Page 1 H3C S9500E Routing Switch Series Installation Guide Hangzhou H3C Technologies Co., Ltd. http://www.h3c.com Document version: 6PW107-20120828...
Page 2 SecPro, SecPoint, SecEngine, SecPath, Comware, Secware, Storware, NQA, VVG, V G, V G, PSPT, XGbus, N-Bus, TiGem, InnoVision and HUASAN are trademarks of Hangzhou H3C Technologies Co., Ltd. All other trademarks that may be mentioned in this manual are the property of their respective owners Notice The information in this document is subject to change without notice.
Page 3 Preface The H3C S9500E Routing Switch Series Installation Guide describes how to install the H3C S9500E switches. This preface includes: Audience • • Conventions About the H3C S9500E documentation set • Obtaining documentation • • Technical support Documentation feedback •...
Page 4 Layer 2 forwarding and other Layer 2 features. Port numbering in examples The port numbers in this document are for illustration only and might be unavailable on your device. About the H3C S9500E documentation set The H3C S9500E documentation set includes: Category...
Page 5 Obtaining documentation You can access the most up-to-date H3C product documentation on the World Wide Web at http://www.h3c.com. Click the links on the top navigation bar to obtain different categories of product documentation: [Technical Support & Documents > Technical Documents] –...
Page 6 Documentation feedback You can e-mail your comments about product documentation to info@h3c.com. We appreciate your comments.
Page 7 Contents Product overview ·························································································································································· 1 Physical architecture ························································································································································· 1 S9505E chassis views ············································································································································· 2 S9508E chassis views ············································································································································· 4 S9508E-V chassis views ·········································································································································· 6 S9512E chassis views ············································································································································· 8 Backplane ·········································································································································································· 9 Power supply system ······················································································································································ 10 ...
Page 8 Installing a subcard ························································································································································ 38 Installation preparation ········································································································································· 38 Installation procedure ··········································································································································· 38 Connecting power cords ··············································································································································· 39 Connecting an AC power cord ··························································································································· 39 Connecting DC power cords ······························································································································· 41 Verifying the installation ················································································································································ 42 ...
Page 9 Replacing a power supply system ································································································································ 76 Replacing a card ···························································································································································· 79 Preparing for the replacement ····························································································································· 80 Replacement procedure ········································································································································ 80 Replacing a subcard ······················································································································································ 81 Replacing a fan tray ······················································································································································ 82 Replacing a fan tray for an S9505E/S9508E/S9512E ·················································································· 82 ...
Page 10 Subcard LEDs ································································································································································ 115 Appendix C Transceiver modules ·························································································································· 118 10-GE XFP transceiver modules ·································································································································· 118 10-GE SFP+ transceiver modules ······························································································································· 120 10-GE SFP+ cables ······················································································································································ 121 2.5G SFP transceiver modules···································································································································· 121 100/1000 Mbps SFP transceiver modules ··············································································································· 122 ...
Page 11 Unless otherwise stated, the configuration and installation procedures in this document apply to all • S9500E switches. Physical architecture An H3C S9500E chassis comprises a backplane, power supply system, fan system, and card cage. NOTE: The diagrams in this guide are for illustration only, and AC-powered chassis are used for example.
Page 12 S9505E chassis views Figure 1 S9505E front view (1) ESD-preventive wrist strap port (2) MPU slots (slots 0 and 1) (3) LPU slots (slots 2 through 6) (4) AC power supplies (5) PoE power entry module (reserved, currently unavailable)
Page 13 Figure 2 S9505E rear view (1) Rear cover handle (2) Grounding screw (3) Fan tray The S9505E chassis has the following slots and components: Two MPU slots, five LPU slots, and two power supply slots at the front. • One vertically oriented, hot swappable fan tray at the rear. The fans draw air in from the left side •...
Page 14 S9508E chassis views Figure 3 S9508E front view (1) ESD-preventive wrist strap port (2) LPU slots (slots 0 through 3, and 6 through 9) (3) MPU slots (slots 4 and 5) (4) AC power supplies (5) PoE power entry module (reserved, currently not available)
Page 15 Figure 4 S9508E rear view (1) Rear cover handle (2) Grounding screw (3) Fan tray The S9508E chassis has the following slots and components: Two MPU slots, eight LPU slots, and two power supply slots at the front. • One vertically oriented, hot swappable fan tray at the rear. The fans draw air in from the left side •...
Page 16 S9508E-V chassis views Figure 5 S9508E-V front view (1) Fan tray (2) MPU slots (slots 4 and 5) (3) LPU slots (slots 0 to 3, 6 to 9) (4) Cable management bracket (5) AC power supplies (6) PoE power entry module (reserved, currently not available) (7) ESD-preventive wrist strap port...
Page 17 Figure 6 S9508E-V rear view (1) Ventilation panel (2) Grounding screw (3) Rear cover handles The S9508E-V chassis has the following slots and components: Two MPU slots, eight LPU slots, and two power supply slots at the front. Both MPU and LPU slots are •...
Page 18 S9512E chassis views Figure 7 S9512E front view (1) ESD-preventive strap port (2) LPU slots (slots 0 to 5, 8 to 13) (3) MPU slots (slots 6 and 7) (4) AC power supplies (5) PoE power entry module (reserved, currently not available)
Page 19 Figure 8 S9512E rear view (1) Rear cover handle (2) Grounding screw (3) Fan tray and handle The S9512E chassis has the following slots and components: • Two MPU slots, 12 LPU slots, and two power supply slots at the front. Two vertically oriented, hot swappable fan trays at the rear.
Page 20 Connects to the power frame, implements distributed power supply for MPUs, LPUs, switching fabric • modules, fan trays and power supplies, and provides monitoring channels for MPUs to monitor power frame status. Power supply system The S9500E switches support both AC and DC power supply. If two power supplies are used, make sure they are the same type.
