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H3C S7500E-X Switch Series Installation Guide New H3C Technologies Co., Ltd. http://www.h3c.com Document version: 6W106-20200901...
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The information in this document is subject to change without notice. All contents in this document, including statements, information, and recommendations, are believed to be accurate, but they are presented without warranty of any kind, express or implied. H3C shall not be liable for technical or editorial errors or omissions contained herein.
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Preface The H3C S7500E-X Switch Series Installation Guide describes how to install the H3C S7500E-X switches. This preface includes the following topics about the documentation: • Audience. • Conventions. • Documentation feedback. Audience This documentation is intended for: • Network planners.
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Symbols Convention Description An alert that calls attention to important information that if not understood or followed WARNING! can result in personal injury. An alert that calls attention to important information that if not understood or followed CAUTION: can result in data loss, data corruption, or damage to hardware or software. An alert that calls attention to essential information.
Preparing for installation The H3C S7500E-X Switch Series includes the following models: • S7506E-X • S7510E-X Safety recommendations To avoid possible bodily injury and equipment damage, read all safety recommendations carefully before installation. Note that the recommendations do not cover every possible hazardous condition.
ESD prevention To prevent the electric component from being damaged by electrostatic discharge (ESD), follow these guidelines: • Ground the switch reliably. For how to ground your switch, see "Grounding the switch." • Always wear an ESD wrist strap and make sure it is reliably grounded when installing FRUs. For how to use an ESD wrist strap, see "Attaching an ESD wrist strap."...
• Lasting high relative humidity can cause poor insulation, electricity leakage, mechanical property change of materials, and metal corrosion. • Lasting low relative humidity can cause washer contraction and ESD and cause problems including loose mounting screws and circuit failure. Table 1-2 Humidity requirements Humidity Range...
• Electromagnetic wave radiation. • Common impedance (including the grounding system) coupling. To prevent EMI, use the following guidelines: • If AC power is used, use a single-phase three-wire power receptacle with protection earth (PE) to filter interference from the power grid. •...
Figure 1-1 Airflow through the switch chassis (S7506E-X) (1) Direction of the airflow into the power modules (2) Direction of the airflow out of the power modules (3) Direction of the airflow into the chassis (4) Direction of the airflow out of the chassis Space For easy installation and maintenance, follow these space requirements: •...
NOTE: The signal cables and power cords are routed through the front of the chassis. If you use power cords that have a conductor cross-section area of a minimum of 16 sq mm (0.02 sq in), leave more space between the front rack posts and the front door as appropriate. Figure 1-2 shows the depth of the S7506E-X and S7510E-X switches.
Compatible switch Item Quantity model/module Removable cable tie All power modules NOTE: • Removable cable ties are shipped with the power modules. Other accessories are shipped with the chassis. • Figures for the mounting bracket, cable management bracket, and power cord management bracket in Table 1-6 are for illustration only.
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Contents 2 Installing the switch ·················································································· 2-1 Confirming installation preparations ················································································································ 2-1 Attaching slide rails and cage nuts to the rack ································································································ 2-1 Customizing the cage nut installation template ······················································································· 2-1 Installing slide rails ·································································································································· 2-2 Installing cage nuts for attaching mounting brackets ·············································································· 2-6 (Optional) Installing an air filter ·······················································································································...
A paper installation quick start is shipped with the switch chassis. This installation quick start can also be used as the cage nut installation template. • For an S7506E-X switch that uses H3C slide rails, cut the template along the For S7506E-X that uses H3C slide rails line. •...
Make sure the slide rails can support the weight of the switch. For the weights of the switches, see "Weights and dimensions." As a best practice, order the H3C Slide Rail Accessories, 500mm-800mm (LSTM2KSGD0). The accessories can be used in racks where the distance between the front and rear rack posts fits the H3C slide rails: •...
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Mount this end to the front right rack post. Mark the uppermost and lowermost cage nut installation holes on the rack posts for the slide rails. For a switch that uses H3C slide rails, use the template to determine the cage nut installation holes.
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Cage nut installation holes for slide rails For a switch that uses non-H3C slide rails, use a slide rail to determine the cage nut installation holes. Make sure the bottom edge of a slide rail aligns with the middle of the narrower metal area between holes on a rack post, as shown in Figure2-4.
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Figure2-5 Installing a cage nut Align the installation holes on the front end of a slide rail with the cage nuts on the front rack post, and attach them with screws, as shown in Figure2-6. Figure2-6 Attaching a slide rail to a front rack post Keep the slide rail horizontally and adjust its length until the installation holes on the rear end of the slide rail touch the cage nuts on the rear rack post.
