HP HSR6600 Routers Installation Guide 5998-3100 Part number: 5998-3100 Document version: 6PW105-20140210
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Contents Preparing for installation ············································································································································· 1 Safety recommendations ·················································································································································· 1 Safety symbols ·················································································································································
Connecting an E1/T1 cable ································································································································ 26 Connecting a CE3/CT3 cable ····································································································································· 28 CE3/CT3 cable overview ···································································································································· 28 Connecting a CE3/CT3 cable ····
Viewing the system fault solving method ············································································································ 58 Saving the current configuration of the router ············································································································ 58 Rebooting the router ······················································································································································ 58 Troubleshooting ·········
HSR6602-G/HSR6602-G TAA panel LEDs········································································································ 84 HSR6602-XG/HSR6602-XG TAA panel LEDs ··································································································· 85 FIP LEDs ··········································································································································································· 87 HIM/MIM LEDs ·································
Preparing for installation The HP HSR6600 Router Series is a line of high-performance centralized product, which includes the models in Table 1.
Electricity • Locate the emergency power-off switch in the room before installation. Shut the power off at once in case accident occurs. • Make sure that the router has been correctly grounded. • Use an uninterrupted power supply (UPS). • If there are two power inputs, disconnect the two power inputs to power off the router. • Do not work alone when the router has power. • Always check that the power has been disconnected. Laser safety The HP HSR6600 routers are Class 1 laser devices.
Temperature and humidity Maintain appropriate temperature and humidity in the equipment room. • Lasting high relative humidity can cause poor insulation, electricity creepage, mechanical property change of materials, and metal corrosion. • Lasting low relative humidity can cause washer contraction and ESD and bring problems including loose captive screws and circuit failure.
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 6. Table 6 Harmful gas limits in an equipment room Gas Max. (mg/m3) SO2 0.2 H2S 0.006 NH3 0.05 Cl2 0.01 Cooling system The HSR6600 routers adopt left to right airflow for heat dissipation. Figure 1 Airflow • Make sure there is enough space (greater than 10 cm (3.94 in)) around the air intake and outlet vents on the router for good ventilation.
Touch only the edges, instead of electronic components when observing or moving a removed memory module, CF card, HIM, or MIM. • To use the ESD-preventive wrist strap, perform the following steps: 1. Wear the wrist strap on your wrist. 2. Lock the wrist strap tight around your wrist to keep good contact with the skin. 3. Attach the ESD-preventive wrist strap to the alligator clips. 4. Attach the alligator clips to the rack post. 5. Make sure that the rack is well grounded.
NOTE: Use electromagnetic shielding when necessary. Lightning protection To protect the router from lightning better, do as follows: • Make sure the chassis is well grounded. • Make sure the grounding terminal of the AC power receptacle is well grounded. • Install a lightning protector at the input end of the power supply to enhance lightning protection capability.
Accessories 3 m (9.
Installing the router NOTE: The fan tray, power modules, FIPs, and interface modules are hot swappable. Installation flow Figure 3 HSR6600 installation flow Check before installation Follow these guidelines to prepare for installing an HSR6600 router: • Make sure that you have read “Preparing for installation” carefully and the installation site meets all the requirements. • Prepare a 19-inch rack. • Make sure that the rack is sturdy and securely grounded.
IMPORTANT: To mount multiple devices in the rack, place the heaviest one at the bottom of the rack. Unpacking the router Unpack the router as shown in Figure 4. Figure 4 Unpacking the router Foam brace Packing belt Installing the router in a 19-inch rack Before you install the router to a rack, wear an ESD-preventive wrist strap. For how to wear an ESD-preventive wrist strap, see “ESD prevention.” The HSR6600 Routers are installed in the same way. The HSR6602-G is used as an example in this section.
Figure 6 Installing cage nuts 3. Install the cable management brackets. See Figure 7. Figure 7 Installing the front mounting brackets and load-bearing screws 4. Install the router to the rack. CAUTION: This task requires at least two people.
Figure 8 Installing the router to the rack Grounding the router Installing the ring terminal No ring terminal is supplied with the grounding cable. You must install one yourself. To install the ring terminal: 1. Cut the grounding cable as appropriate for connecting to the grounding strip, and strip 5 mm (0.20 in) of insulation sheath by using a wire stripper. 2. Insert the bare metal part through the black insulation covering into the end of the ring terminal. 3.