Page 21 NOTE: If two NEPS1800-A sub power supplies are used, the maximum output power of the NEPS3500-A power supply is 3500 W. Table 3 AC power supply LED description Status Description Steady on Power is being correctly input. Input The power supply is absent or has input voltage error. Steady on The power supply is correctly outputting power.
Page 22 Figure 10 NEPS2000-D DC power supply (1) Power input LED (2) Power output LED (3) Power fault LED Figure 11 NEPS3500-D DC power supply (1) Power input LED (2) Power output LED (3) Power fault LED Table 5 DC power supply LED description Status Description Steady on...
Page 23 Status Description The power supply is experiencing an overvoltage, overcurrent, or Steady on over-temperature condition. FAIL (fault) The power supply is operating properly or absent. Fan tray S9500E fan trays provide the following functions: Effective heat dissipation ensures long time operation of the switch. •...
Page 24 Figure 12 Fan trays (1) RUN LEDs (2) ALM LEDs Table 6 Fan LED description Status Description The fan tray has failed. Steady on The fan tray is operating properly. The fan tray is in normal state. Steady on The fan tray is faulty.
Page 25 Preparing for installation Safety recommendations To avoid any equipment damage or bodily injury caused by improper use, read the following safety recommendations before installation. Note that the recommendations do not cover every possible hazardous condition. General safety recommendations Take adequate safety measures to avoid injury and switch damage. For example, wear an •...
Page 26 Do not stare into any fiber port when the switch has power. The laser light emitted from the optical fiber may hurt your eyes. Examining the installation site The H3C S9500E switches can only be used indoors. To make sure the switch operates properly and to prolong its service lifetime, the installation site must meet the following requirements:...
Page 27 Weight support 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. For the weights of the switch components, see the chapter "Appendix A Technical specifications." Temperature CAUTION: If condensation appears on the switch when you move it to a high-temperature environment, dry the switch...
Page 28 Table 9 Dust concentration limit in the equipment room Substance Concentration limit (particles/m Dust particles ≤ 3 x 10 (No visible dust on tabletop over three days) IMPORTANT: Dust particle diameter ≥ 5 μm 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 Table 10 Harmful gas limits in the equipment room...
Page 29 The S9505E, S9508E, and S9512E use side-to-side airflow to cool its modules and front-to-back airflow to cool its power supplies. See Figure Figure 14 S9505E airflow (1) Chassis air intake (2) Chassis air outlet (3) Power supply air intake (4) Power supply air outlet The S9508E-V uses front to rear airflow to cool its power supplies.
Page 30 Figure 15 S9508E-V airflow (1) Chassis air intake (2) Chassis air outlet (3) Power supply air intake (4) Power supply air outlet If an impedance carrier is installed in an S9508E-V, ambient air only exhausts through the air vents at the top of the chassis, but does not flow in at the chassis rear.
Page 31 For the power consumption and power supply specifications of the switch, see "Appendix A Technical specifications." Space For easy maintenance, follow these guidelines: For moving the switch and servicing the modules, make sure the width of the aisle in the equipment •...
Page 32 Figure 17 Rack depth • The rack is available with standard slide rails (or rack shelves), cage nuts, and screws. The slide rails (or rack shelves) can support the weight of the switch chassis and its accessories. • The rack can be well grounded. •...
Page 33 Item Quantity Purpose Fixing the cable management brackets to the ST2.9*9.5 self-tapping screw 1 set mounting brackets (excluding the S9508E-V) 1 (supplied with the Installed at the rear of the switch to block air Air deflector S9508E-V only) from entering the chassis ESD-preventive wrist strap ESD-prevention NOTE:...
Page 34 • items listed in the packing list, and verify that the switch was not damaged during shipment. If anything is damaged or missing, contact the H3C customer representative immediately. • For regulatory compliance and safety information, see "Regulatory Compliance and Safety Information".
Page 35 S9500E switches, see "Appendix A Technical specifications."Slide rails or rack shelves are not provided with the switch. Prepare them yourself, or order them from H3C. The following uses a 19-inch rack as an example to describe the installation procedures. The height of the front panel of the rack is a measurement of one rack unit (RU) (44.45 mm, or 1.75 in).
Page 36 Figure 19 Installing the slide rails (1) Middle of the narrower metal area between holes (2) 1 RU NOTE: The appearance and installation methods of slide rails depend on the slide rail types. • • To ensure stability of the rack, install the slide rails to the lowest possible position when installing a single switch on the rack.
Page 37 Figure 20 Installing the cage nuts NOTE: When preparing for installation, make sure the total height of the switches to be installed is no higher than the height of the rack, and reserve enough clearance for cable routing. Installing the cable management brackets This section separately describes how to install the cable management brackets on S9508E-V switches and switches of other models.
Page 38 Figure 21 Installing cable management brackets on an S9508E-V Installing the cable management brackets on the S9505E/S9508E/S9512E For the S9505E/S9508E/S9512E, install the cable management brackets to the mounting brackets (cable management brackets and mounting brackets are required at both sides of the chassis). Figure 22 shows how to install a right cable management bracket.
Page 39 Installing the mounting brackets Before installing the switch to the rack, install the mounting brackets to the chassis. Figure 23 shows how to install the mounting brackets to an S9505E switch. Figure 23 Installing the mounting brackets Installing an impedance carrier (optional) An impedance carrier is shipped with the S9508E-V.
Page 40 Installing a chassis air filter (optional) Air filters are optional. You can order them as needed. If you have ordered air filters, H3C recommends that you install the air filters before mounting the switch to the rack. S9508E-V—An air filter is available at both front and rear of the switch. For the installation •...
Page 41 Figure 25 Installing the front air filter (1) Ventilation panel (2) Front air filter Figure 26 Installing the rear air filter (1) Ventilation panel (2) Rear air filter Installing an air filter on other models of the S9500E switches The air filters of the S9505E, S9508E, and S9512E are installed in the same way. To install an air filter: Unpack the air filter and fastening strips.
