HPE FlexNetwork 10500 Series Installation Manual
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Also See for FlexNetwork 10500 Series:
- Security command reference (881 pages) ,
- Security configuration manual (702 pages) ,
- Network management and monitoring command reference (423 pages)
Related Manuals for HPE FlexNetwork 10500 Series
Summary of Contents for HPE FlexNetwork 10500 Series
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Page 1: Installation Guide
HPE FlexNetwork 10500 Switch Series Installation Guide Part number: 5200-1890 Document version: 6W100-20161230... - Page 2 © Copyright 2016 Hewlett Packard Enterprise Development LP The information contained herein is subject to change without notice. The only warranties for Hewlett Packard Enterprise products and services are set forth in the express warranty statements accompanying such products and services. Nothing herein should be construed as constituting an additional warranty. Hewlett Packard Enterprise shall not be liable for technical or editorial errors or omissions contained herein.
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Page 3: Table Of Contents
Contents Preparing for installation ···································································· 1 Safety recommendations ············································································································· 1 General safety recommendations ··························································································· 1 Electricity safety ·················································································································· 1 Handling safety ··················································································································· 1 ESD prevention ··················································································································· 2 Laser safety ······················································································································· 2 Examining the installation site ······································································································· 2 Weight support ··················································································································· 2 Temperature ······················································································································... - Page 4 Replacement procedures ································································· 33 Replacing mounting brackets ······································································································ 33 Replacing a power supply ·········································································································· 34 Replacing a module ·················································································································· 35 Replacing a fan tray·················································································································· 36 Replacing a CF card ················································································································· 37 Replacing a transceiver module ·································································································· 39 Replacing an XFP/SFP+/SFP/QSFP+ module ········································································· 39 Replacing a CFP module ····································································································...
- Page 5 1000/100 Mbps SFP transceiver modules ····················································································· 76 Appendix E Cables ········································································· 79 Ethernet twisted pair cable ········································································································· 79 RJ-45 connector ················································································································ 79 Cable pinouts ··················································································································· 80 Cable type ······················································································································· 80 Optical fiber ···························································································································· 82 Optical fiber ······················································································································ 82 Optical fiber cable ·············································································································· 82 Patch cord ·······················································································································...
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Page 6: Preparing For Installation
Any attempt to move the switch with these parts might cause equipment damage and even bodily injury. When you move an HPE 10500 switch, follow these guidelines: • Remove all external cables, including the power cords, before moving the chassis. -
Page 7: Esd Prevention
The HPE 10500 switches are Class 1 laser products. Examining the installation site The HPE 10500 switches must be used indoors. To ensure correct operation and long service life of your switch, the installation site must meet the requirements in this section. -
Page 8: Cleanliness
• 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 2 Humidity requirements Humidity Range... -
Page 9: Grounding
• If AC power is used, use a single-phase three-wire power receptacle with protection earth (PE) to filter interference from the power grid. • Keep the switch far away from radio transmitting stations, radar stations, and high-frequency devices. • Use electromagnetic shielding, for example, shielded interface cables, when necessary. •... -
Page 10: Space
Figure 1 Airflow through the 10508-V chassis (1) Power supply air inlet vents (2) Power supply air outlet vents (3) Chassis air inlet vents (4) Chassis air outlet vents Figure 2 Airflow through other 10500 switch chassis (10504) (1) Power supply air inlet vents (2) Power supply air outlet vents (3) Chassis air inlet vents (4) Chassis air outlet vents... - Page 11 • Reserve a minimum of 1 m (3.28 ft) of clearance between the rack and walls or other devices. • The equipment room is a minimum of 3 m (9.84 ft) high. • The dimensions of the rack are sufficient for the chassis. For more information about chassis specifications, see "Appendix A Chassis views and technical specifications."...