Figure 9 Installing the ring terminal Ring terminal Grounding cable Insulation sheath 5mm 1 2 3 4 Connecting the grounding cable 1. Remove the grounding screw from the rear panel of the router chassis. 2. Attach the grounding screw to the ring terminal of the grounding cable. 3. Use a screwdriver to fasten the grounding screw into the grounding screw hole. 4. Attach the ring terminal on the other end of the grounding cable to the grounding strip.
Installing a power module Before you install a power module, make sure the power switch is off and the router is well grounded. The procedures for installing an AC power module and a DC power module are the same. The following uses an AC power module as an example. 1. Locate the slot to install the power module. { { To install the power module to slot PWR1, go to step 2. To install the power module to slot PWR2, use a Phillips screwdriver to remove the filler panel from the slot first.
4. Fasten the captive screws on the FIP module with a Philips screwdriver. Figure 12 Installing a FIP module NOTE: For more information about the FIP LEDs, see “Appendix B LEDs.” Installing a HIM/MIM NOTE: • Install the MIM in the lower slot on the FIP module. • Only the FIP-20 supports HIMs. • Before you install a HIM, make sure that the ejector levers are in the open position away from the HIM module panel. The procedures for installing HIMs and MIMs are similar.
Figure 13 Installing the MIM Installing a CF card 1. Press the spring clip at the right of the CF card cover to open it. Figure 14 Open the CF card cover 2. Press the ejector button next to the CF card slot. Insert the CF card into the slot and make sure it does not project from the slot. Figure 15 Insert the CF card 3. Close the CF card cover.
Figure 16 Close the CF card cover Connecting the power cord Connecting an AC power cord To connect an AC power cord: 1. Make sure the router is well grounded, and the power switch on the router is in the OFF position. 2. Pull the bail latch upwards. 3. Connect one end of the AC power cord to the AC-input power receptacle on the router. 4. Pull the bail latch down to secure the plug to the power receptacle. 5. Connect the other end of the power cord to the AC power outlet.
Figure 18 Insert the plug 2. Tighten the screws on the plug with a flat-blade screwdriver to secure the plug in the power receptacle. Figure 19 Tighten the screws 3. Connect the two wires at the other end of the power cord to a DC power source.
Connecting the router to the network Connecting the AUX cable Overview An AUX console cable is an 8-core shielded cable, with a crimped RJ-45 connector at one end for connecting to the AUX port of the router, and DB-25 and DB-9 male connectors at the other end for connecting to the serial port of the modem. Figure 20 AUX cable Connecting the AUX cable 1. Plug the DB-9 or DB-25 male connector at one end of the AUX cable into the serial port of the modem. 2.
Figure 21 Connecting the AUX port to a modem Connecting an Ethernet cable Overview 10/100 Mbps Ethernet uses category-5 twisted pair cables, while 1000 Mbps Ethernet uses category-5 enhanced or category-6 twisted pair cables. Twisted pair cables include straight-through cables and crossover cables. Category-5 cables provide a transmission frequency of 100 MHz for voice and data transmission; they are mainly used in 100Base-T and 10Base-T networks.
Figure 22 RJ-45 connector pinout PIN #8 PIN #1 EIA/TIA cabling specifications define two standards, 568A and 568B, for cable pinouts. • Standard 568A—Pin 1: white/green stripe, pin 2: green solid, pin 3: white/orange stripe, pin 4: blue solid, pin 5: white/blue stripe, pin 6: orange solid, pin 7: white/brown stripe, pin 8: brown solid.
Pinout No. A B 7 Brown/white Brown/white 8 Brown Brown NOTE: Strictly follow the pinouts in the above tables when identifying or making the two types of Ethernet cables; otherwise, the communication quality may be affected. Making an Ethernet cable To make an Ethernet twisted pair cable: 1. Cut the cable to a proper length with the crimping pliers. 2. Strip off an appropriate length of the cable sheath. The length is typically that of the RJ-45 connector. 3.
Figure 23 SFP transceiver module Figure 24 XFP transceiver module Figure 25 SFP+ transceiver module Fiber cable overview You can use an optical fiber to connect a fiber Ethernet port or 10 Gbps Ethernet port. In addition, an optical fiber can connect these types of interface modules: HIM-4GBP/HIM-8GBP, HIM-CL1P/HIM-CL2P, HIM-CLS1P/HIM-CLS2P, HIM-MSP2P/HIM-MSP4P, HIM-PS1P, HIM-AL1P/HIM-AL2P, HIM-RS2P, or HIM-1EXP. Optical fibers feature low loss and long transmission distance.
