a snap in design To remove or install a fan assembly rotate the handle out first as shown in Figure 50 e The fan assembly handle of the other models of the 7500 Switch Series is fixed to the fan assembly as shown in Figure 51 Replacing an 7506 V tan assembly Removing a fan assembly 1 Prepare an antistatic mat to place the removed fan assembly 2 Wear an ESD wrist strap and make sure it makes good skin contact and is well grounded For more information see Installing FRUs
155. utes HP 7503 MPU S with 1 BCM1125H Processor BOARD TYPE LSQ1ISRP2XB DRAM 512M bytes FLASH 64M bytes NVRAM 512K bytes PCB 1 Version VER B PCB 2 Version VER B 55 Bootrom Version CPLD 1 Version CPLD 2 Version Release Version Patch Version LPU 2 301 006 006 HP 7503 6620 None Uptime is 0 weeks 0 days 6 hours 55 minutes HP 7503 LPU with 1 BCM1122 Processor BOARD TYPE DRAM FLASH NVRAM PCB 1 Version Bootrom Version CPLD 1 Version Release Version Patch Version Slot 3 Without Board LPU 4 LSQ1GV48SA 512M bytes OM bytes OK bytes VER C 205 003 HP 7503 6620 None Uptime is 0 weeks 0O days 6 hours 56 minutes HP 7503 LPU with 1 BCM1122 Processor BOARD TYPE DRAM FLASH NVRAM PCB 1 Version Bootrom Version CPLD 1 Version Release Version Patch Version LPU 5 LSOLFV48SA 256M bytes OM bytes OK bytes VER C 205 004 HP 7503 6620 None Uptime is 0 weeks 0O days 6 hours 56 minutes HP 7503 LPU with 1 BCM1122 Processor BOARD TYPE DRAM FLASH NVRAM PCB 1 Version Bootrom Version CPLD 1 Version Release Version Patch Version LPU 6 SRP2XBSLAVE 512M bytes OM bytes OK bytes NA 205 NA HP 7503 6620 None 56 Uptime is 0 weeks O days 1 hours 25 minutes HP 7503 LPU with 1 BCM1122 Processor BOARD TYPE SRP2XBSLAVE DRAM 512M bytes FLASH OM bytes NVRAM OK bytes PCB 1 Version NA Bootrom Version 205
156. ver from a transceiver module before connecting an optical fiber e Remove the optical fiber if any from a transceiver module before installing it The transceiver modules available for the switch include SFP SFP XFP QSFP and CFP Installing an XFP SFP SFP QSFP transceiver module 1 Wear an ESD wrist strap and make sure it makes good skin contact and is well grounded For more information see Attaching an ESD wrist strap 2 Unpack the module Do not touch the golden finger of the module Pivot the clasp of the module up Holding the module gently push the module into the slot until it has firm contact with the slot when the top and bottom spring tabs catch in the slot as shown in Figure 34 o For a QSFP module that uses a plastic pull latch skip this step QSFP modules use either a metal or plastic pull latch They are installed in the same way except that you must pivot the clasp up for the module that uses a metal pull latch 38 o Foran SFP module press the module down against the upward force of the bottom spring tab so you can push the module straight into the port o If you cannot hold the module by its two sides because of high module density press the module on its head end to push it in 4 Connect the fiber to the module For the installation procedure see Connecting your switch to the network Figure 34 Installing an XFP SFP SFP QSFP module Installing a CFP module 1 Wear an ESD wrist
157. ving or sending data SFP port LED On A link is present Off No link is present SFP port LEDs The LPUs provide SFP port LEDs to indicate the link status and data receiving forwarding status of the corresponding SFP port 123 Table 75 SFP port LED description LINK ACT Description On Flashing A link is present and the SFP port is receiving or sending data On Off A link is present but no data is being received or sent Off Off No link is present XFP port LEDs The LPUs provide XFP port LEDs to indicate the link status and data receiving forwarding status of the corresponding XFP port Table 76 XFP port LED description LINK ACT Description On Flashing A link is present and the XFP port is receiving or sending data On Off A link is present but no data is being received or sent Off Off No link is present QSFP port status LEDs The LPUs provide QSFP port status LEDs to indicate the link status and data receiving forwarding status of the corresponding QSFP port Table 77 QSFP port status LED description LED status Description Flashing The QSFP port is receiving or sending data On A link is present Off No link is present CFP port status LEDs The LPUs provide CFP port status LEDs to indicate the link status and data receiving forwarding status of the corresponding CFP port Table 78 CFP port status LED description LED status Description Flashing The CFP port is receiving or sending data On A link is
158. void hurting your eyes e Do not touch the golden fingers on the module Make sure the optical transceiver modules at the two ends of an optical fiber are of the same model Replacing an XFP SFP SFP QSFP module 1 Wear an ESD wrist strap and make sure it makes good skin contact and is well grounded For more information see Installing FRUs Remove the optical fibers on the module Pivot the clasp down to the horizontal position For a QSFP module that uses a plastic pull latch skip this step QSFP modules use either a metal or plastic pull latch Grasp the clasp on the transceiver module and carefully pull the module out of the slot 5 Put the dust plug on the removed transceiver module and put the remove module into its original shipping materials 6 Install a new module For the installation procedures see Installing FRUs Replacing a CFP module 1 Wear an ESD wrist strap and make sure it makes good skin contact and is well grounded For more intormation see Installing FRUs Remove the optical fibers on the module Loosen the captive screws on the module Carefully pull the module out of the slot 2s gt Put the dust plug on the removed module and put the removed module into its original shipping materials 6 Install a new module For the installation procedures see Installing FRUs Replacing an SFP QSFP QSFP to SFP cable When you replace an SFP QSFP QSFP to SFP cable foll