Figure2-7 Installed slide rails Installing cage nuts for attaching mounting brackets Before mounting the chassis in the rack, install cage nuts on the front rack posts for attaching the mounting brackets by perform the following steps: Mark the cage nut installation holes on the front rack posts, as shown in Figure2-3. Install the cage nuts, as shown in Figure2-5.
Figure2-8 Installing an air filter on the S7506E-X chassis Mounting the switch in the rack CAUTION: • Do not hold the handle of the fan tray or power module, or the air vents of chassis to move the switch. Any attempt to carry the switch with these parts might cause equipment damage or even bodily injury.
Figure2-9 Installing the chassis in the rack (S7506E-X) If the mounting holes in the mounting brackets cannot align with the cage nuts on the rack, verify that the bottom edge of the slide rail aligns with the middle of the narrower metal area between holes and that the cage nuts are installed in the correct holes.
Figure2-10 Connecting the grounding cable to a grounding strip Grounding the switch through the PE wire of an AC power supply CAUTION: Make sure the AC power supply uses a three-wire cable with a protection wire, and the PE wire of the AC power supply is reliably grounded at the power distribution room or AC power supply transformer side.
Grounding the switch through the RTN wire of a DC power supply CAUTION: Make sure the RTN wire is reliably grounded from the DC egress of the DC power cabinet. If the switch is powered by a –48 VDC power supply and no grounding strip is available at the installation site, you can ground the switch through the return (RTN) wire of the DC power supply, as shown in Figure2-12.
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Contents 3 Installing FRUs ························································································ 3-1 Attaching an ESD wrist strap ·························································································································· 3-1 Installing cards ················································································································································ 3-2 Installing subcards ·········································································································································· 3-3 Installing power modules································································································································· 3-5 Installing a power module ······················································································································· 3-5 Connecting an AC power cord ················································································································ 3-6 Connecting a DC power cord ·················································································································· 3-7 (Optional) Setting up a PoE system ················································································································...
Installing FRUs There is no required order for installing FRUs. As a best practice, connect power cords after completing installing all required FRUs. TIP: Keep the chassis and the component packages for future use. Attaching an ESD wrist strap Every switch provides an ESD wrist strap. To minimize ESD damage to electronic components, wear the ESD wrist strap and make sure it is reliably grounded when installing modules.
Installing cards IMPORTANT: • Before installing a card in the chassis, make sure the connectors on the card are not broken or blocked to avoid damaging the backplane. • To ensure good ventilation, install a blank filler panel in an empty slot. •...
Figure 3-3 Rotating up the ejector levers on a base card Fasten the captive screws on the card. When the switch is powered on, verify the running status of the card. You can verify the running status of a card by referring to the card status LED (SLOT) on the MPU of the switch.
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Wear an ESD wrist strap, and make sure it has good skin contact and is reliably grounded. For more information, see "Attaching an ESD wrist strap." Make sure a base card is installed in the switch. Unpack the subcard. If the target slot has a blank filler panel, remove the blank filler panel from the slot. Keep the removed blank filler panel for future use.
An AC power module and a DC power module are installed in the same way. This section uses an AC power module as an example. For information about AC and DC power modules, see H3C AC1200 Power Module User Manual, H3C AC2500 Power Module User Manual and H3C DC2400 Power Module User Manual.
Figure 3-7 Installing a power module (AC power module in a vertical slot) Connecting an AC power cord CAUTION: Before connecting an AC power cord, make sure the circuit breaker at the power input end is switched off. To connect an AC power cord: Plug the power cord into the power receptacle of the power module.
Figure 3-8 Securing the power cord (vertical slot) Figure 3-9 Securing the power cord (horizontal slot) Connecting a DC power cord WARNING! • Make sure each power cord has a separate circuit breaker. • Before you connect the power cord, make sure the circuit breaker on the power cord is switched off.
Fasten the screw to secure the power cord. Figure 3-10 Connecting the power cord (vertical slot) (Optional) Use a cable tie to secure the power cord to the power cord management bracket. For more information, see Figure 3-8 Figure 3-9. Connect one end of the DC power cord marked with –48V to the negative terminal (–48V) on the power source;...
Connecting an external PoE power frame CAUTION: Make sure the power is off when you are connecting the external PoE power frame. To connect an external PoE power frame, perform the following tasks: Connect DC power cords to the switch and external PoE power frame. Connecting DC power cords to the switch.