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Page 12: Installation Accessories And Tools
Model Chassis dimensions Rack requirements • Height—797 mm (31.38 in)/18 RU • A minimum of 91 mm (3.58 in) • Width—440 mm (17.32 in) between the front rack posts and the • Depth—773 mm (30.43 in) front door. 660 mm (25.98 in) for the •... -
Page 13: Tools And Equipment
NOTE: Removable cable ties are shipped with the power supplies. Other accessories are shipped with the chassis. Tools and equipment Prepare the following tools and equipment yourself: • Mechanical lift. • Phillips screwdrivers P1–100 mm, P2–150 mm, and P3–250 mm. •... -
Page 14: Installing The Switch
"Appendix A Chassis views and technical specifications." As a best practice, order the HPE 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 slide rails: •... - Page 15 Mark the uppermost and lowermost cage nut installation holes on the rack posts for the slide rails. For a 10504, 10508, 10508-V, or 10512 switch that uses HPE slide rails, use a slide rail to determine the cage nut installation holes.
- Page 16 Figure 4 Determining the cage nut installation holes by using a slide rail 1 RU 1 RU 1 RU (1) Middle of the narrower metal area between holes Install six cage nuts in the square holes in each rack post, as shown in Figure Figure 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...
- Page 17 Figure 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. Then fasten the screws. Install a screw in each mounting hole of the slide rail to ensure its weight bearing capacity.
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Page 18: Installing Cage Nuts For Attaching Mounting Brackets
Figure 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: Use one of the following methods to locate and mark the cage nut installation holes on the front rack posts: Use a mounting bracket. -
Page 19: Mounting The Switch In The Rack
Figure 8 Installing cage nuts (10504 as an example) (1) Cage nuts Mounting the switch in the rack CAUTION: • Do not hold the handle of the fan tray or power supply, or the air vents of chassis to move the switch. -
Page 20: Grounding The Switch
Attach the chassis to the rack with mounting screws. Figure 9 Installing the chassis in the rack (10504) 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. -
Page 21: Grounding The Switch Through The Pe Wire Of An Ac Power Supply
Figure 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. -
Page 22: Grounding The Switch Through The Rtn Wire Of A Dc Power Supply
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 Figure... -
Page 23: Installing Frus
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 10500 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. -
Page 24: Installing A Module
Installing a module IMPORTANT: • Before installing a module in the chassis, make sure the connectors on the module are not broken or blocked to avoid damaging the backplane. • To ensure good ventilation, install a blank filler panel in an empty slot. •... -
Page 25: Installing A Power Supply
Figure 14 Installing a module Installing a power supply CAUTION: • Provide a circuit breaker for each power supply and make sure the circuit breaker is off before installation. • Do not install power supplies of different models on the same switch. •... -
Page 26: Connecting An Ac Power Cord
Some power supply slots do not have a blank panel. The figures in this section are for illustration only. To install the power supply: Wear an ESD wrist strap and make sure it makes good skin contact and is reliably grounded. For more information, see "Attaching an ESD wrist strap."... - Page 27 Figure 17 shows how to connect the power cord for a vertical slot switch (10508, 10508-V, and 10512). Figure 18 shows how to connect the power cord for a horizontal slot switch (10504). Plug the other end of the power cord to the AC power receptacle of the power source in the equipment room and switch on the circuit breaker.
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Page 28: Connecting A Dc Power Cord
Connecting a DC power cord WARNING! • Make sure each wire has a separate circuit breaker. • Turn off the circuit breaker before you connect each wire. To connect the power cord: Plug the power cord into the power receptacle of the power supply. Fasten the screw to secure the power cord. -
Page 29: Installing A Cfp Module
Unpack the module and make sure the clasp is closed. Do not touch the golden plating of the module. Gently insert the SFP+ module into the port until it has firm contact with the slot (when the top and bottom spring tabs catch in the slot). If you cannot hold the module by its two sides because of high module density, press the module on its head end to push it in. - Page 30 • To connect QSFP+ and SFP+ ports, use QSFP+ to SFP+ DAC cables. All these cables are hot swappable. The connection procedure is similar for these cables. The following uses an SFP+ DAC cable as an example. To connect an SFP+ DAC cable: Wear an ESD wrist strap and make sure it makes good skin contact and is reliably grounded.
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Page 31: Connecting Your Switch To The Network
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 HPE FlexNetwork 10500 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. - Page 32 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 24 shows the console cable and Table 9 shows its pinouts.