Table 9 Characteristics of single mode and multi-mode optical fibers Single mode fiber Multi-mode fiber Core Small core (10 micrometers or less) Larger core than single mode fiber (50 micrometers, 62.5 micrometers or greater) Dispersion Less dispersion Allows greater dispersion and therefore, signal loss exists.
NOTE: • The HSR6600 supports LC fiber cables only. • Some cards of the HP HSR6600 router provide shielded covers for the fiber ports (such as SFP ports). Before using such fiber ports, remove the shielded covers. Keep the shielded covers properly. When the fiber ports are not in use, install the shielded covers. • Fiber connectors are fitted with dust caps. Keep the dust caps properly when the fiber connectors are in use.
Figure 27 Connecting a fiber cable Connecting an E1/T1 cable E1/T1 cable overview E1 cable You can use an 8E1 interface cable to connect to MIM-8E1(75)/MIM-8E1(75)-F modules. Figure 28 8E1 splitter cable NOTE: The coaxial connector and 75-ohm E1 adapter cable are optional accessories, and must be purchased separately if needed.
T1 cable You can use an 8T1 interface cable to connect to MIM-8T1/MIM-8T1-F modules. Figure 29 8T1 splitter cable CAUTION: • When connecting the interface cable, pay attention to the mark on the interface to avoid wrong insertion, which may damage the interface module or even the router. • HP recommends that you install a lightning protector at the input end of the 8T1 cables to protect them against lightning strikes more efficiently when they are led outdoors.
Figure 30 Connect an E1 75-ohm cable …… If you want to extend the cable, connect each BNC connector of the E1 75-ohm cable to one end of a coaxial connector, and connect the remote device to the other end of the coaxial connector through an E1 75-ohm adapter cable. • Figure 31 Connect an E1 75-ohm cable If the impedance of the E1 interface on the remote device is 120 ohms, you must use an impedance converter to adapt the impedance.
2. The other end of the cable provides eight RJ-45 connectors. Connect them to the RJ-45 interface on the remote device as needed. Figure 33 Connecting an 8T1 cable Connecting a CE3/CT3 cable CE3/CT3 cable overview You can use a CE3/CT3 interface cable to connect the MIM-1CE3 and MIM-1CT3 modules.
Figure 35 Connecting a CE3/CT3 cable Connecting a serial port cable Overview You can use a serial port cable to connect to the MIM-2SAE/MIM-4SAE/MIM-8SAE module. Select a serial port cable according to the link type. Figure 36 V.24 DTE cable Figure 37 V.
Figure 38 V.35 DTE cable Figure 39 V.35 DCE cable A B Pos.28 W A B X1 Pos.1 X2 Figure 40 X.21 DTE cable A B Pos.1 Pos.1 W A Pos.15 B X1 X2 Pos.28 Figure 41 X.
Figure 42 RS449 DTE cable Figure 43 RS449 DCE cable Figure 44 RS530 DTE cable Figure 45 RS530 DCE cable Connecting a serial port cable 1. Check port type of the peer device and choose the synchronous serial interface cable of correct type. 2. Plug the D28 end of the synchronous serial interface cable into the D28 interface of the SAE interface module. 3. If the WAN uses DDN line, connect the cable to the port of the CSU/DSU.
4. Check the LINK LED on the SAE panel. { { If the LED is on, a link is present. If the LED is off, a fault has occurred on the link and signal is out of synchronization. In this case, check the link.
Logging in to the router and configuring basic settings Login methods The following login methods are available for you to log in to the router: • Logging in through the console port, which is the most common way to log in to a router and also the prerequisite for configuring other login methods. • Logging in through Telnet or SSH. • Logging in through the AUX port.
Figure 46 Connecting the console cable CAUTION: To disconnect a PC from the router, disconnect the RJ-45 connector first. Setting terminal parameters To set terminal parameters, for example, on a Windows XP HyperTerminal: 1. Select Start > All Programs > Accessories > Communications > HyperTerminal. The Connection Description dialog box appears. 2. Enter the name of the new connection in the Name field and click OK.
3. Select the serial port to be used from the Connect using list, and click OK. Figure 48 Setting 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. Figure 49 Setting the serial port parameters 5. Select File > Properties in the HyperTerminal window.
Figure 50 HyperTerminal window 6. On the Settings tab, set the emulation to VT100 and click OK.
Verification before power-on Before powering on the router, verify that: • Make sure the power modules and fan tray are correctly installed. • The power cord is properly connected. • The input power voltage meets the requirement of the switch. • The console cable is properly connected, the terminal or PC used for configuration has started, and the configuration parameters have been set. • If you use a CF card, make sure the CF card is firmly seated in slot.