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Connect the ring terminal marked with + of the black power cord to the power terminal marked with RTN(+) on the PoE PEM: a. Remove the outer nut, spring washer, and flat washer from the power terminal. b. Connect the ring terminal to the power terminal. c.
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Figure 3-13 Connecting DC power cords to the switch (S7506E-X) Connecting DC power cords to the external PoE power frame Each external PoE power frame has six pairs of terminals. Use one pair of terminals for an S7506E-X switch and use two pairs of terminals for an S7510E-X switch. To connect DC power cords to the external PoE power frame: Remove the terminal block cover from the external PoE power frame.
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Figure 3-14 Connecting DC power cords to the external PoE power frame Installing power modules on the external PoE power frame Wear an ESD wrist strap and make sure it has good skin contact and is reliably grounded. For more information, see "Attaching an ESD wrist strap."...
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Push in the power module cover to ensure secure installation of the power module. Repeat steps 3 to 5 to install other power modules. Figure 3-16 Installing power modules Reinstall the front cover of the external PoE power frame and fasten the screws. Figure 3-17 Installing the front cover Connecting the monitoring cable An external PoE power frame monitoring cable has two RJ-45 connectors.
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Figure 3-18 Connecting the monitoring cable Connecting the external PoE power frame to the power source Each receptacle on the external PoE power frame corresponds to a power module slot. To enable a power module to operate, connect the AC power cord to the correspondent receptacle. To connect the external PoE power frame to the power source: Insert the connector of the AC power cord into the receptacle of a power module.
(Optional) Installing transceiver modules and network cables WARNING! Disconnected optical fibers or transceiver modules might emit invisible laser light. Do not stare into beams or view directly with optical instruments when the switch is operating. Installing an XFP/SFP+/SFP/QSFP+ module CAUTION: To avoid transceiver module or port damage, read this guide carefully before installing a transceiver module.
Figure 3-20 Installing an SFP+ module Connecting a network cable CAUTION: When you connect a network cable, follow these restrictions and guidelines: • Make sure the two modular ends of a network cable are compatible with the ports into which they will be inserted.
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Contents 4 Connecting your switch to the network ····················································· 4-1 Accessing the switch for the first time ············································································································· 4-1 Setting up the configuration environment································································································ 4-1 Setting terminal parameters ···················································································································· 4-3 Powering on the switch ··························································································································· 4-3 Configuring the switch ····································································································································· 4-5 Configuring authentication on a user interface························································································...
You manage console or USB console login users at AUX user interfaces, and manage Telnet and SSH users at VTY user interfaces. For more information about login methods and user interfaces, see H3C S7500E-X Switch Series Fundamentals Configuration Guide. Accessing the switch for the first time The first time you access the switch you must use a console cable to connect a console terminal, for example, a PC, to the console port or USB console port on the switch.
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• Console cable connecting the USB console port on a switch and the USB port on a terminal The console cable has one mini-USB A/B connector for connecting to the USB console port on the switch and one USB A connector for connecting to the USB port on the terminal. Figure 4-2 shows the console cable and Table 4-2...
Figure 4-3 Connecting the console port to the terminal USB console port Console port Setting terminal parameters To access the device through the console port, you must run a terminal emulator program, TeraTermPro or PuTTY, on the configuration terminal. For information about using a terminal emulator program, see the program's user guide.
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The following is a sample output you can see on the terminal: System is starting... Booting Normal Extend BootWare. The Extend BootWare is self-decompressing........Done! **************************************************************************** BootWare, Version 1.32 **************************************************************************** Compiled Date : Mar 11 2014 CPU Type : XLP316 CPU Clock Speed : 1200MHz Memory Type...
For more information about login methods, see H3C S7500E-X Switch Series Fundamentals Configuration Guide. Connecting the switch to the network Before you connect the switch to the network, verify that all its basic settings are correct.
Connecting your switch to the network through optical fibers WARNING! To avoid injury to your eyes, do not stare at the optical ports and optical fiber connectors when connecting optical fibers. You can install a transceiver module in a fiber port and use optical fibers to connect the port to the network.
Testing connectivity After you connect the switch to the network, use the command to test the network ping tracert connectivity. For more information about these commands, see H3C S7500E-X Switch Series Network Management and Monitoring Command References.
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Contents 5 Replacement procedures ········································································· 5-1 Replacing mounting brackets ·························································································································· 5-1 Replacing a power module······························································································································ 5-2 Replacing a card ············································································································································· 5-4 Replacing a subcard ······································································································································· 5-5 Replacing a fan tray ········································································································································ 5-6 Replacing an air filter ······································································································································ 5-7 Replacing PoE system components ··············································································································· 5-8 Replacing a PoE PEM ·····························································································································...