Page 42 Figure 27 Installing an air filter (S9505E) Installing the switch to a rack CAUTION: Make sure you have installed a rack shelf or slide rails on the rack for supporting the switch and the rack shelf or the slide rails are sturdy enough to support the weight of the switch chassis and all accessories. Do not install the switch to the rack by using only mounting brackets.
Page 43 NOTE: If the screw holes on the mounting brackets cannot align with the cage nuts on the rack, check 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.
Page 44 Figure 29 Connecting the grounding cable If there is no grounding point on the rack, you can attach the grounding cable to a grounding strip. The installation procedures are similar. Installing the power system The S9500E switches support both AC and DC power supply modes. You can select either AC or DC power supply mode as needed.
Page 45 Installing a DC power supply Remove the air filter frame of the power supply, and gently pull the DC power supply handle out. Holding the handle of the power supply with one hand and supporting the bottom of the power supply with the other hand, insert the power supply slowly along the slide rails until it makes close contact with the backplane, as shown in Figure...
Page 46 Figure 31 Installing an NEPS3500-A power frame IMPORTANT: For a switch that requires power supply redundancy, install the same number of sub power supplies in the two power frames. Installing a sub power supply Pull the handle of a sub power supply downward to the unlock position. Gently push the sub power supply into the AC power frame (NEPS3500-A) until the rear side of the sub power supply makes close contact with the power frame backplane.
Page 47 Installation preparation Put on an ESD-preventive wrist strap and make sure it is properly grounded. • Remove the blank panel (if any) from the slot to be used. • Prepare the card to be installed. • NOTE: Keep the removed the blank panel and protection cover properly for future use. •...
Page 48 Figure 34 Installing a card Installing a subcard CAUTION: When the switch is powered on, do not install a subcard to the base card that has been installed on the switch. A subcard must be used together with a base card. A base card can support POS or RPR when installed with a Packet over SONET/SDH (POS) or Resilient Packet Ring (RPR) subcard.
Page 49 Push against the front panel of the subcard. When the front panel is close enough to the base card, pivot the ejector levers of the subcard inward with both hands so that the front panel is flush with the panel of the base card. Use a Phillips screwdriver to fasten the mounting screws on the subcard.
Page 50 Figure 36 Bail latch and AC power cord Attach the bail latch to the plug of the AC power cord. Figure 37 Attaching the bail latch to the plug of the AC power cord Connect the plug of the AC power cord to the power receptacle of the sub power supply, as shown in callout 1 on Figure 38.
Page 51 Figure 39 Connecting the power cord to the 16A AC power socket Socket Connecting DC power cords The DC power cords for the NEPS2000-D and NEPS3500-D are connected in the same way. The procedure in this section uses the NEPS2000-D. WARNING! To protect operators from being shocked, install the protection cover over the DC terminal block immediately after you connect the power cord.
Page 52 Figure 40 Connecting DC power cords Verifying the installation WARNING! Make sure you have turned off the power before checking the installation to avoid bodily injury and switch damage. After the installation is completed, verify the installation against the following list. Make sure all check results are positive.
Page 53 Connecting the switch to the network Cable routing recommendations Interface cables and power cords should be separately routed. Reasonable cable routing can improve efficiency by facilitating installation and removal of fan trays, and some other components. Interface cables are routed through the cable management brackets on the left and right sides of the •...
Page 54 Table 13 Console cable pinouts RJ-45 pin Signal DB-9 pin Signal Figure 42 Connecting the switch and the PC through the console port To connect the console cable: Connect the DB-9 connector of the console cable to the serial port of a PC or terminal. Connect the RJ-45 connector of the console cable to the console port of the MPU of the switch.
Page 55 Figure 43 Connection description Select the serial port to be used from the Connect using list, and click OK. Figure 44 Setting the serial port used by the HyperTerminal connection 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.
Page 56 Figure 45 Setting the serial port parameters Select File > Properties in the HyperTerminal window. Figure 46 HyperTerminal window On the Settings tab, set the emulation to VT100 and click OK. NOTE: H3C recommends that you select the Windows keys option button.
Page 57 Figure 47 Setting the terminal emulation in Test Properties dialog box Powering on the switch CAUTION: Before powering on the switch, identify the power switch in the equipment room so that you can disconnect the power supply promptly in case of an emergency. Before powering on the switch, verify that: The interface cables, power cables and the grounding cable are correctly connected.
Page 58 Done! **************************************************************************** H3C S9500E BootWare, Version 1.09 **************************************************************************** Copyright (c) 2004-2009 Hangzhou H3C Technologies Co., Ltd. Compiled Date : Jul 22 2009 CPU Type : MPC8548E CPU L1 Cache : 32KB CPU L2 Cache : 512KB CPU Clock Speed : 1000MHz...
Page 59 The output depends on your switch model. Verification after power-on H3C recommends that you check the following conditions after the switch is powered on: The cooling system is working. You should be able to hear fan rotation noise and feel air being •...
Page 60 Connecting the switch to the network TIP: After connecting the switch to the network, you can use the ping or tracert command to check the H3C S9500E Switch Series interoperability between the switch and network. For more information, see Network Management and Monitoring Command Reference Connecting the switch to the network through an AUX cable You need an AUX cable when configuring a switch with the remote modem dial-up approach.
Page 61 Connecting the switch to the network through an optical fiber Use an optical fiber to connect an optical fiber port, for example, Ethernet fiber port, POS fiber port, or RPR fiber port, on the switch to the network. You must install a transceiver module to the switch, and then insert the fiber connector to the module.
Page 62 Figure 49 Installing an SFP module NOTE: • Do not remove the dust plug of the SFP module port before installing an optical fiber. For an SFP+ module installed with an optical fiber, remove the fiber before you install the SFP module •...
Page 63 NOTE: SFP+ cables are hot swappable. • When connecting an SFP+ cable, make sure the bend radius of the cable is no less than eight times of • the diameter of the cable. Figure 51 SFP+ cable (1) Connector (2) Pull latch To connect an SFP+ cable: Wear an ESD-preventive wrist strap and make sure it makes good skin contact and is well grounded.