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Page 33: Setting Terminal Parameters
Figure 25 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. - Page 34 To power on the switch: Turn on the power source of the switch to power on the switch. The following is a sample output you can see on the terminal: System is starting... Press Ctrl+D to access BASIC-BOOTWARE MENU... Press Ctrl+T to start memory test Booting Normal Extended BootWare The Extended BootWare is self-decompressing..Done.
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Page 35: Configuring The Switch
Password management granular privilege management Environments where multiple Complex to configure, secure, and Username and password operators cooperate to manage hierarchical user management the switch For more information about login methods, see HPE FlexNetwork 10500 Switch Series Fundamentals Configuration Guide. -
Page 36: Connecting The Switch To The Network
Connecting the switch to the network Before you connect the switch to the network, verify that all its basic settings are correct. Connecting your switch to the network through twisted pair cables You can connect the 10/100BASE-TX ports, 1000BASE-T ports, and 10GBASE-T ports on your switch to the network. -
Page 37: Testing Connectivity
QSFP+ module Testing connectivity After you connect the switch to the network, use the ping or tracert command to test the network connectivity. For more information about these commands, see HPE FlexNetwork 10500 Switch Series Network Management and Monitoring Command References. -
Page 38: Replacement Procedures
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. -
Page 39: Replacing A Power Supply
Figure 30 Installing mounting brackets (10504) 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 "Installing the switch." Replacing a power supply Follow these guidelines when you replace a power supply: •... -
Page 40: Replacing A Module
Wear an ESD wrist strap and make sure it makes good skin contact and is reliably grounded. For more information, see "Installing FRUs." Remove the power cord plug from the power supply. AC power cord: Remove the cable ties from the power cord, and remove the power cord ... -
Page 41: Replacing A Fan Tray
The modules on the 10500 switches can be installed in horizontal or vertical slots, and the replacement procedures are the same. The following takes a module installed in a horizontal slot as an example. To replace a module: Prepare an antistatic mat to place the removed module. Wear an ESD wrist strap and make sure it makes good skin contact and is reliably grounded. -
Page 42: Replacing A Cf Card
oriented for the 10508-V switch. This section takes removing and installing a vertically oriented fan tray on a 10504 as an example. To remove a fan tray: Prepare an antistatic mat to place the fan tray to be removed. Put on an ESD wrist strap and make sure the wrist strap makes good skin contact and is reliably grounded. - Page 43 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 mount the CF card again. For more information about the umount and mount commands, see HPE FlexNetwork 10500 Routing Switch Series Fundamentals Command Reference.
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Page 44: Replacing A Transceiver Module
Figure 37 Replacing a CF card Replacing a transceiver module WARNING! • Keep the dust plug in the transceiver module until you are ready to connect a fiber to the module. • Do not stare at the fiber ports to avoid hurting your eyes when you install or remove a module. •... -
Page 45: Replacing A Cfp Module
For a QSFP+ module that uses a plastic pull latch, skip this step. QSFP+ modules use either a metal or plastic pull latch. Grasp the clasp on the module and carefully pull the module out of the slot. Figure 38 Removing an SFP+ module Put the dust plug on the removed module, and put the remove module into its original shipping materials. - Page 46 • The bend radius of the cable must be at least eight times the cable diameter. • If the cable cannot be removed or installed, verify that the removal or installation procedures are correct. • To prevent damage and for smooth removal, pull the pull latch horizontally when removing the cable.
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Page 47: Document Conventions And Icons
Document conventions and icons Conventions This section describes the conventions used in the documentation. Port numbering in examples The port numbers in this document are for illustration only and might be unavailable on your device. Command conventions Convention Description Boldface Bold text represents commands and keywords that you enter literally as shown. -
Page 48: Network Topology Icons
Network topology icons Convention Description Represents a generic network device, such as a router, switch, or firewall. Represents a routing-capable device, such as a router or Layer 3 switch. Represents a generic switch, such as a Layer 2 or Layer 3 switch, or a router that supports Layer 2 forwarding and other Layer 2 features. -
Page 49: Support And Other Resources
Support and other resources Accessing Hewlett Packard Enterprise Support • For live assistance, go to the Contact Hewlett Packard Enterprise Worldwide website: www.hpe.com/assistance • To access documentation and support services, go to the Hewlett Packard Enterprise Support Center website: www.hpe.com/support/hpesc Information to collect •... -
Page 50: Websites
For more information and device support details, go to the following website: www.hpe.com/info/insightremotesupport/docs Documentation feedback Hewlett Packard Enterprise is committed to providing documentation that meets your needs. To help us improve the documentation, send any errors, suggestions, or comments to Documentation Feedback (docsfeedback@hpe.com). When submitting your feedback, include the document title,... - Page 51 part number, edition, and publication date located on the front cover of the document. For online help content, include the product name, product version, help edition, and publication date located on the legal notices page.