............................................................................ ......Done! System application is starting... User interface con0 is available. Press ENTER to get started. Press Enter at the prompt and the prompt appears. You can now configure the router. Logging in to the router through Telnet/SSH To log in to the router through Telnet/SSH: 1. Log in to the router through the console port.
Displaying the initial configuration After you log in to the router for the first time, use the display current-configuration command to display the initial configuration of the router. display current-configuration # version 5.
Step Command Remarks 2. Enter system view system-view Available in user view 3. Enter Ethernet interface view interface interface-type interface-number N/A 4. Specify an IP address for the interface ip address ip-address { mask-length | mask } [ sub ] By default, no IP address is assigned to any interface. 5. Return to system view quit Available in any view 6.
Replacement procedures Safety recommendations 1. Always wear an ESD-preventive wrist strap or ESD-preventive gloves when replacing the modules. 2. When operating a pluggable module, such as a FIP module, memory module, CF card, or HIM/MIM, follow these guidelines: { { { { Ensure good alignment with the slot to avoid damage to the module during installation or removal. Before removing a module, make sure that the captive screws are completely loosened.
Replacing a FIP module CAUTION: When the RUN LED of the FIP module is fast flashing, do not unplug the FIP module. To replace a FIP module, for example, FIP-20: 1. Determine the FIP module to be removed. This section takes the FIP module in slot 3 as an example. 2. Use a Philips screwdriver to loosen the captive screws of the FIP module to be removed until all spring pressure is released. 3.
2. Holding the handle of the MIM, gently pull the MIM out of slot along the slide rails. Figure 54 Pulling the MIM out of the slot 3. If you do not install a new MIM in the slot, install a blank panel. To install a new MIM, see “Installing a HIM/MIM.” Replacing a CF card CAUTION: • To avoid hardware damage, do not remove the CF card when the router is booting or the CF LED is flashing. • Before you replace a CF card, open the CF card cover first. For more information, see “Installing a CF card.” 1.
Figure 56 Pull the CF card 3. To install a new MIM, see “Installing a CF card.” NOTE: To protect the CF card, place it into an antistatic bag. Replacing a transceiver module NOTE: When replacing a transceiver module, make sure that the two transceiver modules connected by the same optical fiber have the same wavelength. To replace a transceiver module: 1. Remove the optical fibers from the transceiver module. 2. Pivot the clasp down to the horizontal position. 3.
Figure 57 Removing a transceiver module WARNING! • Do not stare into the optical fibers. • When removing a transceiver module, do not touch the golden finger of the transceiver module. Figure 58 Transceiver module golden finger Replacing a fan tray WARNING! Rotating fan blades can cause serious injury or cut. Make sure that all fans have stopped rotating before you take out the entire fan tray. CAUTION: Do not operate the system without a fan tray for more than 2 minutes. To replace a fan tray: 1.
Figure 59 Pulling out the fan tray 3. To install a new fan tray, grasp the handle of the fan tray with one hand and support the fan tray bottom with the other, and slide the fan tray along the guide rails into the slot until the fan tray seats in the slot and has a firm contact with the backplane. 4. Use a Phillips screwdriver to fasten the captive screw on the fan tray. NOTE: • Automatic fan speed adjustment and hot-swapping fan trays are supported. • Put the removed fan tray in an anti-static bag.
Memory module structure Figure 60 Memory module structure (1) Connector edge (2) Polarization notch (3) Latch notch Figure 61 Memory module slot (1) Release latch (2) Memory module slot When to replace a memory module Memory modules are removable components of the router. You need to replace a memory module in the following situations: • More memory is needed to upgrade the application program.
Figure 62 Opening the chassis cover Replacing a memory module Figure 63 Replacing a memory module CAUTION: Align the polarization notch of the memory module with the key in the connector when you insert a memory module.
Hardware management and maintenance NOTE: The output depends on your router model. For more information about the commands used in this chapter, see the corresponding command references. Displaying hardware information of the router Displaying the software and hardware version information of the router Use the display version command to display software and hardware version information of the router.
Displaying the operational statistics of the router When you perform routine maintenance or the system fails, you may need to view the operational information of each functional module for locating failures. Generally, you need to run display commands one by one. To collect more information one time, you can execute the display diagnostic-information command in any view to display or save the operational statistics of multiple functional modules of the router.
0 Fixed SubCard Normal 9 Table 11 Output description Field Description Slot 0 Interface module model SubSlot No. Slot number of the interface module Card Type Module model. The value NONE indicates that no module is present in the slot. Running status of the module: Status Max Ports • Absent—No module is present in the slot. • Fault—The module in the slot is booting, or the module fails and cannot boot properly. • Normal—The module in the slot is a service module and is operating properly.