Page 64 Figure 52 Installing FMTs...
Page 65 • <Sysname> display device manuinfo slot 3 DEVICE_NAME: LSR1GT24LEC1 DEVICE_SERIAL_NUMBER: 210235A045B05B004350 MAC_ADDRESS: 000f-e200-5600 MANUFACTURING_DATE: 2008-04-13 VENDOR_NAME: H3C In Intelligent Resilient Framework (IRF) mode: • <Sysname> display device manuinfo chassis 1 slot 3 chassis 1 slot 3 : DEVICE_NAME: LSR1GT24LEC1 DEVICE_SERIAL_NUMBER: 210235A045B05B004350...
Page 66 LSR1GT24LEC Normal S9500E-CMW520-A1221 NONE Absent NONE NONE Absent NONE NONE Absent NONE In IRF mode: • Slot No. Brd Type Brd Status Software Version LSR1SRP2B2 Master S9500E-CMW520-A1221 NONE Absent NONE NONE Absent NONE LSR1GT24LEC1 Normal S9500E-CMW520-A1221 NONE Absent NONE NONE Absent NONE NONE...
Page 67 Rebooting your switch CAUTION: Rebooting the switch interrupts network services. • To avoid configuration loss, use the save command to save the running configuration before a reboot. • • Before a reboot, use the display startup and display boot-loader commands to verify whether you have specified the correct startup configuration file and startup software images.
Page 68 Displaying the power supply system of your switch Use the display power-supply command to display the power supply system of your switch. In standalone mode: • <Sysname> display power-supply verbose state: Normal state: Fault Line-card power status: Slot Board-Type Watts Status ---- ---------------...
Page 69 Configuring temperature thresholds for a card You can set temperature thresholds for a card. When the temperature of a card reaches the threshold, the switch generates alarms. Configuring temperature thresholds for a card Step Command Enter system view. system-view • In standalone mode: temperature-limit slot slot-number { inflow | hotspot | outflow } sensor-num lowerlimit warninglimit [ alarmlimit ]...
Page 70 Table 17 Command output Field Description • In standalone mode: Slot—Slot number of a card Slot • In IRF mode: Slot—Slot number of a card on the specified member switch in the format of member ID/slot number Temperature sensor: • hotspot—Hotspot sensor Sensor •...
Page 71 Step Command Remarks Enter system view. system-view • In standalone mode: board-offline slot slot-number Isolate the specified • No card is isolated by default. In IRF mode: card. board-offline chassis chassis-number slot slot-number The fault detection information will be • In standalone mode: displayed and saved in logs in the root test diag-offline slot slot-number...
Page 72 If a port is automatically shut down due to hardware failure protection, its status displayed with the • display interface command is Protect DOWN. To bring up the port, use the undo shutdown command on the port. • If a card is isolated or its software is not allowed to be loaded due to hardware failure fix operations, you can plug out the card and then plug it in to recover the card status.
Page 73 The output shows that all fans of the switch operate properly. • In IRF mode: <Sysname> display fan Chassis 1: 1 State: Normal 2 State: Absent The output shows that the fan in tray 1 operates properly, and no fan is in tray 2 on member switch You can configure either of the following automatic speed adjustment modes for fans as required: Low temperature mode—The fans operate at a high speed to ensure low temperature for the switch.
Page 74 # Display the main parameters of the transceiver module plugged in interface GigabitEthernet 3/0/19. <Sysname> display transceiver interface Gigabitethernet 3/0/19 GigabitEthernet3/0/19 transceiver information: Transceiver Type : 1000_BASE_SX_SFP Connector Type : LC Wavelength(nm) : 850 Transfer Distance(m) : 550(50um),270(62.5um) Digital Diagnostic Monitoring : YES Vendor Name : H3C...
Page 75 <Sysname> display transceiver manuinfo interface Gigabitethernet 3/0/19 GigabitEthernet3/0/19 transceiver manufacture information: Manu. Serial Number : XXXXXXXXXXXXXXXXXX Manufacturing Date : 2008-09-01 Vendor Name : H3C Table 21 Command output Field Description Manu. Serial Number Serial number of the transceiver module Manufacturing Date...
Page 76 module to identify the fault source or examine the key parameters monitored by the digital diagnosis function, including the temperature, voltage, laser bias current, TX power, and RX power. To diagnose transceiver modules: Task Command Remarks Display alarms present on the display transceiver alarm interface Available for all transceiver transceiver module in a specified...
Page 77 Field Remarks RX CDR loss of lock Receiving CDR loss of lock. TX fault Transmission error. TX not ready The transmission status is ready. TX CDR loss of lock Transmission CDR loss of lock. Module not ready The module is not ready. APD supply fault Avalanche Photo Diode (APD) supply error.
Page 78 Field Description Bias(mA) Digital diagnosis parameter—Bias current, in mA, accurate to 0.01 mA. RX power(dBM) Digital diagnosis parameter—RX power, in dBM, accurate to 0.01 dBM. TX power(dBM) Digital diagnosis parameter—TX power, in dBM, accurate to 0.01 dBM.
Page 79 Troubleshooting This chapter describes how to troubleshoot the S9500E switch installation failures. The power supply system, fans, and cards of an S9500E switch have multiple LEDs, through which you can locate the failures. Configuration system problems If the configuration environment setup is correct, the configuration terminal displays boot information when the switch is powered on.
Page 80 Power supply failure Table 24 AC power supply LED description Status Description Steady on Power is being correctly input. Input The power supply is absent or has input voltage error. Steady on The power supply is correctly outputting power. Output The power supply has output voltage error or is absent.
Page 81 Fan failure Table 26 Fan LED description Status Description The fan tray has failed. Steady on The fan tray is operating properly. The fan tray is in normal state. Steady on The fan tray is faulty. When the RUN LED is off or the ALM LED is on, the fan tray fails. To troubleshoot the fan tray: If both LEDs are off, check the power supply to make sure it is working properly.