Replacement procedures CAUTION: • Ensure electrical safety when you hot swap an FRU. • To avoid bodily injury and device damage, strictly follow the replacement procedure in this section when you replace a component. The switch uses a modular, hot-swappable architecture, and supports field replaceable units (FRUs). You can replace any FRU when the switch is operating.
Figure 5-2 Removing mounting brackets (S7506E-X) Install the new mounting brackets. Figure 5-3 Installing mounting brackets (S7506E-X) Cooperate with one or more people to push the chassis back to the rack, and fasten the screws to secure the chassis to the rack. For more information, see "Mounting the switch in the rack." Replacing a power module Follow these guidelines when you replace a power module: •...
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Figure 5-5 Power module installation procedure Install the power Connect the power Turn on the circuit module cord breaker • Power modules on the switch must be the same model. When the new power modules and the existing power modules are not the same model, power off the switch and remove all existing power modules before installing new power modules.
Figure 5-6 Removing a vertically oriented AC power module Replacing a card CAUTION: • To remove the only MPU on the switch, first power off the switch. • Before you remove an MPU or service module, remove the cables from it. •...
Simultaneously rotate outward the ejector levers to separate the card from the backplane, as shown by callout 2 in Figure 5-7. For a base card, rotate the ejector levers downward to the horizontal position as shown in Figure 5-8. Use one hand to slowly move the card outwards. Supporting the bottom of the card with the other hand, pull the card out of the slot along slide rails, as shown by callout 3 in Figure 5-7.
To replace a subcard: Put on an ESD wrist strap, and make sure the wrist strap makes good skin contact and is reliably grounded. For more information, see "Attaching an ESD wrist strap." Use a Phillips screwdriver to loosen the mounting screws on the subcard. Rotate the ejector levers outward to unseat the subcard from the base card.
Unpack the fan tray. Holding the handle of the fan tray with one hand and supporting the bottom with the other, gently slide the fan tray along the guide rails into the slot until it is firmly seated in the slot. Fasten the captive screws on the fan tray.
Figure 5-11 Removing an air filter Replacing PoE system components WARNING! • Make sure the power is off when you are replacing a PoE system component. • After you switch off the power of the external PoE power frame, do not switch on the power again within 30 seconds.
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Figure 5-12 Removing the upper and lower terminal block covers over the power terminals (S7510E-X) Remove the outer nuts, spring washers, and flat washers from the power terminals. Remove the ring terminals of the power cords from the power terminals. Loosen the captive screws on the PoE PEM and slightly pull the module out.
Figure 5-13 Removing the PoE PEM (S7506E-X) Replacing a PoE power module for the external PoE power frame WARNING! Before you install the removed power module again, make sure the status LED on it is off. CAUTION: Before replacing a PoE power module, make sure other PoE power modules are available in the external PoE power frame for PoE power supply.
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Figure 5-14 Removing the DB-9 connector Loosen the screws on the front cover of the external PoE power frame and remove the front cover. Figure 5-15 Removing the front cover Pull the retaining latch at the bottom left corner of the power module to the left to open the power module cover.
Figure 5-17 Installing the front cover Connect the DB-9 connector to the 9-core serial port on the external PoE power frame, and fasten the captive screws. Figure 5-18 Connecting the DB-9 connector Replacing a power monitoring module for the external PoE power frame Remove the DB-9 connector from the external PoE power frame, as shown in Figure...
Slightly push the new power monitoring module into the slot and fasten the captive screws. Figure 5-20 Installing the power monitoring module Reinstall the front cover for the external power frame, as shown in Figure 5-17. Connect the DB-9 connector to the 9-core serial port on the external PoE power frame, and secure the captive screws, as shown in Figure 5-18.
Connect the DB-9 connector to the 9-core serial port on the external PoE power frame, and secure the captive screws, as shown in Figure 5-18. Replacing a transceiver module or network cable WARNING! Disconnected optical fibers or transceiver modules might emit invisible laser light. Do not stare into beams or view directly with optical instruments when the switch is operating.
Figure 5-23 Removing an SFP+ module Replacing a network cable CAUTION: • Do not touch the golden plating on the two modular ends of a network cable during the replacement process. • Make sure the two modular ends of the new network cable are compatible with the ports into which they will be inserted.