Table 12 Output description Field Description Slot 0 Router or interface module slot DEVICE_NAME Router or module type DEVICE_SERIAL_NUMBER Router or module serial number MAC address of the router or interface module: MAC_ADDRESS • An device has a MAC address. • A service module does not have a MAC address, and the field is displayed as NONE.
Table 14 Output description Field Description System Total Memory(bytes) Physical memory size (in bytes) of the module Total Used Memory(bytes) Used memory size (in bytes) of the module Used Rate Memory usage of the module Displaying the CF card information Use the display device cf-card command to display the CF card information. display device cf-card Slot No. Dev No.
Displaying the operational status of power modules Use the display power command to display the operational status of power modules. display power Power 1 State: Absent Power 2 State: Normal Table 17 Output description Field Description Power Number of the power supply The power supply state: • Normal—The power supply is operating properly. • Absent—The power supply is not in position. • Fault—The power supply fails.
GigabitEthernet0/0/2 current state: DOWN Line protocol current state: DOWN Description: GigabitEthernet0/0/2 Interface The Maximum Transmit Unit is 1500 Internet Address is 51.1.1.
0 crc, 0 align errors, 0 overruns 0 dribbles, 0 drops Output:0 packets, 0 bytes 0 broadcasts, 0 multicasts, 0 pauses 0 errors, 0 underruns, 0 collisions 0 deferred, 0 lost carriers Configuring a combo interface To configure a combo interface: Step Command Remarks 1. Enter system view system-view N/A 2. Enter view of the SFP port or RJ-45 port of the combo interface interface interface-type interface-number N/A 3.
To display transceiver module information: Purpose Command Remarks Display key parameters of the transceiver module in a specified interface display transceiver interface [ interface-type interface-number ] Available for all transceiver modules Displaying the alarming information or fault detection parameters for a transceiver module The system outputs alarm information for you to locate and troubleshoot faults of transceiver modules.
Viewing the system fault solving method Use the display system-failure command to display the system fault solving method. display system-failure System failure handling method: reboot Saving the current configuration of the router You can save the current configuration of the router in one of the following methods: • Fast saving—Executing the save command without the safely keyword.
To reboot the router immediately: Purpose Command Reboot the router immediately reboot Remarks Required Available in user view To enable the scheduled reboot function: Purpose Command Remarks Enable the scheduled reboot function and specify a specific reboot time and date schedule reboot at hh:mm [ date ] Use either command Enable the scheduled reboot function and specify a reboot waiting time schedule reboot delay { hh:mm | mm } The scheduled reboot function is disabled by default.
Troubleshooting NOTE: The barcode stuck on the router chassis contains production and servicing information. Before you return a faulty router for serving, provide the barcode information of the router to your local sales agent. Router failures Power status LEDs are off When the PWR1 and PWR2 LEDs are off, the power module of the router is faulty. For more information about the PWR1 and PWR2 LEDs, see “Appendix B LEDs.” To troubleshoot the problem: 1.
When the system is over-temperature. In this case, the system displays the following output: • %Dec 7 11:17:01:436 2011 HP DRVMSG/3/TEMP_ALARM: CPU temperature is greater than alarm upper limit in slot 0, index is 0. To solve the problem, check the output (such as the system temperature, insufficient available power, and PCB voltage alarms) on the serial terminal and the software management tool.
To troubleshoot the power module failure: 1. Check whether the power switch is turned on. 2. Check whether the power cables of the router are firmly connected. 3. Check whether the switch of the power source is turned on. 4. Check whether the power cord is damaged. 5. If the cause cannot be located in the steps above and the problem persists, contact your local sales agent.
ALM LED is red When the router is running, the ALM LED on the fan tray panel may turn red, and the following information may appear on the configuration terminal: %Dec 6 17:13:56:447 2011 HP DEVM/5/FAN_RECOVERED: Fan 1 recovered. %Dec 6 17:13:58:158 2011 HP DRVMSG/3/FanErr: Fan 1 Error. #Dec 6 17:13:58:847 2011 HP DEVM/1/FAN STATE CHANGES TO FAILURE: Trap 1.3.6.1.4.1.25506.8.35.12.1.6: fan ID is 1 %Dec 6 17:13:58:847 2011 HP DEVM/2/FAN_FAILED: Fan 1 failed. The output shows that fan 1 is faulty.