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Page 52: Appendix A Chassis Views And Technical Specifications
IMPORTANT: For regulatory identification purposes, the switches are assigned regulatory model numbers (RMNs). The RMNs should not be confused with the marketing name HPE 105XX, or product codes JC611A, JC612A, JC613A, JC748A, JG820A, JG821A, JG822A, and JG823A. Table 12 Module models... - Page 53 HPE FlexNetwork 10500 16-port GbE SFP /8-port GbE Combo / JC617A 2-port 10-GbE XFP SE Module LSU1GP24TXSE0 JG376A HPE FlexNetwork 10500 16-port GbE SFP / 8-port GbE Combo / 2-port 10GbE XFP SE TAA-compliant Module LSU1GP24TXEA0 JC621A HPE FlexNetwork 10500 16-port GbE SFP /8-port GbE Combo /...
- Page 54 Description code 2-port 10-GbE XFP EA Module JG380A HPE FlexNetwork 10500 16-port GbE SFP / 8-port GbE Combo / 2-port 10GbE XFP EA TAA-compliant Module HPE FlexNetwork 10500 16-port GbE SFP /8-port GbE Combo / JC626A 2-port 10-GbE XFP EB Module...
- Page 55 Product Model Description code Module HPE FlexNetwork 10500 48-port GbE SFP EA Module JC622A LSU1GP48EA0 HPE FlexNetwork 10500 48-port GbE SFP EA TAA-compliant JG381A Module HPE FlexNetwork 10500 48-port GbE SFP EB Module JC625A LSU1GP48EB0 HPE FlexNetwork 10500 48-port GbE SFP EB TAA-compliant...
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Page 56: Chassis Views
Table 15 DC power cables Product code Description DC power cable length HPE FlexNetwork 10500 -48V 3m DC Power Supply JG390A 3 m (9.84 ft) Cable HPE FlexNetwork 10500 -48V 15m DC Power Supply JG391A 15 m (49.21 ft) Cable Chassis views This section uses the 10504 as examples. - Page 57 Table 17 Module weights and dimensions Module model Weight Height Width Depth LSU1SUPA0 2.83 kg (6.24 lb) 40 mm (1.57 in) 399 mm (15.71 in) 355 mm (13.98 in) LSU1SUPB0 2.97 kg (6.55 lb) 40 mm (1.57 in) 399 mm (15.71 in) 355 mm (13.98 in) LSUM1SUPD0 3.05 kg (6.72 lb)
- Page 58 Module model Weight Height Width Depth LSUM2GP44TSSE0 3.00 kg (6.61 lb) 40 mm (1.57 in) 399 mm (15.71 in) 355 mm (13.98 in) LSU1GP24TXSE0 3.08 kg (6.79 lb) 40 mm (1.57 in) 399 mm (15.71 in) 355 mm (13.98 in) LSU1GP24TXEA0 3.08 kg (6.79 lb) 40 mm (1.57 in)
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Page 59: Module Power Consumption And System Power Consumption
Fan tray Weight Height Width Depth 10512 lower fan 3.61 kg (7.96 lb) 84 mm (3.31 in) 301 mm (11.85 in) 646 mm (25.43 in) tray Module power consumption and system power consumption Module power consumption The power consumption of the modules depends on the module model and state. •... -
Page 60: Fan Tray Power Consumption
Static power consumption Dynamic power consumption Model (min) (max) LSU1TGS48SF0 164 W 255 W LSUM1TGS48SG0 107 W 215 W LSUM2TGS48SG0 82 W 173 W LSUM2TGS32QSSG0 60 W 147 W LSU1TGS32SF0 126 W 170 W LSU1TGS16SC0 84 W 115 W LSUM2TGS16SF0 45 W 75 W LSU1TGS8EA0... -
Page 61: Power Consumption
Minimum fan tray power Maximum fan tray power Model consumption consumption 10508-V 13 W 329 W 10512 (upper fan tray) 200 W 10512 (lower fan tray) 124 W Power consumption The total power consumption of the switch equals its system power consumption. System power consumption The system power consumption of the switch depends on the type and number of modules and the fan tray power consumption. -
Page 62: Heat Dissipation
10504 5732 10508 9943 10508-V 10267 10512 15369 For the power consumption of the modules and fan trays of the HPE 10500 switches, see "Module power consumption and system power consumption." Environmental specifications Table 24 Environmental specifications Description Operating Non-operating Temperature 0°C to 45°C (32°F to 113°F) -
Page 63: Appendix B Frus And Compatibility Matrixes