159. warning threshold 4 Display card temperature Optional nf i display environment l l l IMONIONON Available in any view Port configuration and management Configuring a combo interface What is a combo interface On a 7500 switch a combo interface is a logical interface that comprises one SFP fiber port and one RJ 45 copper Ethernet port which are called combo ports The two ports share one forwarding interface and cannot work simultaneously When you enable the RJ 45 port the SFP port is automatically disabled and placed in the inactive state and vice versa By default the port with a smaller number is active You can use the display port combo command to identify the combo interfaces on the switch and the active status of their member ports Sysname display port combo Combo group Active Inactive il GigabitEthernet2 0 1 GigabitEthernet2 0 5 2 GigabitEthernet2 0 2 GigabitEthernet2 0 6 3 GigabitEthernet2 0 3 GigabitEthernet2 0 7 4 GigabitEthernet2 0 4 GigabitEthernet2 0 8 You can use the display interface interface type interface number command to identify the medium type of a combo port e If the output includes Media type is not sure Port hardware type is No connector the port is an SFP fiber port For example the following output shows that GigabitEthernet 2 0 1 is an SFP port Sysname display interface GigabitEthernet 2 0 1 GigabitEthernet2 0 1 current state DOWN IP Packet Frame Type PKTFMT_ETHNT_2 Hardware
160. wire of a DC power supply E E ETET 18 Installing FRUs eeeeeeeseseeeseeeeeesesesesesesosoenseeseeeeesososeeseseseeesesesosoeoroeeesesesososorosseseeeeesorososseereeeceseeeeeeeesesosororoceesesesosesosossseeseeee 20 Attaching an ESD wrist strap E E E NAR NRE ARR TE E 20 Installing q caprdeeeeeeeeeeseeesereseeeseesereseceseesseesereseceseeeseosereseceseeeseesereseeeseesecosereseeseeesreserosereseeeseesereseceseeessererreseeesreseresereseeeseese 21 Installing a power supply E E T 22 Installing a power supply E Tween a TARONRaasaamannAtaRmeaanRnaaaana NaN adonanaRaREseRNaREa DUD a teNDaoEamNRen denon aaannnNasaneReeaneRIE 22 Connecting the power Cord eeeeeeeeeeeeeseeereeresresresrosresresreseesreseeeeeeereseesresrosresrosresresresresreeeeereesresresereresreseesreseesreeseeseee 23 Setting upa PoE system optional Giese diese uc E E SE S NS S NS sews Sn EPPES PEP EREE EAEE ESEESE aE a E EEA EAEAN 32 Requirements E E E a a a a a a a a a S a a r a S 32 Installing a PoE DIMM rrrssssssssssssssssessesssestesserseessecneenessecnsensecassanccnssasecassanecassaseraesancrassanerancnsccassnscrassasecesanecestens 33 Connecting an external PoE power supply PETERT A aia dnin asa duun case enn cap a egensaneaeanae 36 Installing a CF card to an MPU optional Stach eis Wine EE OSESE SSES S ESEESE ESEESE ESEESE EEES oa wie sie SESSE SESSE SES ENE TEESE aa 37 Installing a transceiver module optional A E ale a al mca S A E ea T 38 Installing an XFP SFP SFP QSFP transceiver moduyles
161. witch NOTE e Identify the mark on the console port and make sure you are connecting to the correct port e The serial ports on PCs do not support hot swapping If the switch has been powered on connect the console cable to the PC before connecting to the switch and when you disconnect the cable first disconnect from the switch 45 Figure 38 Setting up the environment for local login Setting terminal parameters To configure and manage the switch you must run a terminal emulator program on the console terminal If your PC runs Windows Server 2003 add the HyperTerminal component before performing the following steps to log in to and manage the switch If your PC runs Windows Server 2008 Windows 7 Windows Vista or any other operating system prepare third party terminal control software and follow the software user guide or help to configure the terminal The following are the required terminal settings Bits per second 9 600 Data bits 8 Parity None Stop bits 1 Flow control None Emulation VT 100 To set terminal parameters for example on a Windows XP HyperTerminal 1 2 Select Start gt All Programs gt Accessories gt Communications gt HyperTerminal The Connection Description dialog box appears Enter the name of the new connection in the Name field and click OK 46 Figure 39 Connection description Connection Description 3 Select the serial