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Figure 5-24 Removing an SFP+ DAC cable Install a new cable. For the installation procedures, see "Connecting a network cable." 5-16...
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Contents 6 Appendix A Chassis views and technical specifications ··························· 6-1 Chassis views ················································································································································· 6-1 S7506E-X ················································································································································ 6-1 S7510E-X ················································································································································ 6-2 Weights and dimensions ································································································································· 6-2 Module power consumption and system power consumption ········································································ 6-5 Card power consumption ························································································································ 6-5 Fan tray power consumption ···················································································································...
Appendix A Chassis views and technical specifications Chassis views The figures are for illustration only. S7506E-X Figure 6-1 S7506E-X front and rear panels (1) LPU slots (slots 0 to 5) (2) Power module (3) Fan tray (4) PoE PEM slot (5) MPU slots (slots 6 and 7) (6) Switching fabric module slots (slot 8)
S7510E-X Figure 6-2 S7510E-X front and rear panels (1) LPU slots (slots 0 to 9) (2) Power module (3) Fan tray (4) PoE PEM slot (5) MPU slots (slots 10 and 11) (6) Switching fabric module slot (slot 12) Weights and dimensions Chassis dimensions in Table 6-1 exclude mounting brackets, cable management brackets, cards,...
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Card model Weight Height Width Depth LSQM1FAB06C0 1.80 kg (3.97 lb) 40 mm (1.57 in) 264 mm (10.39 in) 318 mm (12.52 in) LSQM1FAB10C0 2.75 kg (6.06 lb) 40 mm (1.57 in) 433 mm (17.05 in) 318 mm (12.52 in) LSQM2FAB10C0 2.79 kg (6.15 lb) 40 mm (1.57 in)
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Card model Weight Height Width Depth LSQM2GT48SC0 3.18 kg (7.01 lb) 40 mm (1.57 in) 399 mm (15.71 in) 355 mm (13.98 in) LSQM4GV48SA0 3.05 kg (6.72 lb) 40 mm (1.57 in) 399 mm (15.71 in) 355 mm (13.98 in) LSQM4GV48SC0 3.05 kg (6.72 lb) 40 mm (1.57 in)
NOTE: Card dimensions are expressed as follows: • H—Height of the front panel of the card. • W—Width of the front panel of the card. • D—Depth from the front panel of the card to the connector. Table 6-3 Power module weights and dimensions Model Weight Height...
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Table 6-6 Card power consumption Dynamic power consumption Model Static power consumption (min) (max) LSQM1MPU06B0 40 W 78 W LSQM1MPU10C0 81 W 145 W LSQM2MPU10C0 58 W 99 W LSQM1MPU10A0 56 W 92 W LSQM1FAB06C0 40 W 79 W LSQM1FAB10C0 69 W 136 W LSQM2FAB10C0...
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Dynamic power consumption Model Static power consumption (min) (max) LSQM2GP48SA0 28 W 58 W LSQM2GP24SA0 24 W 45 W LSQM1TGT24SF0 103 W 190 W LSQM1GT48FD0 48 W 65 W LSQM2GT48SA0 35 W 45 W LSQM2GT48SC0 38 W 48 W LSQM4GV48SA0 34 W 44 W LSQM4GV48SC0...
Dynamic power consumption Model Static power consumption (min) (max) LSQM1EPSB0 102W 124W LSQM1SDNB0 102W 124W LSQM1WBCZ720X 160W 210W Fan tray power consumption The switch uses fan trays that can automatically adjust the fan speed based on the heat dissipation condition of the switch. The power consumed by a fan tray depends on the fan speed. Table 6-7 shows the power consumption of different fan trays.
Table 6-8 Max system/Max card and fan tray power consumption in full and max configuration Max card and fan tray power Max system power consumption Model consumption (full and max (full and max configuration) configuration) S7506E-X-AC 1940 W 1720 W S7506E-X-DC 1930 W 1720 W...
For the power consumption of the cards and fan trays of the H3C S7500E-X Switch Series, see "Module power consumption and system power consumption." Environmental specifications Table 6-10 Environmental specifications Description Operating Non-operating Temperature 0°C to 45°C (32°F to 113°F) –40°C to +70°C (–40°F to +158°F)
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Contents 7 Appendix B FRUs and compatibility matrixes··········································· 7-1 MPUs ······························································································································································ 7-1 Service modules·············································································································································· 7-2 Ethernet interface cards ·························································································································· 7-2 Base cards ·············································································································································· 7-5 Subcards ················································································································································· 7-6 OAA cards ··············································································································································· 7-6 Restrictions and guidelines ··················································································································· 7-10 Switching fabric modules ······························································································································ 7-11 Power system················································································································································...