Appendix B FRUs and compatibility matrixes For the compatibility between cards and the system software, see the release notes. 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. Table 26 MPU specifications Specifications Item... - Page 64 Port Compatible transceiver Model Port type quantity module LSU1QGC4SF0 40GBASE-R CFP fiber port 40-GE CFP module • QSFP+ module • QSFP+ DAC cable LSUM2QGS12SG0 40GBASE-R QSFP+ fiber port • QSFP+ to SFP+ DAC cable • QSFP+ fiber cable • QSFP+ module •...
- Page 65 Port Compatible transceiver Model Port type quantity module • 10-GE SFP+ module 10GBASE-R/SFP+/LC fiber • 10-GE SFP+ DAC cable LSU1TGS32SF0 port • GE SFP module • 10-GE SFP+ module 10GBASE-R SFP+/LC fiber • 10-GE SFP+ DAC cable LSU1TGS16SC0 port • GE SFP module •...
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Page 66: Oaa Modules
• The Ethernet copper ports on the LSUM2GT48SE0 (JH192A or JH200A) module and all fiber ports cannot be configured or automatically negotiated to operate in half-duplex mode. For more information about the duplex mode of Ethernet interfaces, see HPE FlexNetwork 10500 Switch Series Fundamentals Command Reference. -
Page 67: Power System
Slot 10 or 11 on the 10508 or 10508-V. Slot 14 or 15 on the 10512. As a best practice, use the two lowest numbered switching fabric module slots for installation first. • The console port of the switching fabric module for the 10500 is used for Hewlett Packard Enterprise Support to maintain the switches. -
Page 68: Power Cords
Item LSUM1AC2500 specifications LSUM1DC2400 specifications • current 100 A (110 VAC) • 1200 W (110 VAC) Maximum output 2400 W • power 2500 W (220 VAC) Operating temperature: –10°C to +50°C Operating temperature: –10°C to +50°C (14°F to 122°F) (14°F to 122°F) Temperature requirements Storage temperature: –40°C to +85°C... - Page 69 Table 33 Fan tray specifications Number of Maximum Maximum air Fan tray Fan diameter fans rotating speed flow rate 10504 fan tray 92 mm (3.62 in) 6000 RPM 960 CFM 10508 fan tray 120 mm (4.72 in) 5200 RPM 1440 CFM 10508-V fan tray 120 mm (4.72 in) 5200 RPM...
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Page 70: Appendix C Leds
Appendix C LEDs Table 34 LEDs at a glance LEDs LEDs: • CF card status LED • Management Ethernet port LEDs • Fan tray status LEDs • Module LEDs • MPU active/standby status LED Service module LEDs: • RJ-45 Ethernet port LED •... - Page 71 NOTE: When the CF card LED is on, do not remove the CF card. To remove it, execute the umount command in user view to uninstall the CF card, and then remove the CF card when the CF card LED is off.
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Page 72: Service Module Leds
Table 39 Module LED description RUN LED ALM LED Description status status Flashing (0.5 The module 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 module. - Page 73 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 42 SFP port LED description Status Description Flashing The SFP port is receiving or sending data. A link is present.
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Page 74: Switching Fabric Module Leds
CFP port LEDs The service modules provide a LED for each CFP port to indicate the link status and data receiving/forwarding status of the CFP ports. Table 46 CFP port LED description Status Description Flashing The CFP port is receiving or sending data. A link is present, but no data is being received or sent. - Page 75 Table 49 LSUM1AC2500 power supply LED description Color Description • The power supply has no power input. • The input voltage is too low, and the power supply is in self protection state. Green The power input is normal. Green The power supply is outputting power normally.