162. witch see Installing the switch 2 Wear the wrist strap 3 Tighten the wrist strap to keep good skin contact Make sure the resistance reading between your body and the ground is between 1 and 10 megohms 4 As shown in Figure 17 insert the ESD wrist strap into the ESD port on the switch chassis or attach it to the grounding screw of the chassis with an alligator clip Figure 17 Attaching an ESD prevent wrist strap 7503 as an illustration pl piri pi Bi DOODO VOIN 1 ESD wrist strap port having an ESD sign Installing a card All the MPUs and LPUs for the switch series are hot swappable The installation procedures for MPUs and LPUs are the same Unless otherwise stated MPUs and LPUs are collectively referred to as cards in this document To install a card 1 Wear an ESD wrist strap and make sure it makes good skin contact and is well grounded For more information see Attaching an ESD wrist strap As shown in callout 1 on Figure 18 remove the blank filler if any from the slot to be used Keep the blank filler correctly for future use As shown in callout 2 on Figure 18 hold the card by the front panel with one hand and support the card bottom with the other do not touch its circuit Slide the card steadily into the slot along the guide rails As shown in callout 3 on Figure 18 when most part of the card is inserted in the slot press the ejector levers on the
163. y by MPU and LPU models Table 60 LEDs at a glance Category LEDs Management Ethernet port LEDs Power status LEDs PWR Fan LEDs FAN Card LEDs SLOT MPU active standby status LED ACTIVE MPU LEDs CF card status LED CFS RJ 45 Ethernet port LED Combo interface status LED SFP port LED XFP port LEDs RJ 45 Ethernet port LED Combo interface status LED SFP port LED LPU LEDs SFP port LEDs XFP port LEDs QSFP port status LEDs CFP port status LEDs 300W AC 300W DC power supply status LED 650W AC 650W DC power supply status LED 1400W AC power supply status LEDs 1400W DC power supply status LEDs 2800W AC power supply status LEDs 6000W AC power supply status LEDs Power supply LEDs 118 MPU LEDs Figure 55 MPU LEDs LSQ1SRP2XB0 as an illustration 6o 989 SOUS ANE 0 Salience VI 10G6E 1 CF card status LED 2 XFP port LEDs 3 Management Ethernet port LEDs 4 Power and fan status LEDs 5 Card status LEDs 6 MPU active standby status LED Management Ethernet port LEDs The MPU has one LINK LED and one ACT LED to indicate the link status and data forwarding status of the management Ethernet port Table 61 Management Ethernet port LED description LINK ACT Description On Flashing A link is present and the management Ethernet port is transmitting data On Off A link is present Off Off No link is present Power status LEDs PWR e Ifan MPU provides only one power status LED
164. y default MDI MDIX is enabled on a port Making an Ethernet twisted pair cable 1 2 Cut the cable to length with the crimping pliers Strip off an appropriate length of the cable sheath The length is typically that of the RJ 45 connector Untwist the pairs so that they can lay flat and arrange the colored wires based on the wiring specifications 135 4 Cut the top of the wires even with one another Insert the wires into the RJ 45 end and make sure the wires extend to the front of the RJ 45 end and make good contact with the metal contacts in the RJ 45 end and in the correct order 5 Crimp the RJ 45 connector with the crimping pliers until you hear a click Repeat the above steps with the other end of the cable Use a cable tester to verify the correct connectivity of the cable Optical tiber A CAUTION Use the same types of transceiver modules pigtail cords patch cords and fiber cables If you use single mode optical fibers the transceiver modules pigtail cords patch cords and fiber cables must be single mode Optical fibers have been widely used for long distance communications Optical fibers can be classitied into the following types e Single mode fiber It has a core size of 10 um or smaller and has a lower modal dispersion It carries only a single ray of light It is mostly used for communication over longer distances e Multi mode fiber It has a core size of 50 um or 62 5 um or higher and
165. y th del and i erating system version of the i isplay the name model and running operating sy versi di play version switch Display the current configuration of the switch display current configuration Display the interface status and configuration display interface brief Display the IP configuration information of the specitied or all Layer 3 displayipiniertace Biel interfaces Display information about active routes in the routing table display ip routing table Display VLAN information display vlan Display the spanning tree status and statistics display stp brief Display Neighbor Discovery Protocol NDP configuration information display ndp Connecting the switch to the network Before you connect the switch to the network verify that all its basic settings are correct Connecting your switch to the network through twisted pair cables The 10 100Base TX and 1000Base T ports of the HP 7500 Switch Series use RJ 45 connectors and support MDI MDI X auto sensing Use category 5 or better twisted pair cables to connect the Ethernet ports of your switch to the network To connect your switch to the network through twisted pair cables 1 Plug one end of the twisted pair cable into the RJ 45 Ethernet port of your switch 2 Plug the other end of the twisted pair cable into the RJ 45 Ethernet port of the access device in the network 3 Verify that the LEDs of the RJ 45 Ethernet port are normal For more information about the
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