Page 82 When the MPU works properly, the RUN LED (callout 6 in Figure 53) flashes, and the ALM LED (callout 7 in Figure 53) is off. When the two LEDs are not in the states mentioned above, the MPU fails. To troubleshoot the MPU: Check that the power supply works properly.
Page 83 • Brief problem description • Brief explanation of the troubleshooting measures that have been taken • You can contact the customer service through the customer service hotline, the H3C website, or email. Customer service hotline: 400-810-0504 Website: http://www.h3c.com E-mail: service@h3c.com...
Page 84 Replacement procedures IMPORTANT: H3C recommends that you place a removed module in an antistatic bag or its original shipping materials. Cleaning the air filters The air filters of an S9500E switch fall into the following types: • Chassis air filter—The chassis air filter is not shipped with the S9500E chassis by default. You can order one as needed.
Page 85 Figure 54 Removing the rear chassis air filter of a S9505E-V chassis Cleaning the chassis air filters for other models An S9505E, S9508E, or S9512E has only one chassis air filter, which can be removed, cleaned, and installed in the same way. To clean a chassis air filter: Loosen the captive screws at both sides of the chassis air filter.
Page 86 Cleaning the air filter of a DC power supply Using your thumb and index finger to hold the upper and lower edges of the air filter frame, gently remove the air filter frame. Pull the black air filter out of the air filter frame. Figure 56 Removing the air filter of a DC power supply Use clean water to gently wash the air filer (do not rub the air filter), and air-dry it.
Page 87 Preparing for the replacement Put on an ESD-preventive wrist strap, and make sure the wrist strap makes good skin contact and is grounded. Make sure the power switch of the DC power supply or AC sub power supply is in the OFF position before removing them.
Page 88 Figure 58 Replacing a DC power supply (A) DC power supply to be removed (B) DC power supply to be installed Replacing an AC power supply Pull the handle of the sub power supply downward to the unlock position. Gently move the sub power supply to separate it from the backplane of the power supply.
Page 89 Gently push the sub power supply into the specified slot of the AC power supply until the rear of the sub power supply has close contact with the AC power frame backplane. Push the handle upward so that the handle locks the sub power supply in place. Figure 59 Replacing an AC power supply (A) AC power supply to be removed (B) AC power supply to be installed...
Page 90 Preparing for the replacement To prepare for the replacement: Put on an ESD-preventive wrist strap, and make sure the wrist strap makes good skin contact and is well grounded. Unpack the card to be installed. If the card has a protection cover, remove it first. Figure 60 Removing the protection cover NOTE: Keep the removed blank panel and protection cover properly for future use.
Page 91 Figure 61 Replacing a card Replacing a subcard CAUTION: When the switch is operating, do not remove or install a subcard on a base card that has not been removed. The subcards do not support hot swapping. Replace a subcard by using either of the following approaches: •...
Page 92 Use a Phillips screwdriver to fasten the captive screws on the subcard to tighten the subcard. Figure 62 Replacing a subcard (A) Subcard to be removed (B) Subcard to be installed Replacing a fan tray CAUTION: To avoid injury, do not touch any wires, terminals, and parts with a high-voltage hazard sign. •...
Page 93 Holding the fan tray handle with one hand and supporting the fan tray bottom with the other hand, pull out the fan tray along the slide rails. Put the removed fan tray on an antistatic mat or into its original shipping materials. Gently insert the new fan tray into the fan tray slot along the slide rails until it has close contact with the backplane.
Page 94 Figure 64 Replacing a fan tray for an S9508E-V (A) Fan tray to be removed (B) Fan tray to be installed Replacing a CF card Figure 65 CF card slot (1) CF card cover (2) CF card eject button (3) CF card (4) CF card LED The CompactFlash (CF) card is installed on the MPU of an S9500E.
Page 95 After you execute the umount cf command, if you want to continue to use the CF card, execute the mount cf command in user view to load the CF card again. For more information about the umount and mount H3C S9500E Switch Series Fundamentals Command Reference commands, see Use a Phillips screwdriver to loosen the screw at the right side of the CF card cover, and pull the CF card cover outward.
Page 96 Replacing a transceiver module The replacement procedures of XFP, SFP+, and SFP transceiver modules are similar. This section takes an SFP transceiver module as an example. CAUTION: When installing or removing an SFP transceiver module, do not touch the golden finger of the SFP transceiver module.
Page 97 NOTE: Remove the fibers, if any, from the SFP transceiver module before installing it.
Page 98 Regulatory Compliance and Safety Information Regulatory Compliance Information Regulatory Compliance Standards Table 27 Regulatory compliance standards Discipline Standards FCC Part 15 (CFR 47) CLASS A ICES-003 CLASS A VCCI-3 CLASS A CISPR 22 CLASS A EN 55022 CLASS A AS/NZS CISPR22 CLASS A CISPR 24 EN 55024 EN 61000-3-2...
Page 99 Directive and must be disposed of in a responsible manner. USA Regulatory Compliance FCC Part 15 H3C S9500E Series Routing Switches complies with Part 15 of the FCC Rules. Operation is subject to the following two conditions: This device may not cause harmful interference.
Page 100 CISPR 22 Compliance H3C S9500E Series Routing Switches complies with the requirements of CISPR 22 for Class A Information Technology Equipment (ITE). Warning: If this equipment is used in a domestic environment, radio disturbance may arise. When such trouble occurs, the user may be required to take corrective actions.
Page 101 Note Before any operation is performed, please read the operation instructions and precautions carefully to minimize the possibility of accidents. The Note, Caution, Warning and Danger items in other manuals do not cover all safety precautions that should be followed. They are only the supplements to the safety precautions for operations as a whole.