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Page 76: Appendix D Transceiver Modules
Table 51 CFP module specifications Maximum Central Fiber Product code Description transmission wavelength diameter distance 9/125µm HPE X140 40G CFP LC 10 km (6.21 JC857A 1310 nm single-mode LR4 10km SM Transceiver miles) optical fiber • 1295.56 nm 9/125 µm •... -
Page 77: 40-Ge Qsfp+ Transceiver Modules
The JG329A, JG330A, and JG331A cables are used to connect one 40-GE QSFP+ port to four 10-GE SFP+ ports. Table 53 QSFP+ DAC cable specifications Product code Description Cable length Cable type Description HPE X240 40G QSFP+ Used for JG326A 1 m (3.28 ft) 40G QSFP+ QSFP+ 1m Direct connecting 40G... -
Page 78: 40-Ge Qsfp Fiber Cables
Table 55 40-GE QSFP fiber cable specifications Product code Description Cable length JL287A HPE X2A0 40G QSFP+ to QSFP+ 7m Active Optical Cable 7 m (22.97 ft) JL288A HPE X2A0 40G QSFP+ to QSFP+ 10m Active Optical Cable 10 m (32.81 ft) - Page 79 Produ Multimode fiber Central Fiber Description modal transmission wavelength diameter code bandwidth distance 9/125 µm HPE X130 10G single-mod JD108B XFP LC LR 1310 nm 10 km (6.21 miles) e optical Transceiver fiber 9/125 µm HPE X135 10G single-mod JD121A...
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Page 80: 10-Ge Sfp+ Transceiver Modules
Central Connector Cable Description transmission t code wavelength type specifications distance 50/125 µm HPE X130 10G SFP+ 300 m (984.25 JD092B 850 nm multi-mode optical LC SR Transceiver fiber 50/125 µm HPE X130 10G SFP+ JD092B 850 nm multi-mode optical 82 m (269.03 ft) -
Page 81: 1000/100 Mbps Sfp Transceiver Modules
SFP+ 3 m (9.84 ft) JG081C HPE X240 SFP+ SFP+ 5m DAC Cable SFP+ 5 m (16.40 ft) HPE X240 10G SFP+ SFP+ 7m Direct Attach Copper JC784C SFP+ 7 m (22.97 ft) Cable 1000/100 Mbps SFP transceiver modules Table 59 SFP transceiver module specifications... - Page 82 Product Central Connect Cable Description transmissio code wavelength or type specifications n distance • RX: 1490 HPE X120 1G SFP 9/125 µm 10 km (6.21 JD098B LC BX 10-U single-mode • miles) TX: 1310 Transceiver optical fiber • RX: 1310 HPE X120 1G SFP 9/125 µm...
- Page 83 Central Connect Cable Description transmissio code wavelength or type specifications n distance Transceiver optical fiber HPE X110 100M 9/125 µm TX: 1550 nm 15 km (9.32 JD101A SFP LC BX 10-D single-mode miles) RX: 1310 nm Transceiver optical fiber NOTE: •...
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Page 84: Appendix E Cables
Appendix E Cables This chapter describes cables used for connecting interfaces on the modules. Table 60 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... -
Page 85: Cable Pinouts
Cable pinouts EIA/TIA cabling specifications define two standards: 568A and 568B for cable pinouts. • Standard 568A—pin 1: white/green stripe, pin 2: green solid, pin 3: white/orange stripe, pin 4: blue solid, pin 5: white/blue stripe, pin 6: orange solid, pin 7: white/brown stripe, pin 8: brown solid. - Page 86 Figure 45 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 46 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...