2. If no problem is found, check the following reasons that may apply: { { { 3. The console cable is connected to an incorrect serial port (the serial port in use is not the one set on the terminal). The properties of the terminal are incorrect. You must configure the console terminal as follows: set Bits per second to 9600, Data bits to 8, Parity to None, Stop bits to 1, Flow control to None, and Terminal Emulation to VT100. The console cable fails.
Figure 64 Dealing with password loss Examining the state of password recovery capability 1. Reboot the router. System is starting... Press Ctrl+D to access BASIC-BOOTWARE MENU Press Ctrl+T to start memory test Booting Normal Extend BootWare........ The Extend BootWare is self-decompressing......................Done! **************************************************************************** * * * HP Router BootWare, Version 1.
PCB Version : Ver.B BootWare Validating... Backup Extend BootWare is newer than Normal Extend BootWare,Update? [Y/N] Press Ctrl+B to enter extended boot menu... 2. Press Ctrl + B within three seconds after the "Press Ctrl+B to enter extended boot menu..." prompt message appears. BootWare password: Not required. Please press Enter to continue. 3. Press Enter and read the password recovery capability state message displayed before the EXTEND-BOOTWARE menu. Password recovery capability is enabled.
|<8> Clear Super Password | |<9> Storage Device Operation | |<0> Reboot | ============================================================================ Ctrl+Z: Access EXTEND-ASSISTANT MENU Ctrl+F: Format File System Enter your choice(0-9): 6 After the configuration skipping flag is set successfully, the following message appears: Flag Set Success. 2. When the EXTEND-BOOTWARE menu appears again, enter 0 to reboot the router. The router starts up with empty configuration. 3.
|<8> Clear Super Password | |<9> Storage Device Operation | |<0> Reboot | ============================================================================ Ctrl+Z: Access EXTEND-ASSISTANT MENU Ctrl+F: Format File System Enter your choice(0-9): 8 The router deletes the user privilege level password configuration commands from the main next-startup configuration file. After the operation is completed, the following message appears: Clear Super Password Success! 2.
The router deletes its main and backup next-startup configuration files and restores the factory-default configuration. The current mode is no password recovery. The configuration files will be deleted, and the system will start up with factory defaults, Are you sure to continue?[Y/N]Y Setting...Done. 3. When the EXTEND-BOOTWARE menu appears again, enter 0 to reboot the router. The router starts up with the factory-default configuration. 4.
1. Check whether the fans are running properly. 2. Check whether the working environment of the module is well ventilated. 3. Use the display environment command to check whether the temperature in the module keeps rising. 4. If the temperature inside the module still reaches the critical temperature threshold, power off the router immediately and contact your local sales agent. NOTE: For more information about the display environment command, see HP A6600 Routers Command References.
Downloading file from remote TFTP server, please wait... File not found. To solve this problem, type the correct file name. 3. The configuration of the network port is incorrect. Can't connect to the remote host To solve this problem, configure the network port correctly, and make sure that the network port is up and you can successfully ping the TFTP server from the network port. NOTE: The barcode stuck on the router chassis contains production and servicing information.
Booting App fails! The name of the main, backup, and secure application files vary by user settings. A possible reason for the errors is that the main, backup, and secure application files have been deleted or damaged. To solve this problem, download the application package again or set the file properties in the BootWare file list.
Appendix A Chassis views and Technical specifications Chassis views Figure 65 HSR6602-G/HSR6602-G TAA front view 1 2 3 4 5 10 9 8 (1) 1000 Mbps Ethernet port 7 6 (2) CF card slot (CF CARD) (3) CF card LED (5) USB port (6) Reset button (RESET) (7) Auxiliary port (AUX) (8) Console port (CONSOLE) (9) Management Ethernet port (MANAGEMENT) 73 (4) Status LED (10) FIP slot (slot 1)
Figure 66 HSR6602-XG/HSR6602-XG TAA front view (1) 1000 Mbps Ethernet port (2) 10 Gbps Ethernet port (3) CF card slot (CF CARD) (4) CF card LED (5) Status LED (6) USB port (7) Reset button (RESET) (8) Auxiliary port (AUX) (10) Management Ethernet port (MANAGEMENT) (9) Console port (CONSOLE) (11) FIP slot (slot 1) Figure 67 HSR6600 rear view (1) Power module slots (PWR1, PWR2) (2) Grounding screw (3) Grounding sign (4) Fan tray Dimensions and weights Table 23 Dimensions and weight Item Dimen
Item Dimensions (H × W × D) Weight Power module 40 × 114 × 235 mm (1.57 × 4.49 × 9.25 in) 1.15 kg (2.54 lb) Fan tray 84 × 61 × 459 mm (3.31 × 2.40 × 18.07 in) 0.85 kg (1.