Appendix B FRUs and compatibility matrixes For the compatibility between transceiver modules and cards, see H3C S7500E-X Switch Series Cards and Transceiver Modules Compatibility Matrixes. MPUs You can install one MPU, or two MPUs for redundancy on the switch. When you install two MPUs, the two MPUs must be the same model.
Only one of them can be activated at a time. • Fiber ports do not support the half-duplex mode. For more information about duplex modes, see H3C S7500E-X Switch Series Interface Configuration Guide. • If you use the using hundredgige-from-fortygige interface...
Subcards You must install the subcards in base cards. The LSR1DRUP1L1 subcards must be installed in both slots 1 and 2 of an LSUM1SPMAEC0 base card. To connect two subcards in different switches, connect the subcard in slot 1 on one base card to that in slot 2 on the other-end base card, or vice versa.
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Compatible transceiver Model Description Ports modules • 1 × console port • • 1 × CF card slot (supporting Category 5 twisted-pair cable 256-MB, 512-MB, and 1-GB LSU1FWCEA0 Firewall module CF cards) • GE SFP transceiver • 2 × USB ports (reserved) module •...
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Compatible transceiver Model Description Ports modules • 1 × console port • 1 × CF card slot (supporting • 256-MB, 512-MB, and 1-GB Category 5 twisted-pair CF cards) cable LSQ1NSMSC0 NetStream module • • 2 × USB ports GE SFP transceiver •...
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Compatible transceiver Model Description Ports modules • 1 × console port • 1 × USB port (reserved) LSQM1ACGDS Application control • Category 5 twisted-pair cable 1 × 10/100/1000BASE-T gateway module copper port • 1 × hard disk slot • 1 × console port •...
OAA cards (excluding the LSUM1ACGDEC0, LSUM1FWDEC0, LSUM1NSDEC0, LSUM1WCMX20RT, and LSUM1WCMX40RT). • Cards supported by an S7506E-X switch vary by the forwarding mode of the slots. For information about the supported cards, see device management configuration in H3C S7500E-X Switch Series Fundamentals Configuration Guide. 7-10...
Switching fabric modules CAUTION: • The console port of the switching fabric module for the switch is used for H3C Support to maintain the switches. Do not use the console port if you have not been trained for that. Table 7-6 Available switching fabric modules and specifications...
LSUM1AC1200 LSUM1AC2500 LSUM1DC2400 Item specifications specifications specifications Operating temperature: – Operating temperature: – Operating temperature: – 10°C to +50°C (14°F to 10°C to +50°C (14°F to 10°C to +50°C (14°F to 122°F) 122°F) 122°F) Temperature requirements Storage temperature: – Storage temperature: – Storage temperature: –...
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Table 7-10 16A AC power cords used in different countries or regions Countries or regions where the type of Countries or Other countries or power cords conforms regions seldom Plug type Code (Length) regions using this type to local safety using this type of of power cords power cords...
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where the type of regions using this type regions seldom of power cords power cords conforms using this type of to local safety power cords regulations and can be used legally Holland, Denmark, Sweden, Finland, 0404A061 (3 Indonesia, Turkey, F type Norway, Germany, m, or 9.8 ft) Russia, and CIS...
PoE power system (optional) PoE PEM Table 7-11 PoE PEM specifications Item LSUM1PPEMA0 LSUM1PPEMB0 Input voltage range –52 to +57 VDC –52 to +57 VDC Input current 60 A 2 × 45 A Compatible device models and S7506E-X: 1 S7510E-X: 1 quantity requirement PoE power modules You can use a maximum of six LSTM2PSRA PoE power modules for an external PoE power frame.
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Table 7-14 Fan tray specifications Fan tray Number of fans Fan diameter Maximum air flow rate 92 mm (3.62 in) 1080 CFM 6 × 92 mm fans and 2 S7506E-X fan tray × 120 mm fans 120 mm (4.72 in) 1080 CFM S7510E-X fan tray 120 mm (4.72 in)
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Contents 8 Appendix C LEDs ···················································································· 8-1 MPU LEDs ······················································································································································ 8-1 Service module LEDs······································································································································ 8-3 Switching fabric module LEDs ························································································································ 8-5 Fan tray status LEDs······································································································································· 8-5 Power module LEDs ······································································································································· 8-6 PoE module status LEDs ································································································································ 8-7 PoE power module LEDs ························································································································ 8-7 PoE monitoring module LEDs ·················································································································...