Page 102 Die Symbole in diesem Handbuch verwendeten sind in der folgenden Tabelle dargestellt. Diese Symbole sollen das Personal während der Installation und Instandhaltung der Ausrüstung an die Wichtigkeit der im Handbuch aufgeführten Sicherheitsvorschriften erinnern. 以下表格中的安全标识，是用来提示读者在进行交换机安装和维护时的安全预防要求。 Table 28 Safety symbol and description Sicherheitssymbole und Beschreibung 安全标识和描述 Safety Symbol Description Symbole...
Page 103 Sorgen Sie dafür, dass die Öffnungen der Ventilation zu keinem Zeitpunkt verschlossen, verstopft • oder anderweitig blockiert sind. Zwischen den Ventilationsöffnungen und Wänden bzw. anderen Gegenständen muss stets ein Abstand von mindestens 5cm bestehen. • 交换机在工作时必须确保通风口的畅通，确保交换机离墙壁或是其它的可能堵塞通风口的物体的间距至少 5cm。 Never defeat the ground conductor or operate the equipment in the absence of a suitably installed •...
Page 104 Electricity Safety Elektrische Sicherheit 用电安全 High Voltage Hochspannung高电压 Danger High voltage power supply offers electric power for equipment operation. Direct contact or indirect contact (via damp objects) with high voltage and AC mains supply may result in fatal danger. Gefahr Die Hochspannungsleitungen stellen für die Arbeit der Ausrüstung erforderliche Energie zur Verfügung.
Page 105 Warnung Die Nichtbeachtung der Sicherheitsvorschriften bei der Arbeit mit Hochspannung kann zu Feuer und elektrischem Schlag führen. Deshalb muss die Verlegung von Leitungen und Verbindungen den örtlichen Anforderungen und Sicherheitsvorschriften entsprechen. Arbeiten mit Hochspannung dürfen nur von qualifiziertem Fachpersonal durchgeführt werden. 警告...
Page 106 说明 DC 电源交换机，请使用 10 mm 或 6 AWG 电缆； AC 电源交换机，请使用 10 mm 或 6 AWG 电缆。 Thunderstorm Gewitter 防雷击 Danger High voltage and AC operations or operations on a steel tower and a mast on a thunderstorm day are prohibited.
Page 107 Fuse Sicherung保险丝 Warning For the safety of continuous operation, please replace the fuse with that of the same type and rating, if necessary. Warnung Ersetzen Sie die Sicherung bei Bedarf immer nur mit einem Sicherungstyp, der die gleichen technischen Daten besitzt. 警告...
Page 108 Appendix A Technical specifications Environment requirements Temperature Range • Long term: 0°C to 45°C (32°F to 1 13°F) Operating temperature • Short term: –10°C to +55°C (14°F to 131°F) (up to 96 hours of continuous operation within less than 15 days in one year) Operating humidity (noncondensing) 5% to 95% Storage temperature...
Page 109 Max. power Max. system consumption Dimensions (H Height Switch model input power Weight for cards and × W × D) (RU) consumption fans Net weight: 60 kg 753 × 442 × (132.28 lb) 3650 W (AC) 450 mm (29.65 S9512E 3100 W 17 RU Full configuration:...
Page 110 Card model Power consumption Net weight Dimensions (H × W × D) 40 × 400 × 380 mm (1.57 × LSR2GV48REB1 52 W to 95 W 3.32 kg (7.32 lb) 15.75 × 14.96 in) 40 × 400 × 380 mm (1.57 × LSR1XP2LEB1 36 W to 50 W 2.94 kg (6.48 lb)
Page 111 Card model Power consumption Net weight Dimensions (H × W × D) 40 × 400 × 380 mm (1.57 × LSR1FW2A1 73 W to 105 W 3.52 kg (7.76 lb) 15.75 × 14.96 in) 40 × 400 × 380 mm (1.57 × LSR1IPS1A1 73 W to 105 W 3.52 kg (7.76 lb)
Page 112 Switch ordering guide Power Power Card slot Model LPU slots supply Remarks supply mode slots trays slots S9505E AC/DC Horizontal recommends S9508E AC/DC Horizontal configuring two MPUs and two S9508E-V AC/DC Vertical power supplies for 1+1 S9512E AC/DC Horizontal redundancy. NOTE: The LPU slots are for Ethernet interface cards, base cards, and OAA cards.
Page 113 Category Card model Description Applicable S9500E chassis Standard LSR1GP48LEB1 All S9500E models 48-port 1000 Mbps fiber Ethernet interface card Enhanced LSR1GP48LEC1 All S9500E models 48-port 1000 Mbps fiber Ethernet interface card Advanced LSR1GP48LEF1 All S9500E models 48-port 1000 Mbps fiber Ethernet interface card Standard LSR2GV48REB1...
Page 114 Category Card model Description Applicable S9500E chassis 4-port OC-48c/STM-16c POS fiber LSR1DPSP4L1 All S9500E models interface card 8-port OC-3c/OC-12c POS fiber LSR1DTCP8L1 All S9500E models interface card LSR1FW2A1 Firewall card All S9500E models LSR1IPS1A1 1000 Mbps IPS card All S9500E models LSR1WCM2A1 Wireless controller module All S9500E models...
Page 115 Specifications Item LSR1SRP2B LSR1SRP LSR1SRP2C1 LSR1SRP2B2 LSR1SRP2C2 • 1 console port • 1 AUX port • 1 network management port Interfaces • 1 CF card slot • 2 USB ports • 4 SMB coaxial clock interface (supported only by LSR1SRP2D1) Ethernet interface cards Table 34 Ethernet interface card specifications Model...
Page 116 Model Interface type and number Supported interface modules • 10-GE SFP+ module LSR1XP16REC1 Sixteen 10-GE SFP+ fiber ports • 10-GE SFP+ cable NOTE: Each combo interface comprises a copper port and a fiber port. The two ports cannot work at the same time.