Figure 68 AC power module appearance (1) AC-input power receptacle (2) Power input status LED (3) Power output status LED (4) Handle (5) Power switch Table 26 AC power module specifications Item Specification Model PSR300-12A Rated voltage range 100 VAC to 240 VAC; 50 Hz or 60 Hz Maximum input current 4A Maximum power 300 W DC power module The supported DC power module is PSR300-12D1, which provides a maximum output power of 300 W.
Table 27 DC power module specifications Item Specification Model PSR300-12D1 Rated voltage range –60 VDC to –48 VDC Maximum input current 10 A Maximum power 300 W Fan tray Each HP HSR6600 router provides a fan tray slot on its rear panel. You can install a fan tray for heat dissipation. NOTE: The fan tray is supplied with the router.
Port specifications Ports and slots Table 29 Port and slot specifications Item Description Console port 1 AUX port 1 USB port 1 Ethernet port • HSR6602-G/HSR6602-G TAA—Four GE combo interfaces • HSR6602-XG/HSR6602-XG TAA—Four combo interfaces and two 10 GE ports CF card slot 1 Interface module slot 1, supports FIP-10/20 Console port Table 30 Console port specifications Item Specification Connector RJ-45 Standard compliant Asynchronous EIA/TIA-232 Baud rate 9600 bps (default) to 115200 b
Management Ethernet port The management Ethernet port is a 10Base-T/100Base-TX/1000Base-T RJ-45 port. It allows you to upgrade software and manage the router through a network management server without using any service interface of the router. The management Ethernet port is used only for managing the router and it has no service processing capabilities such as data forwarding.
Fiber Ethernet port Table 34 Fiber Ethernet port specifications Item Specification Connector type LC Transceiver module type SFP Interface standards 802.3, 802.3u, and 802.3ab Type Short-haul multi-mode (850 nm) Mid-haul single mode (1310 nm) Long haul (1310 nm) Long haul (1550 nm) Super long haul (1550 nm) Minimum –9.
Model Central wavelength Connector type Fiber type Max. transmission distance SFP-XG-LH40-SM155 0 1550 nm LC 9/125μm single mode 40 km (24.86 miles) Flexible interface platform modules The HSR6600 Router Series supports flexible interface platform (FIP) modules FIP-10 and FIP-20. You can install High-speed Interface Modules (HIMs) and Multifunctional Interface Modules (MIMs) on a FIP to support different network services as needed. A FIP module is located on the lower part of the front panel.
Table 38 FIP-10 specifications Item Specification HIM Not supported MIM 4 MIMs supported at the same time Hot-swapping Supported Slot Four FIP-20 You can plug up to two HIMs or two MIMs into the FIP-20. The FIP-20 also supports intermix of a HIM and a MIM.
Interface modules You can install HIMs to provide 10-Gbps service processing capability and install MIMs to provide high-density narrowband aggregation. The HIMs and MIMs can offer a variety of interfaces, including serial, Ethernet, POS, and E1. NOTE: • No interface modules are supplied with the router. Purchase them yourself. • An interface module must be installed on a FIP. • For information about interface module specifications, see HP 6600/HSR6600/HSR6800 Router Series Interface Module Guide.
Appendix B LEDs Panel LEDs HSR6602-G/HSR6602-G TAA panel LEDs Figure 73 HSR6602-G/HSR6602-G TAA front view Table 41 HSR6602-G/HSR6602-G TAA panel LED description LED CF (yellow/green) PWR1 (red/green) (red/green) PWR2 FAN (red/green) Status Description Off No CF card is in position or the CF card cannot be recognized. Steady green A CF card is in position and has been detected. Flashing green The system is accessing the CF card. In this state, do not remove the CF card.
LED (red) (green) LINK (yellow/green) ACT (yellow/green) Description Off The system is operating properly and there is no alarm. Steady red A fault has occurred. In this state, check the system log immediately. Off The system is powered off or the router is faulty. Flashing at 1 Hz The router operates properly as configured. Flashing at 8 Hz Software is being loaded or the router does not start working yet. Off The corresponding interface is not connected.
Table 42 HSR6602-XG/HSR6602-XG TAA panel LED description LED CF (yellow/green) PWR1 (red/green) (red/green) PWR2 FAN (green) (yellow/green) Off No CF card is in position or the CF card cannot be recognized. Steady green A CF card is in position and has been detected. Flashing green The system is accessing the CF card. In this state, do not remove the CF card. Steady yellow It is a non HP CF card. Off The power module is not in position.