Appendix C LEDs Table 8-1 LEDs at a glance LEDs LEDs: • Management Ethernet port LEDs • Fan tray status LEDs • Power status LEDs • Card LEDs • MPU active/standby status LED Service module LEDs: • RJ-45 Ethernet port LED •...
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Management Ethernet port LEDs Each MPU uses the LINK/ACT LED to indicate the link status and data forwarding status of the management Ethernet port. Table 8-2 Management Ethernet port LED description LINK/ACT LED Status Description A link is present, and the management Ethernet port is receiving or Flashing green sending data.
Table 8-5 Card LED description RUN LED ALM LED Description status status Flashing (0.5 The card is operating correctly. The service module or switching fabric module is loading software. Flashing (4 Hz) If the LED flashes continuously, the software version of the switch does not match that of the card.
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LED status Description No link is present. SFP port LED The service modules provide one SFP port LED for each SFP port to indicate the link status and data receiving/forwarding status of the SFP ports. Table 8-8 SFP port LED description Status Description Flashing...
Status Description A link is present, but no data is being received or sent. No link is present. NOTE: The color of the QSFP+ port LED indicates support of the port for 100-GE/40-GE switchover as follows: • Yellow—The port supports 100-GE/40-GE switchover. •...
Table 8-14 Fan tray LED description FAIL LED OK LED status Description status The fan tray is operating correctly. The fan tray is faulty. The fan tray is not powered on. Power module LEDs The LSUM1AC1200 and LSUM2AC2500 power modules each have one AC LED and one DC LED to indicate the operating status.
PoE module status LEDs PoE power module LEDs Table 8-17 PoE module LED description Status Description Steady green The power input is normal. Input power No power is being input. Flashing green The power input has exceeded the upper limit. Steady green The power output is normal.
Appendix D Cables This chapter describes cables used for connecting interfaces on the cards. Table 9-1 Cable description Cable Port type Application Console port at one end and 9-pin Enables users to perform Console cable serial port at the other end debugging, configuration, maintenance, management, and USB console port at one end and...
Figure 9-2 Straight-through cable white/orange orange white/green blue white/blue green white/brown brown Straight-through cable white/orange orange white/green blue white/blue green white/brown brown Figure 9-3 Crossover cable white/orange orange white/green blue white/blue green white/brown brown Crossover cable white/green green white/orange blue white/blue orange white/brown...
Figure 9-4 InfiniBand 4X connector Optical fiber CAUTION: Use the same types of transceiver modules, pigtail cords, patch cords, and fiber cables. If you use single-mode optical fibers, the transceiver modules, pigtail cords, patch cords, and fiber cables must be single-mode. Optical fiber Optical fibers are widely used in fiber-optic communications, which are advantageous for long-distance communications.
Patch cord A fiber that has connectors at both ends is called a patch cord. A patch cord connects one optical device to another for signal routing. Patch cords fall into single-mode and multi-mode patch cords. • Single-mode patch cord—The jacket is yellow. It permits transmission over longer distances. •...
• Fiber connectors must be protected under safe and reliable outer packing, and be fitted with dust caps. Fiber connectors must be installed with dust caps when they are not in use. Take care not to scratch their end face. Replace the dust cap if it is loose or polluted. •...
Figure 9-8 QSFP+ DAC cable (1) Connector (2) Pull latch QSFP+ to SFP+ DAC cable A QSFP+ to SFP+ DAC cable is a cable with one QSFP+ module at one end and four SFP+ modules at the other end. Figure 9-9 QSFP+ to SFP+ DAC cable (1) QSFP+ connector (2) QSFP+ pull latch (3) SFP+ connector...
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Contents 10 Appendix E Engineering labels ···························································· 10-1 Labels for cables ··········································································································································· 10-1 Labels for signal cables ························································································································· 10-1 Labels for power cords ·························································································································· 10-1 Generic labels ······································································································································· 10-2 Labels for devices ········································································································································· 10-3 Filling in labels··············································································································································· 10-3 Affixing labels ················································································································································ 10-3 Affixing a label to a signal cable ············································································································...
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.
Figure 10-2 Label for power cords (1) Cable tie (2) Dividing line on the label Generic labels A generic label is bar-shaped with fixed dimensions. It is applicable to both signal cables and power cords. A mark "TO:" is located at the upper left corner in the right area of the label to identify the peer end of the cable on which the label is affixed.