Page 117 NOTE: The LSR1DTCP8L1 subcard supports two types of interface transmission rates. You can configure an interface rate as OC-3c (155.52 Mbps) or OC-12c (622.08 Mbps), and then select an SFP module supporting the same rate. OAA cards CAUTION: The software upgrade of OAA cards must be performed though console ports or Ethernet ports on the OAA cards, rather than the MPU.
Page 118 Select AC or DC power supplies according to the power supply mode of your switch. Make sure the maximum output power of the power supplies exceeds the system power • consumption. H3C recommends reserving a certain power de-rating value. For the maximum output power of a single power supply, see Table •...
Page 119 Specifications Countries or regions where the type of Countries or Other countries or Connec power cords conforms regions seldom Code (Length) regions using this type of tor type to local safety using this type of power cords regulations and can be power cords used legally Mexico, Argentina,...
Page 120 Specifications Countries or regions where the type of Countries or Other countries or Connec power cords conforms regions seldom Code (Length) regions using this type of tor type to local safety using this type of power cords regulations and can be power cords used legally 0404A060 (3...
Page 121 Appendix B LEDs Power supply LEDs Table 40 AC power supply LED description Status Description Steady on Power is being correctly input. Input The power supply is absent or has input voltage error. Steady on The power supply is correctly outputting power. Output The power supply has output voltage error or is absent.
Page 122 MPU LEDs Figure 69 MPU LEDs (1) CF card status LED (CFS) (2) Network management (3) Network management interface interface LED (ACT) LED (LINK) (4) MPU status LED (SFS) (5) MPU status LED (ACT) (6) MPU status LED (RUN) (7) MPU status LED (ALM) (8) LPU status LED (RUN) (9) LPU status LED (ALM) NOTE:...
Page 123 Status Description Steady on A link is present. No data is being transmitted or received. Flashing Data is being transmitted and/or received. LPU status LEDs Table 45 LPU status LED description Status Description Steady on The LPU is faulty. The LPU is faulty or not in position. RUN (green) Flashing (8 times per second) The LPU is registering or starting up.
Page 124 LSR2GT48LEB1 • • LSR1GT48LEC1 LSR2GP24LEB1 • LSR1GP24LEC1 • • LSR1GP48LEB1 LSR1GP48LEC1 • LSR1GP48LEF1 • LSR2GV48REB1 • LSR1XP16REB1 • • LSR1XP16REC1 NOTE: On the LSR2GT24LEB1 and LSR1GT24LEC1, the autosensing RJ-45 copper ports are numbered from 1 • to 16. For the LED description, see Table 47.
Page 125 Combo interface LED The following LPUs provide combo interfaces. Each copper or fiber combo interface has a LED. LSR2GT24LEB1 • LSR1GT24LEC1 • LSR2GP24LEB1 • LSR1GP24LEC1 • Table 49 Combo interface LED description Status Description The combo interface is activated. By default, the copper Steady orange combo interface is activated.
Page 126 Status Description The local Mate interface is not synchronous with the peer Mate interface. Steady red At least one alarm is present. The interface is up, and data is being transmitted and received ACT/ALM Steady green on the interface. The interface is down. Steady on The RPR station is in Passthru mode.
Page 127 Status Description Steady red At least one alarm is present. ACT/ALM The interface is up, and data is being transmitted and received Steady green normally on the interface. (Ringlet 0) The interface is down. The local Mate interface is synchronous with the peer Mate Steady on interface.
Page 128 Appendix C Transceiver modules 10-GE XFP transceiver modules Table 54 10-GE XFP transceiver module specifications Central Max. transmission Model Connector Fiber wavelength distance 62.5/125 μm multi-mode 850 nm 33 m (108.27 ft) optical fiber XFP-SX-MM850 50/125 μm multi-mode 850 nm 300 m (984.25 ft) optical fiber 9/125 μm single-mode...
Page 129 Central Max. transmission Model Connector Fiber wavelength distance 9/125 μm single-mode XFP-LX-SM1542.14 1542.14 nm 80 km (49.71 miles) optical fiber 9/125 μm single-mode XFP-LX-SM1542.94 1542.94 nm 80 km (49.71 miles) optical fiber 9/125 μm single-mode XFP-LX-SM1543.73 1543.73 nm 80 km (49.71 miles) optical fiber 9/125 μm single-mode XFP-LX-SM1544.53...
Page 130 NOTE: The subcard LSR1DPUP1L1 supports only 10-GE XFP transceiver modules XFP-LH40-SM1550-F1, XFP-LH80-SM1550, and XFP-POS-LH10- SM1310. The subcard LSR1DRUP1L1 supports only 10-GE XFP transceiver modules XFP-SX-MM850, XFP-LX-SM1310, XFP-LH40-SM1550-F1, XFP-LH80-SM1550, and XFP-POS-LH10-SM1310. Table 55 Maximum transmission distance of 10-GE multi-mode optical fibers Fiber type Modal bandwidth (MHz*km) Maximum transmission distance...
Page 131 Table 57 Maximum transmission distance of 10-GE multi-mode optical fibers used by long-hual SFP+ multi-mode transceiver modules Fiber type Modal bandwidth (MHz*km) Maximum transmission distance 62.5/125 μm multi-mode 220 m (721.78 ft) optical fiber 62.5/125 μm multi-mode (OM1) 200 220 m (721.78 ft) optical fiber 50/125 μm multi-mode 100 m (328.08 ft)
Page 132 100/1000 Mbps SFP transceiver modules Table 60 100/1000 Mbps SFP transceiver module specifications Central Max. transmission Model Connector Fiber wavelength distance 50/125 μm 850 nm multi-mode optical 550 m (1804.46 ft) fiber SFP-GE-SX-MM850-A 62.5/125 μm 850 nm multi-mode optical 275 m (902.23 ft) fiber 9/125 μm SFP-GE-LX-SM1310-A...