LED (yellow/green) (yellow/green) SFP0 through SFP3 GE0 through GE3 Status Description Off No link is present. Steady green A 1000 Mbps link is present. Flashing green Data is being received or transmitted at 1000 Mbps. Steady yellow A 100 Mbps link is present. Flashing yellow Data is being received or transmitted at 100 Mbps. Off No link is present. Steady green A 1000 Mbps link is present. Flashing green Data is being received or transmitted at 1000 Mbps.
HIM/MIM LEDs For description of HIM/MIM LEDs, see HP A6600 Router Series Interface Module Guide. Power module LEDs Figure 77 AC power module LED Table 44 AC power module LED description LED (green) (green) Status Description Off No power is input or the power module has an input problem. Steady green The power input is normal. Off No power is output or the power module has an output problem. Steady green The power output is normal.
Appendix C Cable management When an HSR6600 router is mounted in a 19-inch standard rack, the interface cables are routed through the cable management brackets, bound at cabling racks on chassis sides, and then routed up or down, depending on the available equipment room condition.
Cable management guidelines When you route and bundle up cables, follow these guidelines: • Bind and route the cables neatly inside the rack, and make sure that the cables are not kinked or bent. Figure 79 Correct and incorrect cable binding • The cable bend radius at connectors must be at least 5 times the cable diameter, and must be at least twice the cable diameter away from the connectors. • Route different types of cables (for example, power cables, and signal cables) separately.
Figure 80 Cutting the cable ties • When you bend cables, bind cables as shown in Figure 81. To avoid cable core break due to excessive stress, do not tie up the cables in the bending area. Figure 81 Binding the cables • Route, bind, and attach excess cables for easy, safe maintenance activities and proper operations. • Do not tie the power cables to the slide rails.
Figure 82 Securely fasten cables (1) (1)(2) (3) (1) Flat washer (2) Spring washer (3) Nut • Fasten heavy or rigid power cables at the connectors to relief stress. • Do not use tapping screws to fasten the connecting terminals. • Bind together cables that are the same type and routed in the same direction. Table 46 lists the cable bundling specifications.
Figure 83 Routing cables A0 1- A0 1- 3 03 -0 2 03 -0 1- 03 A0 1 1- -0 A0 03 -0 4 93
Appendix D Arranging slots and numbering interfaces Slot arrangement The router provides many types of interfaces, such as console, AUX, GigabitEthernet, serial (synchronous) and E1 ports. This chapter describes how these interfaces are numbered. Figure 84 Slot arrangement on the SR6602-X1 Figure 85 Slot arrangement on the SR6602-X2 NOTE: The numbers in Figure 84 and Figure 85 represent corresponding slot numbers.
Numbering interfaces Before installing a HIM/MIM, you must install a FIP. A FIP20 supports both HIMs and MIMs, while a FIP-10 supports only MIMs. The interfaces of the router are numbered in the form of interface-type X/Y/Z, Where, • interface-type: Type of the interface such as GE port and serial port. • X: Number of the slot where the FIP resides. • Y: Sub-slot number—The number of the slot where the HIM/MIM resides on the FIP. • Z: Sequence number of the interface on the HIM/MIM.
• GigabitEthernet 1/2/2 • GigabitEthernet 1/2/3 96
Support and other resources Contacting HP For worldwide technical support information, see the HP support website: http://www.hp.
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. { x | y | ... } Braces enclose a set of required syntax choices separated by vertical bars, from which you select one.
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.
Index ACDEFGHILNPRSU FIP module failure,61 A Flexible interface platform modules,81 Accessories,7 Application file missing errors,71 G C General cabling requirements,89 Grounding the router,11 Cable management guidelines,90 Cable routing example,92 H Chassis views,73 HIM/MIM failures,63 Check before installation,8 HIM/MIM LEDs,88 Configuration system problems,63 I Configuring a combo interface,54 Installation flow,8 Configuring basic settings,39 Installing a CF card,15 Connecting a CE3/CT
Safety recommendations,1 Replacing a CF card,43 Replacing a fan tray,45 Saving the current configuration of the router,58 Replacing a FIP module,42 Slot arrangement,94 Replacing a HIM/MIM,42 Slot arrangement for FIPs,94 Replacing a memory module,46 Software upgrade failures,70 Replacing a power module,41 Solving system faults,57 Replacing a transceiver module,44 Storage media,75 Router failures,60 U S Unpacking the router,9 Safety recommendations,41 101