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Page 87: Optical Fiber
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. -
Page 88: Fiber Connector
Fiber connector Fiber connectors are indispensable passive components in an optical fiber communication system. They allow the removable connection between optical channels, which makes the optical system debugging and maintenance more convenient and the transit dispatching of the system more flexible. -
Page 89: Sfp+ Dac Cable
SFP+ DAC cable You can use SFP+ DAC cables to connect the SFP+ ports. The SFP+ DAC cables available for the switch series are 10 G SFP+ Cu cables, as shown in Figure Figure 49 SFP+ DAC cable (1) Connector (2) Pull latch QSFP+ DAC cable You can use QSFP+ DAC cables to connect the QSFP+ ports. -
Page 90: Qsfp+ To Sfp+ Dac Cable
Figure 51 QSFP+ fiber 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 52 QSFP+ to SFP+ DAC cable (1) QSFP+ connector (2) QSFP+ pull latch (3) SFP+ connector... -
Page 91: Appendix F Engineering Labels
Appendix F 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 92: Generic Labels
Figure 54 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. -
Page 93: Labels For Devices
Figure 55 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. -
Page 94: Affixing A Label To A Power Cord
Figure 56 Affixing a label Stick side B02 03 Figure 57 shows the affixed labels when the cable is laid vertically and horizontally. Figure 57 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. -
Page 95: Affixing A Generic Label
Figure 58 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 Figure 59 Affixed labels... -
Page 96: Affixing A Label To A Device
Figure 60 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 •... -
Page 97: Engineering Labels For Optical Fibers
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. - Page 98 Table 64 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.
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Page 99: Engineering Labels For Dc Power Cords
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 62 Example of a label on an optical fiber between two devices A 0 1 •... -
Page 100: Engineering Labels For Ac Power Cords
Content Meaning column number for identification. • n—Power port number in down-top and left-right order, in the range of 1 to The label only carries location information about the peer equipment, control cabinet, or distribution box, while the information of the local end is not necessary. Table 66 lists the information of two –48V power supplies on the label. -
Page 101: Engineering Labels For Devices
Content Meaning location of the socket where the power is led in. The location of the socket is marked according to onsite situation. If the sockets can be identified by row number and column number, they can be numbered following the same rule for the rack number. - Page 102 Figure 66 Example of a device label...
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Page 103: Appendix G Cable Management
Appendix G Cable management Label cables before you route or bundle them. For more information about labeling cables, see "Appendix F 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 104 Figure 68 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. •...
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Page 105: Cable Management Examples
Cable management examples The devices in the following figures are for illustration only. Figure 70 Network cable management Figure 71 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. - Page 106 Figure 72 Power cord management...
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Page 107: Appendix H Repackaging The Switch
Appendix H Repackaging the switch This chapter describes how to repackage the switch chassis, power supplies, modules, mounting brackets, and cable management brackets. 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. -
Page 108: Removing The Twisted Pair Cables And Optical Fibers
Figure 73 Removing the grounding cable (10504) 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. -
Page 109: Repackaging The Modules
Repackaging the modules Prepare the anti-static bag and box for each module. Make sure the bag and box is clean, dry, and not damaged. Remove the transceiver modules from each module. If no transceiver module is installed on the module, go to the next step. For how to remove a transceiver module, see "Replacement procedures."... - Page 110 Figure 75 Wooden pallet base (1) Rear positioning line (2) Left and right positioning lines Use screws to attach L-type brackets to the chassis. Align the mounting holes on the L-type brackets with the mounting holes on the wooden pallet base.
- Page 111 Cover the foam cushion to the chassis top, and make sure the mounting brackets seat into the internal notches of the foam cushion. See Figure Put the box of packed accessories into the notch of the foam cushion that is near to the rear end of the chassis, as shown in Figure Erect one paper angle bead along each vertical edge of the chassis, and use the carton to cover...
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Page 112: Index
Index A C D E F G H I L M O P R S T W Grounding the switch through the RTN wire of a DC power supply,17 Affixing a generic label,90 Grounding the switch with a grounding strip,15 Affixing a label to a device,91 Affixing a label to a power... - Page 113 Repackaging the modules,104 Setting terminal parameters,28 Repackaging the power supplies,103 Setting up the configuration environment,26 Repackaging the switch chassis,104 Space,5 Replacing a CFP module,40 Replacing an SFP+/QSFP+/QSFP+ to SFP+ DAC Temperature,2 cable,40 Tools and equipment,8 Replacing an XFP/SFP+/SFP/QSFP+ module,39 Restrictions and guidelines,61 RJ-45 connector,79...