Page 133 Central Max. transmission Model Connector Fiber wavelength distance 9/125 μm SFP-GE-LH70-SM1570- 1570 nm single-mode 70 km (43.50 miles) optical fiber 9/125 μm SFP-GE-LH70-SM1590- 1590 nm single-mode 70 km (43.50 miles) optical fiber 9/125 μm SFP-GE-LH70-SM1610- 1610 nm single-mode 70 km (43.50 miles) optical fiber 50/125 μm 1310 nm...
Page 134 155M POS SFP transceiver modules Table 62 155M POS SFP transceiver module specifications Central Max. transmission Model Connector Fiber wavelength distance 50/125 μm 1310 nm multi-mode optical 2 km (1.24 miles) fiber SFP-FE-SX-MM1310- 62.5/125 μm 1310 nm multi-mode optical 2 km (1.24 miles) fiber 9/125 μm SFP-FE-LX-SM1310-...
Page 135 Appendix D Lightning protection Connecting the AC power supply to a power strip with lightning protection If part of the AC power line is routed outdoors, use a power strip with lightning protection to connect the AC power cord of the switch to the AC power line to protect the switch from being damaged by lightning strikes.
Page 136 If part of the network cable of a 10/100/1000 Mbps RJ-45 copper Ethernet port must be routed outdoors, connect a lightning protector to the cable before you plug the cable into the port. H3C recommends that you install lightning protector for 10/100/1000 Mbps RJ-45 copper Ethernet ports.
Page 137 Appendix E Engineering labels Engineering labels are used to identify cables and devices for easy maintenance after installation. There are two types of engineering labels, labels for cables and labels for devices. Labels for cables Cables include signal cables such as network cables and fibers, and power cords such as AC power cords and DC power cords.
Page 138 Figure 73 Label for power cords (1) Cable tie (2) Dividing line on the label Generic labels A generic label is bar-shaped with fixed dimensions. It is applicable to both signal cables and power cables. A mark "TO:" is located at the upper left corner in the right area of the label to identify the peer end of the cable on which the label is affixed.
Page 139 A device label is used to identify the device name, model, address, installation date, and so on. Filling in labels You can print or write desired contents on labels. H3C recommends that you print labels. To print labels, select a label printer and a proper label template as needed. For more information about using a label printer, see the user guide of the printer.
Page 140 Figure 75 Affixing a label Figure 76 shows the affixed labels when the cable is laid vertically and horizontally. Figure 76 Affixed labels 03 12 Affixing a label to a power cord Stick the label to the recessed rectangular area on the identification plate. You can stick the label to either side of the identification plate.
Page 141 Figure 77 Affixing a label – 48V2 Bind cable ties on both ends of a cable. After the bundling, the finished identification plate should be on top of the cable in horizontal cabling, or on the right side of the cable in vertical cabling. Make sure the label is facing out, as shown in Figure Figure 78 Affixed labels...
Page 142 Figure 79 Affixing a generic label Affixing a label to a device Remove the device label and stick it to the device. You can stick a device label to any desired position on the device. Guidelines When you print, write, or affix labels, keep the labels clean. •...
Page 143 Content Meaning Example Numbered in top-down order with two digits, for B—Chassis number example, 01. Numbered in top-down and left-right order with two C—Slot number digits, for example, 01. Numbered in top-down and left-right order with two D—Ethernet port number digits, for example, 01.
Page 144 Engineering labels for optical fibers These labels are affixed to optical fibers that connect the fiber ports on the cards in a chassis, or connect fiber ports on box-type devices. There are two types of labels for optical fibers: labels for a fiber that connects the fiber ports on two devices, labels for a fiber that connects the device and the optical distribution frame (ODF).
Page 145 Content Meaning Example Numbered in top-down and left-right order with D—Fiber port number two digits, for example, 05. R—Optical receiving interface T—Optical transmitting interface • M—Row number of the rack in the equipment room, in the range of A to Z. MN—Row number and column •...
Page 146 Engineering labels for DC power cords These labels are affixed to DC cables that provide power for racks, and the protection grounding cables including the –48V, PGND, and BGND cables. The labels for DC power cords are affixed to one side of the identification plates on cable ties.
Page 147 example, if the label on the loaded cabinet side is "A01-RTN", it means that the power cord is an RTN that connects RTN copper bar in the power distribution box on Row A, Column 01 in the equipment room. Information on the labels for PGND cables should be given in the similar way. Engineering labels for AC power cords These labels are affixed to the AC cables that provide power for cabinets and protection grounding cables, including POWER, RTN, and PGND cables.
Page 148 Figure 85 Example of a device label...
Page 149 Appendix F Cable management Label cables before you route or bundle them. For more information about labeling cables, see "Appendix E Engineering labels for cables." Cable management guidelines When you route and bundle up cables, follow these guidelines: Bind cables neatly for easy maintenance and expansion. •...
Page 150 Figure 87 Binding the cables When you route cables through sharp sheet metal penetration points or along sharp edges of • mechanical parts, use bushings or take any other action to protect the cables from being cut or abraded. The sheet metal penetration points must be smooth and fully rounded. After binding the cables, cut the excess from the ties, leaving no sharp or angular tips.
Page 151 Cable management examples Figure 89 Network cable management...
Page 152 Figure 90 Optical fiber management Use strapping tapes to carefully bind optical fibers. Avoid excessive force. For more information, see the instructions shipped with the strapping tapes. Figure 91 Power cord management...
Page 153 Index A B C D E F G I L M P R S T V Affixing labels,129 Grounding the switch,33 Guidelines,132 Backplane,9 Base card Installation tools,22 LED,1 15 Installing a card,36 Installing a lightning protector for a network port,126 Cable management examples,141 Installing a...
Page 154 Replacing a fan tray,82 Switch ordering guide,102 Replacing a power supply system,76 Replacing a subcard,81 Technical support,73 Replacing a transceiver module,86 Verifying and diagnosing transceiver modules,64 Safety Information Sicherheits informationen Verifying the installation,42 Safety recommendations,15 Subcard LEDs,1 15...

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