Figure 10-3 Generic label (1) Dividing line on the label (2) Cut dotted line Labels for devices A device label is used to identify the device name, model, address, installation date, and so on. Filling in labels You can print or write desired contents on labels. As a best practice, print labels. To print labels, select a label printer and a proper label template as needed.
Figure 10-4 Affixing a label Stick side B02 03 Figure 10-5 shows the affixed labels when the cable is laid vertically and horizontally. Figure 10-5 Affixed labels TO : B0 2 0 3 1 2 Affixing a label to a power cord Stick the label to the recessed rectangular area on the identification plate.
Figure 10-6 Affixing a label B03 -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 10-7.
Figure 10-8 Affixing a generic label B02 03 12 Stick side Affixing a label to a device Remove the device label and stick it to the device. You can stick a device label to any desired position on the device. Guidelines •...
Content Meaning Example 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. • M—Row number of the rack in the equipment room, in the range of A to Z.
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Table 10-2 Information on labels affixed to the fiber between two devices Content Meaning Example • M—Row number of the rack in the equipment room, in the range of A to Z. • N—Column number of the rack in the MN—Rack number equipment room, in the range of 01 to 99.
Content Meaning Example B—Row number of the terminal device In the range of 01 to 99, for example, 01-01. C—Column number of the terminal device R—Optical receiving interface T—Optical transmitting interface Figure 10-10 Example of a label on an optical fiber between two devices A 0 1 •...
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Table 10-4 Information on labels affixed to DC power cords Content Meaning • Loaded cabinet side—Only MN is used to identify the cabinet number MN(BC)-–48Vn (row number and column number in the equipment room). MN(BC)-RTN • Power cabinet side—MN identifies the row and column number of the power distribution equipment like the control cabinet and distribution box.
Engineering labels for AC power cords These labels are affixed to the AC cords that provide power for cabinets and protection grounding cables, including POWER, RTN, and PGND cables. The 220 VAC cables and related PGND and RTN cables are covered with insulating sheath, so the labels only need to contain "AC" and the cabinet number.
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Figure 10-14 Example of a device label 10-12...
Appendix F Cable management Label cables before you route or bundle them. For more information about labeling cables, see "Appendix E Engineering labels." Cable management guidelines When you route and bundle up cables, follow these guidelines: • Bind cables neatly for easy maintenance and expansion. •...
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Figure 11-2 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. •...
Cable management examples The devices in the following figures are for illustration only. Figure 11-4 Network cable management Figure 11-5 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. 11-3...
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Figure 11-6 Power cord management 11-4...
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Contents 12 Appendix G Repackaging the switch···················································· 12-1 Removing cables from the switch ················································································································· 12-1 Removing the power cords ··················································································································· 12-1 Removing the console cable ················································································································· 12-1 Removing the grounding cable ············································································································· 12-1 Removing the twisted pair cables and optical fibers ············································································· 12-2 Repackaging the switch accessories ············································································································...
Appendix G Repackaging the switch This chapter describes how to repackage the switch chassis, power modules, cards, mounting brackets, cable management brackets, and air filters. Removing cables from the switch Before repackaging the switch, remove all cables such as power cords, console cables, twisted pair cables, optical fibers, and grounding cable from the switch.
Figure 12-1 Removing the grounding cable (S7510E-X) Removing the twisted pair cables and optical fibers You must remove all twisted pair cables and optical fibers from the interfaces of the switch. NOTE: After pulling out an optical fiber from an optical transceiver module, cover the connector of the optical fiber with a dust cap to keep the connector clean.
Put each packed power module and power cord into the box. Place the power module in a correct direction onto the foam cushion in the box; otherwise, the power module cannot be completely seated into the foam cushion. Repackaging the cards Prepare the anti-static bag and box for each card.
Figure 12-2 Removing the chassis (S7506E-X) from the rack Put the chassis onto the pallet base of the wooden carton. Removing the air filter Prepare the packing bag of the air filter. Make sure the bag is clean, dry, and not damaged. Remove the air filter from the side of the chassis.
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d. Fasten the nuts. Figure 12-4 Attaching the L-type brackets to the wooden pallet base (1) L-type bracket (2) Bolt Cover the chassis with the packing bag from the top down, and then tape the bag to the plastic cover of pallet base. Cover the foam cushion to the chassis top, and make sure the mounting brackets seat into the internal notches of the foam cushion.
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Figure 12-5 Covering the chassis (1) Box of packed accessories (2) Carton (3) Foam cushion (4) Paper angle bead 12-6...
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